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humotion / examples / yarp_icub / src / icub_jointinterface.cpp @ bfe17564

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1 8c6c1163 Simon Schulz
#include "icub_jointinterface.h"
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#include "icub_faceinterface.h"
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#include <yarp/os/Property.h>
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using namespace yarp::dev;
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using namespace yarp::sig;
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using namespace yarp::os;
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using namespace std;
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/*running:
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/media/local_data/sschulz/iros15/icub-nightly/share/iCub/contexts/simConfig:> iCub_SIM
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/media/local_data/sschulz/iros15/icub-nightly/share/iCub/contexts/simFaceExpressions:> ../../../../bin/simFaceExpressions
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yarp connect /face/eyelids /icubSim/face/eyelids
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yarp connect /face/image/out /icubSim/texture/face
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TEST: yarp write /writer /icubSim/face/raw/in
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http://wiki.icub.org/wiki/Motor_control
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*/
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//WARNING: DO NOT CHANGE THIS; VELOCITYMODE IS NOT YET IMPLEMENTED
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#define POSITION_CONTROL 0
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//! constructor
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iCubJointInterface::iCubJointInterface(string _scope) : humotion::server::JointInterface(){
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    scope = _scope;
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    face_interface = new iCubFaceInterface(scope);
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    //add mapping from ids to enums:
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    //this might look strange at the first sight but we need to have a generic
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    //way to acces joints from libhumotion. therefore the lib uses its enum with ID_* enum ids
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    //to access the joints. now we need to define a mapping to map those to our motor ids.
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    //this is what we use the enum bimap for (convertion fro/to motorid is handled
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    //by \sa convert_enum_to_motorid() and \sa convert_motorid_to_enum() lateron
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    //MOUTH
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_LEFT_UPPER,   ID_LIP_LEFT_UPPER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_LEFT_LOWER,   ID_LIP_LEFT_LOWER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_CENTER_UPPER, ID_LIP_CENTER_UPPER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_CENTER_LOWER, ID_LIP_CENTER_LOWER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_RIGHT_UPPER,  ID_LIP_RIGHT_UPPER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_LIP_RIGHT_LOWER,  ID_LIP_RIGHT_LOWER));
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    //NECK
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_NECK_PAN,    ID_NECK_PAN));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_NECK_TILT,   ID_NECK_TILT));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_NECK_ROLL,   ID_NECK_ROLL));
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    //EYES
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_PAN,   ID_EYES_LEFT_LR));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_VERGENCE,   ID_EYES_RIGHT_LR));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_BOTH_UD,   ID_EYES_BOTH_UD));
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    //EYELIDS
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_LEFT_LID_LOWER, ID_EYES_LEFT_LID_LOWER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_LEFT_LID_UPPER, ID_EYES_LEFT_LID_UPPER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_LEFT_BROW, ID_EYES_LEFT_BROW));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_RIGHT_LID_LOWER, ID_EYES_RIGHT_LID_LOWER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_RIGHT_LID_UPPER,ID_EYES_RIGHT_LID_UPPER));
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    enum_id_bimap.insert(enum_id_bimap_entry_t(ICUB_ID_EYES_RIGHT_BROW, ID_EYES_RIGHT_BROW));
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    Property options;
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    options.put("device", "remote_controlboard");
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    options.put("local", "/local/head");
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    options.put("remote", scope+"/head");
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    dd.open(options);
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    //fetch views:
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    dd.view(iencs);
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    dd.view(ipos);
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    dd.view(ivel);
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    dd.view(ilimits);
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    dd.view(pid);
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    dd.view(amp);
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    if ( (!iencs) || (!ipos) || (!ilimits) || (!ivel) || (!amp) || (!pid)){
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        printf("> ERROR: failed to open icub views\n");
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        exit(EXIT_FAILURE);
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    }
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    int joints;
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    //tell humotion about min/max joint values:
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    init_joints();
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    iencs->getAxes(&joints);
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    positions.resize(joints);
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    velocities.resize(joints);
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    commands.resize(joints);
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    //set position mode:
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    if (POSITION_CONTROL){
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        commands=200000.0;
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        ipos->setRefAccelerations(commands.data());
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        ipos->setPositionMode();
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    }else{
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        ivel->setVelocityMode();
