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humotion / examples / meka / src / mekajointinterface.cpp @ 16141bbf

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#include "mekajointinterface.h"
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using namespace std;
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//WARNING: DO NOT CHANGE THIS; VELOCITYMODE IS NOT YET IMPLEMENTED
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#define POSITION_CONTROL 1
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void MekaJointInterface::incoming_jointstates(const sensor_msgs::JointState & msg){
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    //fetch current timestamp
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    double timestamp = get_timestamp_ms();
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    //iterate through incoming joints and filter out joints we need:
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    for(int i=0; i<msg.name.size(); i++){
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        string name = msg.name[i];
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        //printf("incoming data for joint '%s'\n", name.c_str());
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        int id = -1;
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        if (name == "head_j1"){
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            id = ID_NECK_PAN;
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        }else if(name == "head_j0"){
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            id = ID_NECK_TILT;
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        }
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        //store data:
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        if (id != -1){
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            //printf("> storing joint data for joint id %d\n", id);
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            JointInterface::store_incoming_position(id, msg.position[i], timestamp);
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            JointInterface::store_incoming_speed(   id, msg.velocity[i], timestamp);
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        }
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    }
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    //store dummy positions for joints we do not know about:
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    store_dummy_data(ID_LIP_LEFT_UPPER, timestamp);
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    store_dummy_data(ID_LIP_LEFT_LOWER, timestamp);
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    store_dummy_data(ID_LIP_CENTER_UPPER, timestamp);
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    store_dummy_data(ID_LIP_CENTER_LOWER, timestamp);
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    store_dummy_data(ID_LIP_RIGHT_UPPER, timestamp);
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    store_dummy_data(ID_LIP_RIGHT_LOWER, timestamp);
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    store_dummy_data(ID_NECK_ROLL, timestamp);
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    store_dummy_data(ID_EYES_BOTH_UD, timestamp);
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    store_dummy_data(ID_EYES_LEFT_LR, timestamp);
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    store_dummy_data(ID_EYES_RIGHT_LR, timestamp);
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    store_dummy_data(ID_EYES_LEFT_LID_LOWER, timestamp);
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    store_dummy_data(ID_EYES_LEFT_LID_UPPER, timestamp);
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    store_dummy_data(ID_EYES_LEFT_BROW, timestamp);
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    store_dummy_data(ID_EYES_RIGHT_LID_LOWER, timestamp);
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    store_dummy_data(ID_EYES_RIGHT_LID_UPPER, timestamp);
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    store_dummy_data(ID_EYES_RIGHT_BROW, timestamp);
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}
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void MekaJointInterface::store_dummy_data(int id, double timestamp){
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    JointInterface::store_incoming_position(id, 0.0, timestamp);
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    JointInterface::store_incoming_speed(id, 0.0, timestamp);
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}
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//! constructor
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MekaJointInterface::MekaJointInterface(string _input_scope, string _output_scope) : humotion::server::JointInterface(){
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    input_scope = _input_scope;
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    output_scope = _output_scope;
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    //subscribe to meka joint states
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    int argc = 0;
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    ros::init(argc, (char**)NULL, "meka_humotion");
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    ros::NodeHandle n;
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    printf("> listening on jointstates on '%s'\n",input_scope.c_str());
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    joint_state_subscriber = n.subscribe(input_scope, 150, &MekaJointInterface::incoming_jointstates , this);
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    printf("> sending targets on '%s'\n", output_scope.c_str());
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    target_publisher = n.advertise<trajectory_msgs::JointTrajectory>(output_scope, 100);
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    //tell humotion about min/max joint values:
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    init_joints();
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}
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//! destructor
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MekaJointInterface::~MekaJointInterface(){
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}
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82

