void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("# orientation: " +stringify<double>(trial.getCurrent()["Orientation"]*(str2num<double>(parameters.find("ThetaSign")))+theta)); text.draw("#"); /* for ( std::map<string,double>::iterator iter = trial.getCurrent().begin(); iter!=trial.getCurrent().end();++iter) { text.draw(iter->first + ": " + stringify<double>(iter->second)); } */ text.draw("#######################"); /* text.draw("HeadCalibration= " + stringify<int>(headCalibrationDone) ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(9)+stringify< Eigen::Matrix<double,1,3> > (markers[9].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("EyeRight= "+stringify< Eigen::Matrix<double,1,3> > (eyeRight.transpose())+ " [mm]" ); text.draw("EyeLeft= "+stringify< Eigen::Matrix<double,1,3> > (eyeLeft.transpose())+ " [mm]" ); text.draw("Alignment(X,Y)= " +stringify<double>(alignmentX)+","+stringify<double>(alignmentY)); text.draw(" "); text.draw("jitter = " +stringify<double>(jitter)); text.draw(" "); text.draw("size = " +stringify<double>((xedge + jitter))); text.draw("xedge = " +stringify<double>(xedge)); text.draw(" "); text.draw("depth = " +stringify<double>(zedge + (jitter/2))); text.draw("zedge = " +stringify<double>(zedge)); */ text.leaveTextInputMode(); } }
/** * @brief drawTrial */ void drawTrial() { if (!experimentStarted) return; if (drawInfo) { double radiusX = util::str2num<double>(parameters.find("RadiusX")); glPushAttrib(GL_ALL_ATTRIB_BITS); glDisable(GL_TEXTURE_3D); GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite); text.enterTextInputMode(); text.draw("CurvatureZ = " + util::stringify<double>(CurvatureZ)); text.draw("CurvatureZ x RadiusX= " + util::stringify<double>(CurvatureZ*radiusX)); text.draw("Factor CurvatureZ = " + util::stringify<double>(trial.getCurrent().at("CurvatureZ"))); text.draw("IOD x k = " + util::stringify<double>(interoculardistance)); if (parameters.find("UsePolkaDots")=="1") text.draw("Actual curvature controlled= "+util::stringify<double>(surface.parabolicCylinderSurface.curvature)); text.leaveTextInputMode(); glPopAttrib(); } if ( trialMode == PROBEMODE ) drawProbe(); if (trialMode == STIMULUSMODE ) drawStimulus(); }
void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################"); text.draw(" "); text.draw(" "); text.draw("Press ENTER to start."); text.leaveTextInputMode(); } if ( expFinished ) { GLText text2; text2.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text2.enterTextInputMode(); text2.draw("The experiment is finished."); text2.leaveTextInputMode(); } }
void drawInfo() { switch ( headCalibrationDone ) { case 0: { allVisibleHead = isVisible(markers[17].p) && isVisible(markers[18].p) && isVisible(markers[1].p) && isVisible(markers[2].p) && isVisible(markers[3].p) ; if ( allVisibleHead ) glClearColor(0.0,1.0,0.0,1.0); //green light else glClearColor(1.0,0.0,0.0,1.0); //red light } break; case 1: { if ( fingerCalibrationDone==0 ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); text.draw("EL " + stringify<int>(eyeLeft.x() ) + " " + stringify<int>(eyeLeft.y() ) + " " + stringify<int>(eyeLeft.z())); text.draw("ER " + stringify<int>(eyeRight.x() ) + " " + stringify<int>(eyeRight.y() ) + " " + stringify<int>(eyeRight.z())); text.draw("INDEX " + stringify<int>(realIndex.x() ) + " " + stringify<int>(realIndex.y() ) + " " + stringify<int>(realIndex.z())); text.draw("REFLECTED INDEX " + stringify<int>(realIndex.x() ) + " " + stringify<int>(realIndex.y() ) + " " + stringify<int>(realIndex.z())); text.leaveTextInputMode(); } } break; } // end if ( headCalibrationDone ) }
void drawStimulus() { if (fingerCalibrationDone==3 && checkHandAtStart && isStimulusDrawn) { glLoadIdentity(); // ###### draw rotated stimulus (adjusted) ###### glTranslated(0.0,0,trial.getCurrent().first["AbsDepth"] + jitter); firstD = trial.getCurrent().second->getCurrentStaircase()->getState(); if( !allVisibleFingers && !moveToPartIV) drawNoFingers(); if(fingersShown) drawFingers(); if(!pause) { if(part == 1 && started) { drawLetter(condition); // draw L or P if(moveToPartII) part += 1; } else if (part == 2) { drawCross(); if(moveToPartIII) part += 1; } else if (part == 3) { drawTrial(firstD); // draw first triple of rods if(moveToPartIV) part += 1; } else if (part == 4) { drawBlack(); } } else { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed,GLUT_BITMAP_TIMES_ROMAN_24); text.enterTextInputMode(); for(int i=0;i<13;i++) text.draw(""); text.draw(" BREAK"); text.leaveTextInputMode(); timer.stop(); } glLoadIdentity(); } }
void drawCross() { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed,GLUT_BITMAP_TIMES_ROMAN_24); text.enterTextInputMode(); for(int i=0;i<13;i++) text.draw(""); text.draw(" +"); text.leaveTextInputMode(); }