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        commands=100.0;
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        ivel->setRefAccelerations(commands.data());
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    }
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}
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//! destructor
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iCubJointInterface::~iCubJointInterface(){
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}
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//! conversion table for humotion motor ids to our ids:
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//! \param enum from JointInterface::JOINT_ID_ENUM
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//! \return int value of motor id
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int iCubJointInterface::convert_enum_to_motorid(int e){
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    enum_id_bimap_t::right_const_iterator it = enum_id_bimap.right.find(e);
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    if(it == enum_id_bimap.right.end()) {
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        //key does not exists, we are not interested in that dataset, return -1
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        return -1;
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    }
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    return it->second;
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}
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//! conversion table for our ids to humotion motor ids:
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//! \param  int value of motor id
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//! \return enum from JointInterface::JOINT_ID_ENUM
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int iCubJointInterface::convert_motorid_to_enum(int id){
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    enum_id_bimap_t::left_const_iterator it = enum_id_bimap.left.find(id);
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    if(it == enum_id_bimap.left.end()) {
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        //key does not exists, we are not interested in that dataset, return -1
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        return -1;
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    }
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    return it->second;
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}
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void iCubJointInterface::run(){
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    iCubDataReceiver *data_receiver = new iCubDataReceiver(1000.0 / MAIN_LOOP_FREQUENCY, iencs, this);
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    data_receiver->start();
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}
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//! set the target position of a joint
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//! \param enum id of joint
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//! \param float value
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void iCubJointInterface::publish_target_position(int e){
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    //first: convert humotion enum to our enum:
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    int id = convert_enum_to_motorid(e);
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    if (id == -1){
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        return; //we are not interested in that data, so we just return here
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    }
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    if (id == ICUB_ID_NECK_PAN){
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        //PAN seems to be swapped
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        store_joint(ICUB_ID_NECK_PAN, -joint_target[e]);
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    }else if ((id == ICUB_ID_EYES_PAN) || ( id == ICUB_ID_EYES_VERGENCE)){
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        //icub handles eyes differently, we have to set pan angle + vergence
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        float pan      = (joint_target[ID_EYES_LEFT_LR] + joint_target[ID_EYES_RIGHT_LR]) / 2;
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        float vergence = (joint_target[ID_EYES_LEFT_LR]  - joint_target[ID_EYES_RIGHT_LR]);
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        //printf("EYEDBG %3.2f %3.2f --_> pan %3.2f verg=%3.2f\n",joint_target[ID_EYES_LEFT_LR], joint_target[ID_EYES_RIGHT_LR],pan,vergence);
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        store_joint(ICUB_ID_EYES_PAN, pan);
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        store_joint(ICUB_ID_EYES_VERGENCE, vergence);
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    }else{
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        store_joint(id, joint_target[e]);
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    }
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}
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//! set the target position of a joint
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//! \param id of joint
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//! \param float value of position
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void iCubJointInterface::store_joint(int id, float value){
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    printf("> set joint %d = %f\n",id,value);
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    target_angle[id] = value;
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}
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//! execute a move in position mode
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//! \param id of joint
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//! \param angle
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void iCubJointInterface::set_target_in_positionmode(int id, double value){
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    if (id>ICUB_ID_EYES_VERGENCE){
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        printf("> ERROR: set_target_positionmode(id=%d, %3.2f) not supported for this id\n",id,value);
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        return;
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    }
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    // execute motion as position control cmd
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    ipos->positionMove(id, value);
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}
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//! execute a move in velocity mode
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//! \param id of joint
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//! \param angle
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void iCubJointInterface::set_target_in_velocitymode(int id, double value){
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    // set speed cacluated as in velocity + set position -> replicates smoothmotion from flobi?!