    
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void MekaJointInterface::run(){
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   //iCubDataReceiver *data_receiver = new iCubDataReceiver(10/*1000.0 / MAIN_LOOP_FREQUENCY*/, iencs, this);
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   //data_receiver->start();
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   ros::spin();
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}
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double MekaJointInterface::get_timestamp_ms(){
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    struct timespec spec;
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    clock_gettime(CLOCK_REALTIME, &spec);
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    return spec.tv_sec*1000 + spec.tv_nsec / 1.0e6;
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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 MekaJointInterface::publish_target_position(int e){
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    #if 0
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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_LEFT_LR) || ( id == ICUB_ID_EYES_RIGHT_LR)){
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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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    #endif
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}
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//! actually execute the scheduled motion commands
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void MekaJointInterface::execute_motion(){
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    //build msg
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    trajectory_msgs::JointTrajectory msg;
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    msg.joint_names.push_back("head_j0");
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    msg.joint_names.push_back("head_j1");
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    trajectory_msgs::JointTrajectoryPoint p;
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    p.positions.push_back(joint_target[ID_NECK_TILT] * M_PI / 180.0);
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    p.positions.push_back(joint_target[ID_NECK_PAN] * M_PI / 180.0);
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    p.time_from_start = ros::Duration(1.2 * 1.0 / humotion::server::Server::MOTION_UPDATERATE);
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    p.time_from_start = ros::Duration(1.2 * 1.0 / humotion::server::Server::MOTION_UPDATERATE);
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    msg.points.push_back(p);
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    target_publisher.publish(msg);
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    /*
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     void MekaJointInterface::store_min_max(int id, float min, float max){
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header:
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  seq: 636
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  stamp:
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    secs: 0
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    nsecs: 0
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  frame_id: ''
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joint_names: ['head_j0', 'head_j1']
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points:
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  -
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    positions: [-0.31, 0.01954768762234005]
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    velocities: []
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    accelerations: []
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    effort: []
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    time_from_start:
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      secs: 1
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      nsecs: 0
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     */
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    #if 0
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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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    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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    set_eyebrow_angle(ICUB_ID_EYES_LEFT_BROW);
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    set_eyebrow_angle(ICUB_ID_EYES_RIGHT_BROW);
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    //mouth
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    set_mouth();
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    #endif
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}
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//! prepare and enable a joint
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//! 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 MekaJointInterface::enable_joint(int e){
198
#if 0
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    //FIXME ADD THIS:
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    // enable the amplifier and the pid controller on each joint
201
    /*for (i = 0; i < nj; i++) {
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       amp->enableAmp(i);
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       pid->enablePid(i);
204
    }*/
205

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    //set up smooth motion controller
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    //step1: set up framerate
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    //dev->set_register_blocking(XSC3_REGISTER_PID_RAMP, framerate, true);
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    //step2: set controllertype:
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    //printf("> activating smooth motion control for joint id 0x%02X (%s)\n", motor_id, joint_name.c_str());
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    //dev->set_register_blocking(XSC3_REGISTER_PID_CONTROLLER, XSC3_PROTOCOL_PID_CONTROLLERTYPE_SMOOTH_PLAYBACK, true);
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    //step3: set pid controller:
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    /*if ((e == ID_LIP_LEFT_UPPER) || (e == ID_LIP_LEFT_LOWER) || (e == ID_LIP_CENTER_UPPER) || (e == ID_LIP_CENTER_LOWER) || (e == ID_LIP_RIGHT_UPPER) || (e == ID_LIP_RIGHT_LOWER)){
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        printf("> fixing PID i controller value for smooth motion (FIXME: restore old value!!)\n");
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        dev->set_register_blocking(XSC3_REGISTER_CONST_I, 10, true);
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    }*/
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    //uint16_t result = dev->get_register_blocking_raw(XSC3_REGISTER_PID_CONTROLLER);
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    //check if setting pid controllertype was successfull:
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    /*if (result != XSC3_PROTOCOL_PID_CONTROLLERTYPE_SMOOTH_PLAYBACK){
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        printf("> failed to set smooth motion controller for joint %s (res=0x%04X)\n",joint_name.c_str(),result);
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        exit(1);
227
    }*/
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    //fetch min/max:
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   // init_joint(e);
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    //ok fine, now enable motor:
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    //printf("> enabling motor %s\n", joint_name.c_str());
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    //dev->set_register_blocking(XSC3_REGISTER_STATUS, XSC3_PROTOCOL_STATUS_BITMASK_MOTOR_ENABLE, true);
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#endif
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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 MekaJointInterface::disable_joint(int e){
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    /*
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        //first: convert humotion enum to our enum:
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        int motor_id = convert_enum_to_motorid(e);
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        if (motor_id == -1){
245
            return; //we are not interested in that data, so we just return here
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        }
247