void drawInfo() { if ( headCalibrationDone!=3 ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite, GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); if ( passiveMode ) text.draw( "Passive" ); else text.draw(" Active " ); if ( orthographicMode ) text.draw(" Ortho " ); else text.draw( "Perspective " ); string row1 = stringify< Eigen::Matrix<double,1,4> >( objectPassiveTransformation.matrix().row(0) ); string row2 = stringify< Eigen::Matrix<double,1,4> >( objectPassiveTransformation.matrix().row(1) ); string row3 = stringify< Eigen::Matrix<double,1,4> >( objectPassiveTransformation.matrix().row(2) ); text.draw( row1 ); text.draw( row2 ); text.draw( row3 ); text.draw( stringify<int> (factors["Rotation"]) ); text.draw( stringify< Eigen::Vector3d >(projPointEyeRight) ); text.draw( stringify<int>(instantPlaneSlant)); text.leaveTextInputMode(); } }
void drawTrial() { if (!experimentStarted) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed); text.enterTextInputMode(); text.draw("Press ENTER key to start the experiment"); text.leaveTextInputMode(); return; } if (drawInfo) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed); text.enterTextInputMode(); text.draw(util::stringify<int>(totalTimer.getElapsedTimeInMilliSec())); text.leaveTextInputMode(); } switch ( trialMode ) { case INITIALADAPTATION: { drawFixation(); } case FIXATIONMODE: { drawFixation(); } break; case PROBEMODE : { drawProbe(); } break; case STIMULUSMODE: { drawRedDotsPlane(); } break; } if ( useCircularMask ) circleMask(SCREEN_WIDTH/2,SCREEN_HEIGHT/2,circularMaskRadius); glGetError(); }
void drawInfo() { markers = optotrak.getAllPoints(); if ( headCalibrationDone==0 ) { allVisibleHead = isVisible(markers[17]) && isVisible(markers[18]) && isVisible(markers[1]) && isVisible(markers[2]) && isVisible(markers[3]) ; allVisibleModel = (markers[10]+markers[14]+markers[19]+markers[20]).norm() < 1E20; if ( allVisibleHead ) glClearColor(0.0,1.0,0.0,1.0); //green light else glClearColor(1.0,0.0,0.0,1.0); //red light } GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); text.draw("Head is visible? " + stringify<int>(allVisibleHead)); text.draw("Full model is visible? " + stringify<bool>(allVisibleModel)); text.draw( stringify<double>((markers[14]-modelCoordinates.getFinger()).norm())); text.leaveTextInputMode(); }
void drawLetter(int letter) { if (letter <= 0) // vision (L) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed,GLUT_BITMAP_TIMES_ROMAN_24); text.enterTextInputMode(); for(int i=0;i<13;i++) text.draw(""); text.draw(" L"); text.leaveTextInputMode(); } else // pointing { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glRed,GLUT_BITMAP_TIMES_ROMAN_24); text.enterTextInputMode(); for(int i=0;i<13;i++) text.draw(""); text.draw(" P"); text.leaveTextInputMode(); } }
void drawInfo() { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); // text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); glColor3fv(glWhite); text.draw("# stim height: ");// +stringify<double>(stimulus_height)); text.leaveTextInputMode(); }
/*** INFO ***/ void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); glColor3fv(glWhite); text.draw(experiment_title); text.draw(""); if(!expFinished) { text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################\n\n"); text.draw(" "); text.draw("time: " +stringify<int>(timer.getElapsedTimeInMilliSec())); } else { text.draw("The experiment is finished."); } text.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("==== Head Calibration OK ==== Press Spacebar to continue"); else text.draw("Be visible with the head and glasses"); } break; case 1: case 2: { if ( allVisiblePatch ) text.draw("Move the head in the center"); else text.draw("Be visible with the patch"); } break; case 3: // When the head calibration is done then calibrate the fingers { switch ( fingerCalibrationDone ) { case 0: text.draw("Press F to record platform markers"); break; case 1: text.draw("Move index and thumb on platform markers to record ghost finger tips, then press F"); break; case 2: text.draw("Move index and thumb to rigidbody tip to define starting position, then press F"); break; case 3: text.draw("Finger calibration successfull!"); break; } } break; } if ((GetKeyState(VK_CAPITAL) & 0x0001)!=0) { text.draw("#"); text.draw("#"); text.draw("# ----------------------------> Caps Lock ON!"); text.draw("#"); text.draw("#"); } text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " + stringify<double>(mirrorAlignment)); glColor3fv(glWhite); text.draw("#"); text.draw("#######################"); text.draw("HeadCalibration= " + stringify<int>(headCalibrationDone) ); text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Mirror" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Alignment(X,Y)= " +stringify<double>(alignmentX)+","+stringify<double>(alignmentY)); text.draw("Index= " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); text.draw("Thumb= " +stringify< Eigen::Matrix<double,1,3> >(thumb.transpose())); text.draw("Timer= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw("Frame= " + stringify<int>(frameN)); text.draw("Training= " + stringify<int>(training)); glColor3fv(glRed); text.draw("CurSize= " + stringify<int>(trial[round].getCurrent()["Size"])); text.leaveTextInputMode(); }else { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text1; if ( gameMode ) text1.init(SCREEN_WIDTH,SCREEN_HEIGHT,glBlue,GLUT_BITMAP_HELVETICA_18); else text1.init(640,480,glBlue,GLUT_BITMAP_HELVETICA_12); text1.enterTextInputMode(); text1.draw(" Round= " + stringify<int>(round)); text1.draw(" "); text1.draw(" #-NOW-#"); if(training) text1.draw(" Training"); else text1.draw(" Catch"); text1.draw(" Trial= " + stringify<int>(trialNumber)); text1.draw(" SizeNow= " + stringify<int>(sizeNow)); text1.draw(" "); text1.draw(" #-NEXT-#"); glColor3fv(glRed); text1.draw(" SizeNext= " + stringify<int>(sizeNext)); text1.