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    //first: calculate necessary speed to reach the given target within the next clock tick:
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    double distance = value - target_angle_previous[id];
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    //make the motion smooth: we want to reach 85% of the target in the next iteration:
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    distance = 0.85 * distance;
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    //distance = -5.0 / 50.0;
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    //calculate speed
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    //double speed = distance * ((double)MAIN_LOOP_FREQUENCY);
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    int e = convert_motorid_to_enum(id);
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    double speed = joint_target_speed[e];
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    double max = 150.0;
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    if (speed > max) speed = max;
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    if (speed < -max) speed = -max;
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    //speed = -speed;
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    //execute:
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    //ivel->velocityMove(id, speed);
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    if ((id == ICUB_ID_NECK_PAN)  || (id == ICUB_ID_EYES_BOTH_UD) || (id == ICUB_ID_NECK_TILT) || (id == ICUB_ID_EYES_BOTH_UD) ||  (id == ICUB_ID_NECK_TILT) ){
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        //if (id == ICUB_ID_NECK_PAN) speed = -speed;
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        ivel->velocityMove(id, speed);
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        printf("> VEL now=%3.2f target=%3.2f --> dist=%3.2f speed=%3.2f\n",target_angle_previous[id],value,distance,speed);
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    }
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    target_angle_previous[id] = get_ts_position(convert_motorid_to_enum(id)).get_newest_value();
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}
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//! actually execute the scheduled motion commands
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void iCubJointInterface::execute_motion(){
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    // set up neck and eye motion commands:
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    if (POSITION_CONTROL){
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        //position control
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        for(int i=ICUB_ID_NECK_TILT; i<=ICUB_ID_EYES_VERGENCE; i++){
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            set_target_in_positionmode(i, target_angle[i]);
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        }
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    }else{
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        //velocity control
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        for(int i=ICUB_ID_NECK_TILT; i<=ICUB_ID_EYES_VERGENCE; i++){
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            set_target_in_velocitymode(i, target_angle[i]);
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        }
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    }
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    //printf("> TARGET PAN = %3.2f\n",target_angle[ICUB_ID_NECK_PAN]);
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    //eyelids: unfortuantely the icub has only 1dof for eyelids, so we use only one dof here:
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    face_interface->set_eyelid_angle(target_angle[ICUB_ID_EYES_RIGHT_LID_UPPER]);
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    //eyebrows are set using a special command as well:
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    face_interface->set_eyebrow_angle(ICUB_ID_EYES_LEFT_BROW, target_angle);
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    face_interface->set_eyebrow_angle(ICUB_ID_EYES_RIGHT_BROW, target_angle);
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    //mouth
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    face_interface->set_mouth(target_angle);
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    //store joint values which we do not handle on icub here:
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    double timestamp = get_timestamp_ms();
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    JointInterface::store_incoming_position(ID_LIP_LEFT_UPPER,   target_angle[ICUB_ID_LIP_LEFT_UPPER], timestamp);
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    JointInterface::store_incoming_position(ID_LIP_LEFT_LOWER,   target_angle[ICUB_ID_LIP_LEFT_LOWER], timestamp);
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    JointInterface::store_incoming_position(ID_LIP_CENTER_UPPER, target_angle[ICUB_ID_LIP_CENTER_UPPER], timestamp);
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    JointInterface::store_incoming_position(ID_LIP_CENTER_LOWER, target_angle[ICUB_ID_LIP_CENTER_LOWER], timestamp);
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    JointInterface::store_incoming_position(ID_LIP_RIGHT_UPPER,  target_angle[ICUB_ID_LIP_RIGHT_UPPER], timestamp);
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    JointInterface::store_incoming_position(ID_LIP_RIGHT_LOWER,  target_angle[ICUB_ID_LIP_RIGHT_LOWER], timestamp);
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}
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double iCubJointInterface::get_timestamp_ms(){
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    struct timespec spec;
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    clock_gettime(CLOCK_REALTIME, &spec);
274
    return spec.tv_sec*1000 + spec.tv_nsec / 1.0e6;
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}
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//! set the current position of a joint
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//! \param id of joint
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//! \param float value of position
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//! \param double timestamp
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void iCubJointInterface::fetch_position(int id, double value, double timestamp){
282
    //store joint based on id:
283
    switch(id){
284
        default:
285
            printf("> ERROR: unhandled joint id %d\n",id);
286
            return;
287
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        case(100):
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            //JointInterface::store_incoming_position(ID_EYES_RIGHT_LID_UPPER, lid_angle, timestamp);
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            break;
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        case(ICUB_ID_NECK_PAN):
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            //PAN is inverted!