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        //fetch device:
249
        Device *dev = get_device(motor_id);
250
        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        printf("> FIXME: ADD DISABLE CODE\n");
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        */
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}
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void MekaJointInterface::store_min_max(int id, float min, float max){
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    joint_min[id] = min;
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    joint_max[id] = max;
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}
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void MekaJointInterface::init_joints(){
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    store_min_max(ID_NECK_TILT, -10, 10);
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    store_min_max(ID_NECK_PAN, -10, 10);
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    store_min_max(ID_NECK_ROLL, -1, 1);
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    store_min_max(ID_EYES_BOTH_UD, -1, 1);
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    store_min_max(ID_EYES_LEFT_LR, -1, 1);
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    store_min_max(ID_EYES_RIGHT_LR, -1, 1);
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    store_min_max(ID_EYES_LEFT_LID_UPPER, -1, 1);
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    store_min_max(ID_EYES_LEFT_LID_LOWER, -1, 1);
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    store_min_max(ID_EYES_RIGHT_LID_UPPER, -1, 1);
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    store_min_max(ID_EYES_RIGHT_LID_LOWER, -1, 1);
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    store_min_max(ID_EYES_LEFT_BROW, -1, 1);
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    store_min_max(ID_EYES_RIGHT_BROW, -1, 1);
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    store_min_max(ID_LIP_CENTER_UPPER, -1, 1);
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    store_min_max(ID_LIP_CENTER_LOWER, -1, 1);
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    store_min_max(ID_LIP_LEFT_UPPER, -1, 1);
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    store_min_max(ID_LIP_LEFT_LOWER, -1, 1);
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    store_min_max(ID_LIP_RIGHT_UPPER, -1, 1);
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    store_min_max(ID_LIP_RIGHT_LOWER, -1, 1);
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}
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#if 0
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//! conversion table for humotion motor ids to our ids:
292
//! \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);
296
    if(it == enum_id_bimap.right.end()) {
297
        //key does not exists, we are not interested in that dataset, return -1
298
        return -1;
299
    }
300
    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
306
//! \return enum from JointInterface::JOINT_ID_ENUM
307
int iCubJointInterface::convert_motorid_to_enum(int id){
308
    enum_id_bimap_t::left_const_iterator it = enum_id_bimap.left.find(id);
309
    if(it == enum_id_bimap.left.end()) {
310
        //key does not exists, we are not interested in that dataset, return -1
311
        return -1;
312
    }
313
    return it->second;
314
}
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//! special command to set eyelid angle
317
//! \param angle in degrees
318
void iCubJointInterface::set_eyelid_angle(double angle){
319
    if (emotion_port[0].getOutputCount()>0){
320
        //try to set the value based on the upper one
321
        //some guesses from the sim: S30 = 0° / S40 = 10°
322
        int opening = (25.0 + 0.8*angle);
323
        opening = min(48, max(24, opening));
324

325
        if (opening == lid_opening_previous){
326
            //no update necessary
327
            return;
328
        }
329

330
        lid_angle = angle;
331
        lid_opening_previous = opening;
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333
        char buf[20];
334
        sprintf(buf, "S%2d", opening);
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336
        //printf("> SETTING EYELID '%s' (%f -> %d)\n",buf,angle,opening);
337
        Bottle &cmd = emotion_port[0].prepare();
338
        cmd.clear();
339
        cmd.addString(buf);
340
        emotion_port[0].write();
341
    }else{
342
        printf("> ERROR: no icub emotion output\n");
343
        exit(EXIT_FAILURE);
344
    }
345
}
346

347
//! special command to set the eyebrow angle
348
//! \param id {0=left, 1=right)
349
//! \param angle in degrees
350
void iCubJointInterface::set_eyebrow_angle(int id){
351
    int port_id;
352
    if (id == ICUB_ID_EYES_LEFT_BROW){
353
        port_id = 1;
354
    }else{
355
        port_id = 2;
356
    }
357

358
    if (emotion_port[port_id].getOutputCount()>0){
359
        double angle = target_angle[id];
360
        int icub_val = 0;
361

362
        //swap rotation direction:
363
        if (id==ICUB_ID_EYES_LEFT_BROW) angle = -angle;
364

365
        //convert to icub representation
366
        if (angle < -20){
367
            icub_val = 1;
368
        }else if (angle<10){
369
            icub_val = 2;
370
        }else if (angle<20){
371
            icub_val = 4;
372
        }else{
373
            icub_val = 8;
374
        }
375

376
        //make sure to update only on new values:
377
        if (icub_val == target_angle_previous[id]){
378
                //no updata necessary
379
                return;
380
        }
381

382
        //store actual value:
383
        target_angle_previous[id] = icub_val;
384

385

386
        string cmd_s;
387
        if (id==ICUB_ID_EYES_LEFT_BROW){
388
            cmd_s = "L0" + to_string(icub_val);
389
        }else{
390
            cmd_s = "R0" + to_string(icub_val);
391
        }
392

393
        printf("> SETTING EYEBROW %d (%f -> %s)\n",id,angle,cmd_s.c_str());
394

395
        Bottle &cmd = emotion_port[port_id].prepare();
396
        cmd.clear();
397
        cmd.addString(cmd_s);
398
        emotion_port[port_id].write();
399
    }else{
400
        printf("> ERROR: no icub emotion output\n");
401
        exit(EXIT_FAILURE);
402
    }
403
}
404

405
void iCubJointInterface::run(){
406
    iCubDataReceiver *data_receiver = new iCubDataReceiver(10/*1000.0 / MAIN_LOOP_FREQUENCY*/, iencs, this);
407
    data_receiver->start();
408
}
409