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch (fingerCalibrationDone) { case 0: text.draw("Calibration object and index marker are not visible."); break; case 1: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated. Waiting for Thumb marker to be visible..."); } break; case 2: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated."); text.draw("Thumb marker has been detected and calibrated."); glColor3fv(glWhite); text.draw("Touch the two outer markers with the fingerpads then press F (fingers and calibration object visible)"); } break; case 3: text.draw("Set home position then press F to start the demo"); break; } if(interoculardistance>0.0) { glColor3fv(glWhite); text.draw(" "); text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); } else { text.draw(" "); text.draw(" "); text.draw(" "); } text.draw("# IOD: " +stringify<double>(interoculardistance)); if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); if(interoculardistance>0.0) { glColor3fv(glWhite); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################"); text.draw("HeadCalibration= " + stringify<int>(headCalibrationDone) ); text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Mirror" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("EyeRight= "+stringify< Eigen::Matrix<double,1,3> > (eyeRight.transpose())+ " [mm]" ); text.draw("EyeLeft= "+stringify< Eigen::Matrix<double,1,3> > (eyeLeft.transpose())+ " [mm]" ); text.draw("Index= " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); text.draw("Thumb= " +stringify< Eigen::Matrix<double,1,3> >(thumb.transpose())); text.draw("Timer= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw("Trial= " + stringify<int>(trialNumber)); text.draw(stringify<double>(abs(mirrorAlignment - 45.0))); text.leaveTextInputMode(); } } }
void drawInfo() { if ( !infoDrawn ) return; GLText text; text.init(SCREEN_WIDTH, SCREEN_HEIGHT,glWhite); text.enterTextInputMode(); string strfactors; for ( map<string,double>::iterator iter = factors.begin(); iter!=factors.end(); ++iter) { text.draw( (iter->first) + "= " + util::stringify<int>( (int )(iter->second)) ); } switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("OK! Press SPACEBAR"); else text.draw("---"); } break; case 1: case 2: { text.draw( "EL " + stringify<int>(eyeLeft.x() ) + " " + stringify<int>(eyeLeft.y() ) + " " + stringify<int>(eyeLeft.z()) ); text.draw( "ER " + stringify<int>(eyeRight.x() ) + " " + stringify<int>(eyeRight.y() ) + " " + stringify<int>(eyeRight.z()) ); text.draw("EC " + stringify<int>(cyclopeanEye.x())+" " + stringify<int>(cyclopeanEye.y())+" " + stringify<int>(cyclopeanEye.z())); text.draw("Dist " + stringify<int>(cyclopeanEye.z()-focalDistance+60.0)); text.draw(" "); text.draw( "PITCH " + stringify<int>(toDegrees(headEyeCoords.getPitch()))); text.draw( "YAW " + stringify<int>(toDegrees(headEyeCoords.getYaw()))); text.draw( "ROLL " + stringify<int>(toDegrees(headEyeCoords.getRoll()))); } break; } text.leaveTextInputMode(); }
// Provide text instructions for calibration, as well as information about status of experiment void drawInfo() { if (finished) visibleInfo = true; if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); if (finished) { glColor3fv(glWhite); text.draw("The experiment is over. Thank you! :)"); }else{ switch (fingerCalibration) { case 0: text.draw("Expose three and upper pin"); break; case 1: text.draw("Expose three and lower pin"); break; case 2: text.draw("Grasp the pins, expose three and posts, press F"); break; case 3: text.draw("Place hand in start position, then press F"); break; case 4: text.draw("Touch the position of the left object with your index finger, then press F"); break; case 5: text.draw("Touch the position of the right object with your index finger, then press F"); break; case 6: text.draw("Press F to begin!"); break; } // end switch(fingerCalibration) /////// Header //////// text.draw("####### ####### #######"); text.draw("#"); //text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# Name: " +parameters[0].find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("# Block: " +stringify<double>(block+1)); text.draw("# Trial: " +stringify<double>(trialNumber)); /////// Mirror and Screen Alignment //////// if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); /////// Finger Calibration //////// glColor3fv(glWhite); text.draw("#######################"); text.draw("Calibration Step= " + stringify<int>(fingerCalibration) ); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( allVisiblePlatform3 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Platform Three " +stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]\n" +stringify< Eigen::Matrix<double,1,3> > (markers[11].p.transpose())+ " [mm]\n" +stringify< Eigen::Matrix<double,1,3> > (markers[12].p.transpose())+ " [mm]" ); if ( isVisible(markers[1].