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            JointInterface::store_incoming_position(ID_NECK_PAN, value, timestamp);
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            break;
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        case(ICUB_ID_NECK_TILT):
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            JointInterface::store_incoming_position(ID_NECK_TILT, value, timestamp);
299
            break;
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        case(ICUB_ID_NECK_ROLL):
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            JointInterface::store_incoming_position(ID_NECK_ROLL, value, timestamp);
303
            break;
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        case(ICUB_ID_EYES_BOTH_UD):
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            JointInterface::store_incoming_position(ID_EYES_BOTH_UD, value, timestamp);
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            break;
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        //icub handles eyes differently, we have to set pan angle + vergence
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        case(ICUB_ID_EYES_PAN): {//pan
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            last_pos_eye_pan = value;
312
            float left  = last_pos_eye_pan + last_pos_eye_vergence/2.0;
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            float right = last_pos_eye_pan - last_pos_eye_vergence/2.0;
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            //printf("> eye: pan=%3.2f vergence=%3.2f --> L=%3.2f R=%3.2f\n", last_pos_eye_pan, last_pos_eye_vergence, left, right);
316
            JointInterface::store_incoming_position(ID_EYES_LEFT_LR, left, timestamp);
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            JointInterface::store_incoming_position(ID_EYES_RIGHT_LR, right, timestamp);
318
            break;
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        }
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        case(ICUB_ID_EYES_VERGENCE): { //vergence
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            last_pos_eye_vergence = value;
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            float left  = last_pos_eye_pan + last_pos_eye_vergence/2.0;
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            float right = last_pos_eye_pan - last_pos_eye_vergence/2.0;
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            //printf("> eye: pan=%3.2f vergence=%3.2f --> L=%3.2f R=%3.2f\n", last_pos_eye_pan, last_pos_eye_vergence, left, right);
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            JointInterface::store_incoming_position(ID_EYES_LEFT_LR, left, timestamp);
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            JointInterface::store_incoming_position(ID_EYES_RIGHT_LR, right, timestamp);
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            break;
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        }
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    }
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}
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//! set the current speed of a joint
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//! \param enum id of joint
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//! \param float value of speed
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//! \param double timestamp
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void iCubJointInterface::fetch_speed(int id, double value, double timestamp){
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    switch(id){
343
        default:
344
            printf("> ERROR: unhandled joint id %d\n",id);
345
            return;
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        case(ICUB_ID_NECK_PAN):
348
            //PAN IS INVERTED
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            JointInterface::store_incoming_speed(ID_NECK_PAN, value, timestamp);
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            break;
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        case(ICUB_ID_NECK_TILT):
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            JointInterface::store_incoming_speed(ID_NECK_TILT, value, timestamp);
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            break;
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        case(ICUB_ID_NECK_ROLL):
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            JointInterface::store_incoming_speed(ID_NECK_ROLL, value, timestamp);
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            break;
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        case(ICUB_ID_EYES_BOTH_UD):
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            JointInterface::store_incoming_speed(ID_EYES_BOTH_UD, value, timestamp);
362
            break;
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        //icub handles eyes differently, we have to set pan angle + vergence
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        case(ICUB_ID_EYES_PAN): {//pan
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            last_vel_eye_pan = value;
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            float left  = last_vel_eye_pan + last_vel_eye_vergence/2.0;
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            float right = last_vel_eye_pan - last_vel_eye_vergence/2.0;
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            //printf("> eye: velocity pan=%3.2f vergence=%3.2f --> L=%3.2f R=%3.2f\n", last_vel_eye_pan, last_vel_eye_vergence, left, right);
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            JointInterface::store_incoming_speed(ID_EYES_LEFT_LR, left, timestamp);
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            JointInterface::store_incoming_speed(ID_EYES_RIGHT_LR, right, timestamp);
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            break;
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        }
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        case(ICUB_ID_EYES_VERGENCE): { //vergence
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            last_vel_eye_pan = value;
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            float left  = last_vel_eye_pan + last_vel_eye_vergence/2.0;
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            float right = last_vel_eye_pan - last_vel_eye_vergence/2.0;
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            //printf("> eye: velocity pan=%3.2f vergence=%3.2f --> L=%3.2f R=%3.2f\n", last_vel_eye_pan, last_vel_eye_vergence, left, right);
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            JointInterface::store_incoming_speed(ID_EYES_LEFT_LR, left, timestamp);
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            JointInterface::store_incoming_speed(ID_EYES_RIGHT_LR, right, timestamp);
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            break;
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        }
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    }
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}
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void iCubJointInterface::set_joint_enable_state(int e, bool enable) {
390
    int icub_jointid = -1;
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    switch(e){
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        default:
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            break;
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    case(ID_NECK_PAN):
397
        icub_jointid = ICUB_ID_NECK_PAN;
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        break;
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    case(ID_NECK_TILT):
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        icub_jointid = ICUB_ID_NECK_TILT;
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        break;
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    case(ID_NECK_ROLL):
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        icub_jointid = ICUB_ID_NECK_ROLL;
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        break;
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    case(ID_EYES_BOTH_UD):
409
        icub_jointid = ICUB_ID_EYES_BOTH_UD;
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        break;
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    // icub handles eyes as pan angle + vergence...