410
//! set the target position of a joint
411
//! \param enum id of joint
412
//! \param float value
413
void iCubJointInterface::publish_target_position(int e){
414
    //first: convert humotion enum to our enum:
415
    int id = convert_enum_to_motorid(e);
416
    if (id == -1){
417
        return; //we are not interested in that data, so we just return here
418
    }
419

420
    if (id == ICUB_ID_NECK_PAN){
421
        //PAN seems to be swapped
422
        store_joint(ICUB_ID_NECK_PAN, -joint_target[e]);
423
    }else if ((id == ICUB_ID_EYES_LEFT_LR) || ( id == ICUB_ID_EYES_RIGHT_LR)){
424
        //icub handles eyes differently, we have to set pan angle + vergence
425
        float pan      = (joint_target[ID_EYES_LEFT_LR] + joint_target[ID_EYES_RIGHT_LR]) / 2;
426
        float vergence = (joint_target[ID_EYES_LEFT_LR]  - joint_target[ID_EYES_RIGHT_LR]);
427
        //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);
428

429
        store_joint(ICUB_ID_EYES_PAN, pan);
430
        store_joint(ICUB_ID_EYES_VERGENCE, vergence);
431
    }else{
432
        store_joint(id, joint_target[e]);
433
    }
434
}
435

436

437
//! set the target position of a joint
438
//! \param id of joint
439
//! \param float value of position
440
void iCubJointInterface::store_joint(int id, float value){
441
    //printf("> set joint %d = %f\n",id,value);
442
    target_angle[id] = value;
443
    //ipos->positionMove(id, value);
444
}
445

446
//! execute a move in position mode
447
//! \param id of joint
448
//! \param angle
449
void iCubJointInterface::set_target_in_positionmode(int id, double value){
450
    if (id>ICUB_ID_EYES_VERGENCE){
451
        printf("> ERROR: set_target_positionmode(id=%d, %3.2f) not supported for this id\n",id,value);
452
        return;
453
    }
454
#if 0
455
    //set speed cacluated as in velocity + set position -> replicates smoothmotion from flobi?!
456

457
    //first: calculate necessary speed to reach the given target within the next clock tick:
458
    double distance = value - target_angle_previous[id];
459
    //make the motion smooth: we want to reach 85% of the target in the next iteration:
460
    //calculate speed for that:
461
    double speed = 0.85 * distance * ((double)MAIN_LOOP_FREQUENCY);
462

463
    //set up speed for controller:
464
    ipos->setRefSpeed(id, speed);
465
#endif
466
    //execute motion
467
    ipos->positionMove(id, value);
468
}
469

    
470
//! execute a move in velocity mode
471
//! \param id of joint
472
//! \param angle
473
void iCubJointInterface::set_target_in_velocitymode(int id, double value){
474
    //first: calculate necessary speed to reach the given target within the next clock tick:
475
    double distance = value - target_angle_previous[id];
476
    //make the motion smooth: we want to reach 85% of the target in the next iteration:
477
    distance = 0.85 * distance;
478
    //calculate speed
479
    double speed = distance * ((double)MAIN_LOOP_FREQUENCY);
480
    //execute:
481
    ivel->velocityMove(id, speed);
482
    //if (id == ICUB_ID_NECK_PAN) printf("> VEL now=%3.2f target=%3.2f --> dist=%3.2f speed=%3.2f\n",target_angle_previous[id],value,distance,speed);
483

    
484
    target_angle_previous[id] = get_ts_position(convert_motorid_to_enum(id)).get_newest_value();
485
}
486

    
487
//! actually execute the scheduled motion commands
488
void iCubJointInterface::execute_motion(){
489

    
490
    // set up neck and eye motion commands:
491
    if (POSITION_CONTROL){
492
        //position control
493
        for(int i=ICUB_ID_NECK_TILT; i<=ICUB_ID_EYES_VERGENCE; i++){
494
            set_target_in_positionmode(i, target_angle[i]);
495
        }
496
    }else{
497
        //velocity control
498
        for(int i=ICUB_ID_NECK_TILT; i<=ICUB_ID_EYES_VERGENCE; i++){
499
            set_target_in_velocitymode(i, target_angle[i]);
500
        }
501
    }
502
    //printf("> TARGET PAN = %3.2f\n",target_angle[ICUB_ID_NECK_PAN]);
503

    
504

    
505
    //eyelids: unfortuantely the icub has only 1dof for eyelids, so we use only one dof here:
506
    set_eyelid_angle(target_angle[ICUB_ID_EYES_RIGHT_LID_UPPER]);
507