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Index Marker " + stringify<int>(1) +stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); if ( isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Thumb Marker " + stringify<int>(2) +stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); /////// Only displayed during calibration //////// glColor3fv(glWhite); if (fingerCalibration!=7){ glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker " + stringify<int>(13) +stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker " + stringify<int>(14) +stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker " + stringify<int>(16) +stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker " + stringify<int>(15) +stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker " + stringify<int>(17) +stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker " + stringify<int>(18) +stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); } /////// Index and Thumb Positions //////// glColor3fv(glWhite); text.draw("--------------------"); if (allVisibleIndex) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Index= " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); if (allVisibleThumb) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Thumb= " +stringify< Eigen::Matrix<double,1,3> >(thumb.transpose())); glColor3fv(glWhite); text.draw("--------------------"); /////// Extra Info //////// glColor3fv(glGreen); text.draw("Timer= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw("Frame= " + stringify<int>(frameN)); glColor3fv(glWhite); text.draw("--------------------"); glColor3fv(glGreen); text.draw("Distance To Object = " + stringify<double>(distanceGripCenterToObject)); text.draw("Distance To Start = " + stringify<double>(distanceGripCenterToHome)); //text.draw("Object Size Check = " + stringify<double>(distanceBetweenSurfaces)); glColor3fv(glWhite); if(handAtStart){ text.draw("Hand is in starting position."); } if(started){ text.draw("Grasp in progress..."); } if(reachedObject){ text.draw("Object reached!"); } if (training){ text.draw("TRAINING MODE"); } } text.leaveTextInputMode(); glEnable(GL_COLOR_MATERIAL); glEnable(GL_BLEND); glEnable(GL_LIGHTING); } }
/*** INFO ***/ void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); glColor3fv(glWhite); if(experiment) text.draw("####### SUBJECT #######"); if(training) text.draw("####### THIS IS JUST A TRAINING #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################\n\n"); text.draw(" "); // check if mirror is calibrated if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); // check if monitor is calibrated if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.4 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); glColor3fv(glWhite); // X and Z coords of simulated fixation text.draw("# Fixation Z = " +stringify<double>(markers.at(screen1).p.x()-120.0)+ " [mm]"); text.draw("# Fixation X = " +stringify<double>(markers.at(screen1).p.z()+363.0)+ " [mm]"); text.draw(" "); glColor3fv(glWhite); text.draw(" " ); text.draw("time: " +stringify<int>(timer.getElapsedTimeInMilliSec())); text.draw("experiment = " +stringify<int> (experiment)); text.draw("training = " +stringify<int> (training)); text.draw("isTrialDone = " +stringify<int> (isTrialDone)); text.draw("stimulus = " +stringify<int> (stimulus)); text.leaveTextInputMode(); } if ( expFinished ) { GLText text2; text2.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text2.enterTextInputMode(); text2.draw("The experiment is finished."); text2.leaveTextInputMode(); } }
void drawInfo() { if ( infoDraw ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("==== Head Calibration OK ==== Press Spacebar to continue"); else text.draw("Be visible with the head and glasses"); } break; case 1: case 2: { if ( allVisiblePatch ) text.draw("Cyclopean(x,y,z)= " + stringify<int>((eyeRight.x()+eyeLeft.x())/2)+", "+ stringify<int>((eyeRight.y()+eyeLeft.y())/2)+", "+ stringify<int>((eyeRight.z()+eyeLeft.z())/2)+", " ); else text.draw("Be visible with the patch"); } break; case 3: // When the head calibration is done then calibrate the fingers { switch ( fingerCalibrationDone ) { case 0: text.draw("Press F to record platform markers"); break; case 1: text.draw("Move index and thumb on platform markers to record ghost finger tips, then press F"); break; case 2: { text.draw("Move index and thumb to rigidbody tip to define starting position, then press F"); } break; } } break; } if ( headCalibrationDone==3 && fingerCalibrationDone==3 ) { text.draw("Phase 0 Trial number= " + stringify<int>(block0TrialNumber)); text.draw("Phase 1 Trial number= " + stringify<int>(block1TrialNumber)); text.draw("Phase 2 Trial number= " + stringify<int>(block2TrialNumber)); text.draw("Trial mode " + stringify<int>(trialMode )); text.draw("DrawingTrialFrame= " + stringify<int>(drawingTrialFrame)); text.draw("IsDrawing?