413
    // -> hack: left eye enables pan and right eye enables vergence
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    case(ID_EYES_LEFT_LR):
415
        icub_jointid = ICUB_ID_EYES_PAN;
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        break;
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    case(ID_EYES_RIGHT_LR):
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        icub_jointid = ICUB_ID_EYES_VERGENCE;
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        break;
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    }
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    if (icub_jointid != -1) {
424
        if (enable) {
425
            amp->enableAmp(icub_jointid);
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            pid->enablePid(icub_jointid);
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        } else {
428
            pid->disablePid(icub_jointid);
429
            amp->disableAmp(icub_jointid);
430
        }
431
    }
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}
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//! prepare and enable a joint
435
//! NOTE: this should also prefill the min/max positions for this joint
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//! \param the enum id of a joint
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void iCubJointInterface::enable_joint(int e){
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    set_joint_enable_state(e, true);
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}
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//! shutdown and disable a joint
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//! \param the enum id of a joint
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void iCubJointInterface::disable_joint(int e){
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    set_joint_enable_state(e, false);
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}
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void iCubJointInterface::store_min_max(IControlLimits *ilimits, int id, int e){
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    double min, max;
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    ilimits->getLimits(id, &min, &max);
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    joint_min[e] = min;
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    joint_max[e] = max;
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}
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//! initialise a joint (set up controller mode etc)
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//! \param joint enum
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void iCubJointInterface::init_joints(){
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    store_min_max(ilimits, ICUB_ID_NECK_TILT, ID_NECK_TILT);
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    store_min_max(ilimits, ICUB_ID_NECK_ROLL, ID_NECK_ROLL);
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    store_min_max(ilimits, ICUB_ID_NECK_PAN, ID_NECK_PAN);
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    store_min_max(ilimits, ICUB_ID_EYES_BOTH_UD, ID_EYES_BOTH_UD);
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462
    //icub handles eyes differently, we have to set pan angle + vergence
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    double pan_min, pan_max, vergence_min, vergence_max;
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    ilimits->getLimits(ICUB_ID_EYES_PAN, &pan_min, &pan_max);
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    ilimits->getLimits(ICUB_ID_EYES_VERGENCE, &vergence_min, &vergence_max);
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    //this is not 100% correct, should be fixed:
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    joint_min[ID_EYES_LEFT_LR] = pan_min; // - vergence_max/2;
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    joint_max[ID_EYES_LEFT_LR] = pan_max; // - vergence_max/2;
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    joint_min[ID_EYES_RIGHT_LR] = joint_min[ID_EYES_LEFT_LR];
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    joint_max[ID_EYES_RIGHT_LR] = joint_max[ID_EYES_LEFT_LR];
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    //eyelids:
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    joint_min[ID_EYES_RIGHT_LID_UPPER] = -50; //24-30;
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    joint_max[ID_EYES_RIGHT_LID_UPPER] = 50; //48-30;
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    //lid_angle = joint_max[ID_EYES_RIGHT_LID_UPPER];
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478
    //eyebrows:
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    joint_min[ID_EYES_LEFT_BROW] = -50;
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    joint_max[ID_EYES_LEFT_BROW] = 50;
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    joint_min[ID_EYES_RIGHT_BROW] = joint_min[ID_EYES_LEFT_BROW];
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    joint_max[ID_EYES_RIGHT_BROW] = joint_max[ID_EYES_LEFT_BROW];
483
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    //mouth:
485
    joint_min[ID_LIP_CENTER_UPPER] = 5;
486
    joint_max[ID_LIP_CENTER_UPPER] = 50;
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    joint_min[ID_LIP_CENTER_LOWER] = 5;
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    joint_max[ID_LIP_CENTER_LOWER] = 50;
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    joint_min[ID_LIP_LEFT_UPPER] = 5;
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    joint_max[ID_LIP_LEFT_UPPER] = 50;
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    joint_min[ID_LIP_LEFT_LOWER] = 5;
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    joint_max[ID_LIP_LEFT_LOWER] = 50;
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    joint_min[ID_LIP_RIGHT_UPPER] = 5;
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    joint_max[ID_LIP_RIGHT_UPPER] = 50;
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    joint_min[ID_LIP_RIGHT_LOWER] = 5;
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    joint_max[ID_LIP_RIGHT_LOWER] = 50;
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}