    
508
    //eyebrows are set using a special command as well:
509
    set_eyebrow_angle(ICUB_ID_EYES_LEFT_BROW);
510
    set_eyebrow_angle(ICUB_ID_EYES_RIGHT_BROW);
511

    
512
    //mouth
513
    set_mouth();
514

    
515

    
516
}
517

    
518
void iCubJointInterface::set_mouth(){
519
    //convert from 6DOF mouth displacement to icub leds:
520
    int led_value = 0;
521

    
522
    //fetch center opening:
523
    double center_opening = target_angle[ICUB_ID_LIP_CENTER_LOWER] - target_angle[ICUB_ID_LIP_CENTER_UPPER];
524
    bool mouth_open = (center_opening>15.0)?true:false;
525

    
526
    //side of mouth high or low?
527
    double center_avg = (target_angle[ICUB_ID_LIP_CENTER_LOWER] + target_angle[ICUB_ID_LIP_CENTER_UPPER])/2.0;
528
    double left_avg   = (target_angle[ICUB_ID_LIP_LEFT_LOWER] + target_angle[ICUB_ID_LIP_LEFT_UPPER])/2.0;
529
    double right_avg  = (target_angle[ICUB_ID_LIP_RIGHT_LOWER] + target_angle[ICUB_ID_LIP_RIGHT_UPPER])/2.0;
530

    
531
    //happy, neutral or sad?
532
    double diff_l = center_avg - left_avg;
533
    double diff_r = center_avg - right_avg;
534
    double diff   = (diff_l+diff_r)/2.0;
535

    
536
    if (diff > 2.0){
537
        if (mouth_open){
538
            led_value = 0x14;
539
        }else{
540
            if (diff > 2.6){
541
                led_value = 0x0A;
542
            }else{
543
                led_value = 0x0B;
544
            }
545
        }
546
    }else if (diff < -3.0){
547
        if (mouth_open){
548
            led_value = 0x06;
549
        }else{
550
            led_value = 0x18;
551
        }
552
    }else if (diff < -2.0){
553
        if (mouth_open){
554
            led_value = 0x04; //0x25;
555
        }else{
556
            led_value = 0x08;
557
        }
558
    }else{
559
        if (mouth_open){
560
            led_value = 0x16;
561
        }else{
562
            led_value = 0x08;
563
        }
564
    }
565

    
566

    
567
    if (led_value == previous_mouth_state){
568
        //no update necessary
569
        return;
570
    }
571

    
572
    previous_mouth_state = led_value;
573

    
574
    //convert to string:
575
    char buf[10];
576
    sprintf(buf, "M%02X",led_value);
577

    
578
    /*printf("> sending mouth '%s'\n",buf);
579
    printf("> mouth angles: %3.2f %3.2f %3.2f\n",target_angle[ICUB_ID_LIP_LEFT_UPPER],target_angle[ICUB_ID_LIP_CENTER_UPPER],target_angle[ICUB_ID_LIP_RIGHT_UPPER]);
580
    printf("  mouth         %3.2f %3.2f %3.2f\n",target_angle[ICUB_ID_LIP_LEFT_LOWER],target_angle[ICUB_ID_LIP_CENTER_LOWER],target_angle[ICUB_ID_LIP_RIGHT_LOWER]);
581
    printf("  mouth  open=%3.2f diff=%3.2f\n", center_opening, diff);*/
582

    
583
    //add mouth:
584
    Bottle &cmd = emotion_port[3].prepare();
585
    cmd.clear();
586
    cmd.addString(buf);
587
    emotion_port[3].write();
588

    
589

    
590
    //store joint values which we do not handle on icub here:
591
    double timestamp = get_timestamp_ms();
592
    JointInterface::store_incoming_position(ID_LIP_LEFT_UPPER,   target_angle[ICUB_ID_LIP_LEFT_UPPER], timestamp);
593
    JointInterface::store_incoming_position(ID_LIP_LEFT_LOWER,   target_angle[ICUB_ID_LIP_LEFT_LOWER], timestamp);
594
    JointInterface::store_incoming_position(ID_LIP_CENTER_UPPER, target_angle[ICUB_ID_LIP_CENTER_UPPER], timestamp);
595
    JointInterface::store_incoming_position(ID_LIP_CENTER_LOWER, target_angle[ICUB_ID_LIP_CENTER_LOWER], timestamp);
596
    JointInterface::store_incoming_position(ID_LIP_RIGHT_UPPER,  target_angle[ICUB_ID_LIP_RIGHT_UPPER], timestamp);
597
    JointInterface::store_incoming_position(ID_LIP_RIGHT_LOWER,  target_angle[ICUB_ID_LIP_RIGHT_LOWER], timestamp);
598