= " + stringify<int>(isDrawing)); text.draw("VisualRod= " + stringify<Eigen::Matrix<double,1,3> >(visualRodCenter.transpose()) ); text.draw("HapticRod= " + stringify<Eigen::Matrix<double,1,3> >(hapticRodCenter.transpose()) ); text.draw("AdaptOffsets= " + stringify< vector<double> >(adaptOffsets) ); text.draw("ThisAdaptOffset= " + stringify< double >(adaptOffsets.at(block1TrialNumber)) ); text.draw("Index= " + stringify< Eigen::Matrix<double,1,3> >(indexCoords.getP1().p )); text.draw("Thumb= " + stringify< Eigen::Matrix<double,1,3> >(thumbCoords.getP1().p )); text.draw("GlobTime= " + stringify<int>(globalTimer.getElapsedTimeInMilliSec())); if ( block.at("Phase")!=1 ) { text.draw("CurrentFactor= " + stringify<int>(factors.at("Distances")) ); text.draw("Remaining= " + stringify<int>( trial.getRemainingTrials() )); } } text.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("==== Head Calibration OK ==== Press Spacebar to continue"); else text.draw("Be visible with the head and glasses"); } break; case 1: case 2: { if ( allVisiblePatch ) text.draw("Move the head in the center"); else text.draw("Be visible with the patch"); } break; case 3: // When the head calibration is done then calibrate the fingers { switch ( fingerCalibrationDone ) { case 0: text.draw("Press F to record platform markers"); break; case 1: text.draw("Move index on platform markers to record ghost finger tips, then press F"); break; case 2: text.draw("Move index to rigidbody tip to define starting position, then press F"); break; case 3: text.draw("Finger calibration successfull!"); break; } } break; } text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("# obj depth: " +stringify<double>(trial.getCurrent()["RelDepthObj"] + dz)); text.draw("#"); /* for ( std::map<string,double>::iterator iter = trial.getCurrent().begin(); iter!=trial.getCurrent().end();++iter) { text.draw(iter->first + ": " + stringify<double>(iter->second)); } */ text.draw("#######################"); text.draw("HeadCalibration= " + stringify<int>(headCalibrationDone) ); text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); /* if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); */ glColor3fv(glWhite); text.draw("EyeRight= "+stringify< Eigen::Matrix<double,1,3> > (eyeRight.transpose())+ " [mm]" ); text.draw("EyeLeft= "+stringify< Eigen::Matrix<double,1,3> > (eyeLeft.transpose())+ " [mm]" ); text.draw("Alignment(X,Y)= " +stringify<double>(alignmentX)+","+stringify<double>(alignmentY)); text.draw("Index= " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); text.draw("Timer= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw("Trial= " + stringify<int>(trialNumber)); text.draw("Index Speed= " + stringify<double>(markers[14].v.norm())); // text.draw("Frame= " + stringify< double >(lastPos[0].z() )); text.draw("Trial= " + stringify<int>(timeStim)); text.draw("FrontRod= " + stringify<double>( (estdepth/2) + (estsd * trial.getCurrent()["ConstStim"]))); text.leaveTextInputMode(); } }
void drawInfo() { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); text.draw("-----------LINEAR ACTUATORS-----------"); text.draw("Press 7 to toggle motors"); text.draw("Motor: " + stringify<int>(which_axis%2)); text.draw(" "); text.draw("Press w to increase desired position, or s to decrease desired position"); text.draw("Then press 8 to move"); text.draw(" "); text.draw("desired position = " + stringify<double>(phi_distance)); text.draw(" "); text.draw("-----------STEPPER-----------"); text.draw("Press q to increase desired theta, or a to decrease desired theta"); text.draw("Then press 5 to move"); text.draw(" "); text.draw("desired theta = " + stringify<double>(step_theta)); text.draw(" "); text.leaveTextInputMode(); }
/*************************** FUNCTIONS ***********************************/ void drawInfo() { if (paused) visibleInfo = true; if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); glColor3fv(glWhite); text.draw("####### EXPERIMENTER INSTRUCTIONS #######"); if (!objectsForward) { text.draw("Press F to bring platform forward"); } if ( objectsForward && (startPosCalibration==0) && (fingerCalibrationDone==0)) { text.draw("Press F to record platform markers"); } if ( objectsForward && (startPosCalibration==0) && (fingerCalibrationDone==1) ) { text.draw("Move index and thumb on platform markers to record ghost finger tips, then press F"); } if ( objectsForward && (startPosCalibration==0) && (fingerCalibrationDone==2) && allVisibleFingers) { text.draw("Move index and thumb to starting position, then press F"); } if ( objectsForward && (startPosCalibration==1) && (fingerCalibrationDone==2)) { text.draw("Mount the display board on the platform, then press F."); } if ( objectsForward && (startPosCalibration==2) && (fingerCalibrationDone==2)) { text.draw("Press F to record position of left object (use straw)."); } if ( objectsForward && (startPosCalibration==3) && (fingerCalibrationDone==2)) { text.draw("Press F to record position of right object (use straw)."); } if ( objectsForward && (startPosCalibration==4) && (fingerCalibrationDone==2) && allVisibleFingers) { text.draw("Press F to begin!"); } text.draw("#########################################"); text.draw(" "); text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("#"); text.draw("# Trial: " +stringify<int>(trialNumber)); text.draw("#"); text.draw("#######################"); text.draw("StartPosCalibration = " + stringify<int>(startPosCalibration) ); text.draw("FingerCalibration = " + stringify<int>(fingerCalibrationDone) ); text.draw(" "); text.draw("Calibration Platform Markers" ); if ( isVisible(markers[15].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Thumb Calibration Point (15) "+stringify< Eigen::Matrix<double,1,3> >(markers[15].p.transpose())+ " [mm]" ); if ( isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Index Calibration Point (16) "+stringify< Eigen::Matrix<double,1,3> >(markers[16].p.transpose())+ " [mm]" ); if ( isVisible(markers[10].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Straw Marker (10) "+stringify< Eigen::Matrix<double,1,3> >(markers[10].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" "); text.draw("Thumb" ); if ( isVisible(markers[20].p) && isVisible(markers[21].p) && isVisible(markers[22].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(20)+stringify< Eigen::Matrix<double,1,3> > (markers[20].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(21)+stringify< Eigen::Matrix<double,1,3> > (markers[21].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(22)+stringify< Eigen::Matrix<double,1,3> > (markers[22].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" "); text.draw("Index" ); if ( isVisible(markers[19].p) && isVisible(markers[23].p) && isVisible(markers[24].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(11)+stringify< Eigen::Matrix<double,1,3> > (markers[19].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(12)+stringify< Eigen::Matrix<double,1,3> > (markers[23].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[24].p.transpose())+ " [mm]" ); glColor3fv(glGreen); text.draw(" "); text.draw("Index= " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); text.draw("Thumb= " +stringify< Eigen::Matrix<double,1,3> >(thumb.transpose())); text.draw(" "); text.draw("Trial= " + stringify<int>(trialNumber)); text.draw("Frame= " + stringify<double>(frameNumber)); text.draw("Timer= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw(" "); text.draw("Target Object : " + stringify<int>(currentObj)); if (handAtStart) { glColor3fv(glGreen); text.draw("Hand at start."); } else { glColor3fv(glWhite); text.draw("Hand in flight."); } text.draw(" "); if(reachedObject) { glColor3fv(glGreen); text.draw("Object Reached!"); } else { glColor3fv(glRed); text.draw("Distance to object= " + stringify<double>(grip_distanceToTarget)); } text.leaveTextInputMode(); } }
/** * @brief drawInfo */ void drawInfo() { if ( infoDraw ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); text.draw("Marker5= " + stringify<Eigen::Matrix<double,1,3> >(markers.at(5).p.transpose()) ); switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("==== Head Calibration OK ==== Press Spacebar to continue"); else text.draw("Be visible with the head and glasses"); } break; case 1: case 2: { if ( allVisiblePatch ) text.draw("Cyclopean(x,y,z)= " + stringify<int>((eyeRight.x()+eyeLeft.x())/2)+", "+ stringify<int>((eyeRight.y()+eyeLeft.y())/2)+", "+ stringify<int>((eyeRight.z()+eyeLeft.z())/2)+", " ); else text.draw("Be visible with the patch"); } break; case 3: // When the head calibration is done then calibrate the fingers { switch ( fingerCalibrationDone ) { case 0: text.draw("Press F to record platform markers"); break; case 1: text.draw("Move INDEX on platform markers to record ghost finger tips, then press F"); break; case 2: text.draw("Move THUMB on platform markers to record ghost finger tips, then press F"); break; case 3: text.draw("Move BOTH INDEX AND THUMB to rigidbody tip, then press F"); break; } } break; } if ( headCalibrationDone==3 && fingerCalibrationDone==4 ) { text.draw("Trial mode " + stringify<int>(trialMode )); text.draw("ThumbProjectedInside " + stringify<int>(thumbProjectedInside)); text.draw("DrawingTrialFrame= " + stringify<int>(drawingTrialFrame)); text.draw("TrialFrame= " + stringify<int>(trialFrame)); text.draw("IsDrawing?= " + stringify<int>(isDrawing)); text.draw("VisualRod= " + stringify<Eigen::Matrix<double,1,3> >(visualStimCenter.transpose()) ); text.draw("Index= " + stringify< Eigen::Matrix<double,1,3> >(indexCoords.getP1().p )); text.draw("Thumb= " + stringify< Eigen::Matrix<double,1,3> >(thumbCoords.getP1().p )); text.draw("GlobTime= " + stringify<int>(globalTimer.getElapsedTimeInMilliSec())); text.draw("TrialTimer= " + stringify<int>(trialTimer.getElapsedTimeInMilliSec())); text.draw("FingersTime= " + stringify<int>(fingersTimer.getElapsedTimeInMilliSec())); } //text.draw("Gain=" + stringify<double>(factors.getCurrent().at("Gain"))); text.