    
599
}
600

    
601
double iCubJointInterface::get_timestamp_ms(){
602
    struct timespec spec;
603
    clock_gettime(CLOCK_REALTIME, &spec);
604
    return spec.tv_sec*1000 + spec.tv_nsec / 1.0e6;
605
}
606

    
607
//! set the current position of a joint
608
//! \param id of joint
609
//! \param float value of position
610
//! \param double timestamp
611
void iCubJointInterface::fetch_position(int id, double value, double timestamp){
612
    //store joint based on id:
613
    switch(id){
614
        default:
615
            printf("> ERROR: unhandled joint id %d\n",id);
616
            return;
617

    
618
        case(100):
619
            JointInterface::store_incoming_position(ID_EYES_RIGHT_LID_UPPER, lid_angle, timestamp);
620
            break;
621

    
622
        case(2):
623
            //PAN is inverted!
624
            JointInterface::store_incoming_position(ID_NECK_PAN, -value, timestamp);
625
            break;
626

    
627
        case(0):
628
            JointInterface::store_incoming_position(ID_NECK_TILT, value, timestamp);
629
            break;
630

    
631
        case(1):
632
            JointInterface::store_incoming_position(ID_NECK_ROLL, value, timestamp);
633
            break;
634

    
635
        case(3):
636
            JointInterface::store_incoming_position(ID_EYES_BOTH_UD, value, timestamp);
637
            break;
638

    
639
        //icub handles eyes differently, we have to set pan angle + vergence
640
        case(4): {//pan
641
            last_pos_eye_pan = value;
642
            float left  = last_pos_eye_pan + last_pos_eye_vergence/2.0;
643
            float right = last_pos_eye_pan - last_pos_eye_vergence/2.0;
644

    
645
            //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);
646
            JointInterface::store_incoming_position(ID_EYES_LEFT_LR, left, timestamp);
647
            JointInterface::store_incoming_position(ID_EYES_RIGHT_LR, right, timestamp);
648
            break;
649
        }
650

    
651
        case(5): { //vergence
652
            last_pos_eye_vergence = value;
653
            float left  = last_pos_eye_pan + last_pos_eye_vergence/2.0;
654
            float right = last_pos_eye_pan - last_pos_eye_vergence/2.0;
655

    
656
            //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);
657
            JointInterface::store_incoming_position(ID_EYES_LEFT_LR, left, timestamp);
658
            JointInterface::store_incoming_position(ID_EYES_RIGHT_LR, right, timestamp);
659
            break;
660
        }
661
    }
662

    
663

    
664
}
665

    
666
//! set the current speed of a joint
667
//! \param enum id of joint
668
//! \param float value of speed
669
//! \param double timestamp
670
void iCubJointInterface::fetch_speed(int id, double value, double timestamp){
671

    
672
    switch(id){
673
        default:
674
            printf("> ERROR: unhandled joint id %d\n",id);
675
            return;
676

    
677
        case(2):
678
            JointInterface::store_incoming_speed(ID_NECK_PAN, value, timestamp);
679
            break;
680

    
681
        case(0):
682
            JointInterface::store_incoming_speed(ID_NECK_TILT, value, timestamp);
683
            break;
684

    
685
        case(1):
686
            JointInterface::store_incoming_speed(ID_NECK_ROLL, value, timestamp);
687
            break;
688

    
689
        case(3):
690
            JointInterface::store_incoming_speed(ID_EYES_BOTH_UD, value, timestamp);
691
            break;
692

    
693
        //icub handles eyes differently, we have to set pan angle + vergence
694
        case(4): {//pan
695
            last_vel_eye_pan = value;
696
            float left  = last_vel_eye_pan + last_vel_eye_vergence/2.0;
697
            float right = last_vel_eye_pan - last_vel_eye_vergence/2.0;
698

    
699
            //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);
700
            JointInterface::store_incoming_speed(ID_EYES_LEFT_LR, left, timestamp);
701
            JointInterface::store_incoming_speed(ID_EYES_RIGHT_LR, right, timestamp);
702
            break;
703
        }
704

    
705
        case(5): { //vergence
706
            last_vel_eye_pan = value;
707
            float left  = last_vel_eye_pan + last_vel_eye_vergence/2.0;
708
            float right = last_vel_eye_pan - last_vel_eye_vergence/2.0;
709

    
710
            //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);
711
            JointInterface::store_incoming_speed(ID_EYES_LEFT_LR, left, timestamp);
712
            JointInterface::store_incoming_speed(ID_EYES_RIGHT_LR, right, timestamp);
713
            break;
714
        }
715
    }
716
/*
717
    JointInterface::store_incoming_speed(ID_LIP_LEFT_UPPER, 0.0, timestamp);
718
    JointInterface::store_incoming_speed(ID_LIP_LEFT_LOWER, 0.0, timestamp);
719
    JointInterface::store_incoming_speed(ID_LIP_CENTER_UPPER, 0.0, timestamp);
720
    JointInterface::store_incoming_speed(ID_LIP_CENTER_LOWER, 0.0, timestamp);
721
    JointInterface::store_incoming_speed(ID_LIP_RIGHT_UPPER, 0.0, timestamp);
722
    JointInterface::store_incoming_speed(ID_LIP_RIGHT_LOWER, 0.0, timestamp);
723