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch (fingerCalibrationDone) { case 0: text.draw("Calibration object and index marker are not visible."); break; case 1: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated. Waiting for Thumb marker to be visible..."); } break; case 2: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated."); text.draw("Thumb marker has been detected and calibrated."); glColor3fv(glWhite); text.draw("Touch the two outer markers with the fingerpads then press F (fingers and calibration object visible)"); } break; case 3: text.draw("Set home position then press F to start the demo"); break; } glColor3fv(glWhite); text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); text.draw(" "); if(experiment) text.draw("####### SUBJECT #######"); if(training) text.draw("####### THIS IS JUST A TRAINING #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################\n\n"); text.draw(" "); // check if mirror is calibrated if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); // check if monitor is calibrated if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); glColor3fv(glWhite); // X and Z coords of simulated fixation text.draw("# Fixation Z = " +stringify<double>(markers[19].p.x()-120.0)+ " [mm]"); text.draw("# Fixation X = " +stringify<double>(markers[19].p.z()+363.0)+ " [mm]"); text.draw(" "); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); if ( isVisible(markers[3].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("time: " +stringify<int>(timer.getElapsedTimeInMilliSec())); text.draw("Index = " +stringify< Eigen::Matrix<double,1,3> > (ind.transpose())); text.draw("Thumb = " +stringify< Eigen::Matrix<double,1,3> > (thu.transpose())); text.draw("Home = " +stringify< Eigen::Matrix<double,1,3> > (home_position.transpose())); text.draw("Dist To Home = " +stringify<double> (dist_to_home)); text.draw("experiment = " +stringify<int> (experiment)); text.draw("training = " +stringify<int> (training)); text.leaveTextInputMode(); } if ( expFinished ) { GLText text2; text2.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text2.enterTextInputMode(); text2.draw("The experiment is finished."); text2.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch ( headCalibrationDone ) { case 0: { if ( allVisibleHead ) text.draw("==== Head Calibration OK ==== Press Spacebar to continue"); else text.draw("Be visible with the head and glasses"); } break; case 1: case 2: { if ( allVisiblePatch ) text.draw("Move the head in the center"); else text.draw("Be visible with the patch"); } break; case 3: // When the head calibration is done then calibrate the fingers { switch ( fingerCalibrationDone ) { case 0: text.draw("Press F to record platform markers"); break; case 1: text.draw("Move index and thumb on platform markers to record ghost finger tips, then press F"); break; case 2: text.draw("Move index and thumb to rigidbody tip to define starting position, then press F"); break; case 3: text.draw("Finger calibration successfull!"); break; } } break; } text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("#######################"); text.draw("HeadCalibration= " + stringify<int>(headCalibrationDone) ); text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw("EyeRight= "+stringify< Eigen::Matrix<double,1,3> > (eyeRight.transpose())+ " [mm]" ); text.draw("EyeLeft= "+stringify< Eigen::Matrix<double,1,3> > (eyeLeft.transpose())+ " [mm]" ); text.draw("Alignment(X,Y)= " +stringify<double>(alignmentX)+","+stringify<double>(alignmentY)); text.draw("Index = " +stringify< Eigen::Matrix<double,1,3> >(index.transpose())); text.draw("Thumb = " +stringify< Eigen::Matrix<double,1,3> >(thumb.transpose())); text.draw("Inside Time= " + stringify<int>(timer.getElapsedTimeInMilliSec()) ); text.draw("Trial = " + stringify<int>(trialNumber)); text.draw("Stimulus Time= " + stringify<int>(stimTimer.getElapsedTimeInMilliSec()) ); text.leaveTextInputMode(); } }
void drawInfo() { if ( visibleInfo ) { glDisable(GL_COLOR_MATERIAL); glDisable(GL_BLEND); glDisable(GL_LIGHTING); GLText text; if ( gameMode ) text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); else text.init(640,480,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); // check if IOD has been input if(interoculardistance>45.0) { text.draw("####### SUBJECT #######"); text.draw("#"); text.draw("# Name: " + parameters.find("SubjectName") + "_" + parameters.find("NoiseLevel")); } else { text.draw(" "); text.draw(" "); text.draw(" "); } text.draw("# IOD: " +stringify<double>(interoculardistance)); // check if mirror is calibrated if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); // check if monitor is calibrated if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); glColor3fv(glWhite); // X and Z coords of simulated fixation text.draw("# Fixation Z = " +stringify<double>(markers[19].p.x()-120.0)+ " [mm]"); text.draw("# Fixation X = " +stringify<double>(markers[19].p.z()+363.0)+ " [mm]"); text.draw(" "); // if IOD has been input if(interoculardistance>45.0) { glColor3fv(glWhite); text.draw("# trial: " +stringify<int>(trialNumber)); text.draw("# time: " +stringify<int>(frameN)); if(condition == 1) { text.draw("FingerCalibration= " + stringify<int>(fingerCalibrationDone) ); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Mirror" ); if ( isVisible(markers[5].p) && isVisible(markers[6].p) && isVisible(markers[7].