724
    JointInterface::store_incoming_speed(ID_EYES_LEFT_LID_LOWER, 0.0, timestamp);
725
    JointInterface::store_incoming_speed(ID_EYES_LEFT_LID_UPPER, 0.0, timestamp);
726
    JointInterface::store_incoming_speed(ID_EYES_LEFT_BROW, 0.0, timestamp);
727

728
    JointInterface::store_incoming_speed(ID_EYES_RIGHT_LID_LOWER, 0.0, timestamp);
729
    JointInterface::store_incoming_speed(ID_EYES_RIGHT_LID_UPPER,0.0, timestamp);
730
    JointInterface::store_incoming_speed(ID_EYES_RIGHT_BROW, 0.0, timestamp);*/
731
    /*
732
    //fetch enum id:
733
    int e = convert_motorid_to_enum(device->get_device_id());
734
    if (e == -1){
735
        return; //we are not interested in that data, so we just return here
736
    }
737

738
    JointInterface::store_incoming_speed(e, device->get_register(XSC3_REGISTER_MOTORSPEED), timestamp);*/
739

    
740
}
741
/*
742
//! conversion table for humotion motor ids to our ids:
743
//! \param enum from JointInterface::JOINT_ID_ENUM
744
//! \return int value of motor id
745
int HumotionJointInterface::convert_enum_to_motorid(int e){
746
    enum_id_bimap_t::right_const_iterator it = enum_id_bimap.right.find(e);
747
    if(it == enum_id_bimap.right.end()) {
748
        //key does not exists, we are not interested in that dataset, return -1
749
        return -1;
750
    }
751

752
    return it->second;
753
}
754

755

756
//! conversion table for our ids to humotion motor ids:
757
//! \param  int value of motor id
758
//! \return enum from JointInterface::JOINT_ID_ENUM
759
int HumotionJointInterface::convert_motorid_to_enum(int id){
760
    enum_id_bimap_t::left_const_iterator it = enum_id_bimap.left.find(id);
761
    if(it == enum_id_bimap.left.end()) {
762
        //key does not exists, we are not interested in that dataset, return -1
763
        return -1;
764
    }
765

766
    return it->second;
767
}
768
*/
769

    
770
//! prepare and enable a joint
771
//! NOTE: this should also prefill the min/max positions for this joint
772
//! \param the enum id of a joint
773
void iCubJointInterface::enable_joint(int e){
774
    //FIXME ADD THIS:
775
    // enable the amplifier and the pid controller on each joint
776
    /*for (i = 0; i < nj; i++) {
777
       amp->enableAmp(i);
778
       pid->enablePid(i);
779
    }*/
780

    
781

    
782
    //set up smooth motion controller
783
    //step1: set up framerate
784
    //dev->set_register_blocking(XSC3_REGISTER_PID_RAMP, framerate, true);
785

    
786
    //step2: set controllertype:
787
    //printf("> activating smooth motion control for joint id 0x%02X (%s)\n", motor_id, joint_name.c_str());
788
    //dev->set_register_blocking(XSC3_REGISTER_PID_CONTROLLER, XSC3_PROTOCOL_PID_CONTROLLERTYPE_SMOOTH_PLAYBACK, true);
789

    
790
    //step3: set pid controller:
791
    /*if ((e == ID_LIP_LEFT_UPPER) || (e == ID_LIP_LEFT_LOWER) || (e == ID_LIP_CENTER_UPPER) || (e == ID_LIP_CENTER_LOWER) || (e == ID_LIP_RIGHT_UPPER) || (e == ID_LIP_RIGHT_LOWER)){
792
        printf("> fixing PID i controller value for smooth motion (FIXME: restore old value!!)\n");
793
        dev->set_register_blocking(XSC3_REGISTER_CONST_I, 10, true);
794
    }*/
795

    
796
    //uint16_t result = dev->get_register_blocking_raw(XSC3_REGISTER_PID_CONTROLLER);
797

    
798
    //check if setting pid controllertype was successfull:
799
    /*if (result != XSC3_PROTOCOL_PID_CONTROLLERTYPE_SMOOTH_PLAYBACK){
800
        printf("> failed to set smooth motion controller for joint %s (res=0x%04X)\n",joint_name.c_str(),result);
801
        exit(1);
802
    }*/
803

    
804
    //fetch min/max:
805
   // init_joint(e);
806

    
807
    //ok fine, now enable motor:
808
    //printf("> enabling motor %s\n", joint_name.c_str());
809
    //dev->set_register_blocking(XSC3_REGISTER_STATUS, XSC3_PROTOCOL_STATUS_BITMASK_MOTOR_ENABLE, true);
810

    
811
}
812

    
813
void iCubJointInterface::store_min_max(IControlLimits *ilimits, int id, int e){
814
    double min, max;
815
    ilimits->getLimits(id, &min, &max);
816
    joint_min[e] = min;
817
    joint_max[e] = max;
818
}
819

    
820
//! initialise a joint (set up controller mode etc)
821
//! \param joint enum
822
void iCubJointInterface::init_joints(){
823
    store_min_max(ilimits, 0, ID_NECK_TILT);
824
    store_min_max(ilimits, 1, ID_NECK_ROLL);
825
    store_min_max(ilimits, 2, ID_NECK_PAN);
826
    store_min_max(ilimits, 3, ID_EYES_BOTH_UD);
827

    
828
    //icub handles eyes differently, we have to set pan angle + vergence
829
    double pan_min, pan_max, vergence_min, vergence_max;
830
    ilimits->getLimits(4, &pan_min, &pan_max);
831
    ilimits->getLimits(5, &vergence_min, &vergence_max);
832

    
833
    //this is not 100% correct, should be fixed:
834
    joint_min[ID_EYES_LEFT_LR] = pan_min; // - vergence_max/2;
835
    joint_max[ID_EYES_LEFT_LR] = pan_max; // - vergence_max/2;
836
    joint_min[ID_EYES_RIGHT_LR] = joint_min[ID_EYES_LEFT_LR];
837
    joint_max[ID_EYES_RIGHT_LR] = joint_max[ID_EYES_LEFT_LR];
838

    
839
    //eyelids:
840
    joint_min[ID_EYES_RIGHT_LID_UPPER] = -50; //24-30;
841
    joint_max[ID_EYES_RIGHT_LID_UPPER] = 50; //48-30;
842
    lid_angle = joint_max[ID_EYES_RIGHT_LID_UPPER];
843

    
844
    //eyebrows:
845
    joint_min[ID_EYES_LEFT_BROW] = -50;
846
    joint_max[ID_EYES_LEFT_BROW] = 50;
847
    joint_min[ID_EYES_RIGHT_BROW] = joint_min[ID_EYES_LEFT_BROW];
848
    joint_max[ID_EYES_RIGHT_BROW] = joint_max[ID_EYES_LEFT_BROW];
849

    
850
    //mouth:
851
    joint_min[ID_LIP_CENTER_UPPER] = 5;
852
    joint_max[ID_LIP_CENTER_UPPER] = 50;
853
    joint_min[ID_LIP_CENTER_LOWER] = 5;
854
    joint_max[ID_LIP_CENTER_LOWER] = 50;
855
    joint_min[ID_LIP_LEFT_UPPER] = 5;
856
    joint_max[ID_LIP_LEFT_UPPER] = 50;
857
    joint_min[ID_LIP_LEFT_LOWER] = 5;
858
    joint_max[ID_LIP_LEFT_LOWER] = 50;
859
    joint_min[ID_LIP_RIGHT_UPPER] = 5;
860
    joint_max[ID_LIP_RIGHT_UPPER] = 50;
861
    joint_min[ID_LIP_RIGHT_LOWER] = 5;
862
    joint_max[ID_LIP_RIGHT_LOWER] = 50;
863

    
864

    
865
}
866

    
867
//! shutdown and disable a joint
868
//! \param the enum id of a joint
869
void iCubJointInterface::disable_joint(int e){
870
    /*
871
        //first: convert humotion enum to our enum:
872
        int motor_id = convert_enum_to_motorid(e);
873
        if (motor_id == -1){
874
            return; //we are not interested in that data, so we just return here
875
        }
876

877
        //fetch device:
878
        Device *dev = get_device(motor_id);
879
        printf("> FIXME: ADD DISABLE CODE\n");
880
        printf("> FIXME: ADD DISABLE CODE\n");
881
        printf("> FIXME: ADD DISABLE CODE\n");
882
        printf("> FIXME: ADD DISABLE CODE\n");
883
        printf("> FIXME: ADD DISABLE CODE\n");
884
        printf("> FIXME: ADD DISABLE CODE\n");
885
        printf("> FIXME: ADD DISABLE CODE\n");
886
        printf("> FIXME: ADD DISABLE CODE\n");
887
        printf("> FIXME: ADD DISABLE CODE\n");
888
        */
889
}
890
#endif