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(5)+stringify< Eigen::Matrix<double,1,3> > (markers[5].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(6)+stringify< Eigen::Matrix<double,1,3> > (markers[6].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(7)+stringify< Eigen::Matrix<double,1,3> > (markers[7].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("time_progress: "+ stringify<double>(time_progress)+ " [s]" ); text.draw("Haptic height: "+ stringify<double>(markers[4].p.y() - markers[3].p.y())+ " [mm]" ); text.draw("Index: "+ stringify< Eigen::Matrix<double,1,3> > (ind.transpose())+ " [mm]" ); } else { text.draw(" "); text.draw("Press zero on the numeric pad to start"); } text.leaveTextInputMode(); } } }
void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); switch (fingerCalibrationDone) { case 0: text.draw("Calibration object and index marker are not visible."); break; case 1: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated. Waiting for Thumb marker to be visible..."); } break; case 2: { glColor3fv(glGreen); text.draw("Index marker has been detected and calibrated."); text.draw("Thumb marker has been detected and calibrated."); glColor3fv(glWhite); text.draw("Touch the two outer markers with the fingerpads then press F (fingers and calibration object visible)"); } break; case 3: text.draw("Set home position then press F to start the demo"); break; } text.draw("# IOD: " +stringify<double>(interoculardistance)); // check if mirror is calibrated if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); // check if monitor is calibrated if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); glColor3fv(glWhite); // X and Z coords of simulated fixation text.draw("# Fixation Z = " +stringify<double>(markers[19].p.x()-120.0)+ " [mm]"); text.draw("# Fixation X = " +stringify<double>(markers[19].p.z()+363.0)+ " [mm]"); text.draw(" "); glColor3fv(glWhite); text.draw("Calibration Platform" ); if ( isVisible(markers[1].p) && isVisible(markers[2].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(1)+stringify< Eigen::Matrix<double,1,3> > (markers[1].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(2)+stringify< Eigen::Matrix<double,1,3> > (markers[2].p.transpose())+ " [mm]" ); if ( isVisible(markers[3].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(3)+stringify< Eigen::Matrix<double,1,3> > (markers[3].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(4)+stringify< Eigen::Matrix<double,1,3> > (markers[4].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( isVisible(markers[13].p) && isVisible(markers[14].p) && isVisible(markers[16].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(13)+stringify< Eigen::Matrix<double,1,3> > (markers[13].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(14)+stringify< Eigen::Matrix<double,1,3> > (markers[14].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(16)+stringify< Eigen::Matrix<double,1,3> > (markers[16].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( isVisible(markers[15].p) && isVisible(markers[17].p) && isVisible(markers[18].p) ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(15)+stringify< Eigen::Matrix<double,1,3> > (markers[15].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(17)+stringify< Eigen::Matrix<double,1,3> > (markers[17].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(18)+stringify< Eigen::Matrix<double,1,3> > (markers[18].p.transpose())+ " [mm]" ); if ( allVisibleObject ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw(" " ); text.draw("Marker "+ stringify<int>(11)+stringify< Eigen::Matrix<double,1,3> > (markers[11].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(12)+stringify< Eigen::Matrix<double,1,3> > (markers[12].p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(8)+stringify< Eigen::Matrix<double,1,3> > (markers[8].p.transpose())+ " [mm]" ); glColor3fv(glWhite); text.draw(" " ); text.draw("Index = " +stringify< Eigen::Matrix<double,1,3> > (ind.transpose())); text.draw("Thumb = " +stringify< Eigen::Matrix<double,1,3> > (thu.transpose())); text.draw("Platform Orientation = " + stringify<double>(platformXZtheta)); text.draw("test = " +stringify< Eigen::Matrix<double,1,3> > (test.transpose())); text.leaveTextInputMode(); } if ( expFinished ) { GLText text2; text2.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text2.enterTextInputMode(); text2.draw("The experiment is finished."); text2.leaveTextInputMode(); } }
void drawGeneratedPlanes() { Hyperplane<double,3> screenPlane,mirrorPlane; //mirror[3] = Vector3d(mirror[1].x(),mirror[2].y(),mirror[1].z()); screen[3] = Vector3d(screen[1].x(), screen[2].y(),screen[1].z()); screenPlane = Hyperplane<double,3>::Through( screen[0], screen[1],screen[2] ); mirrorPlane = Hyperplane<double,3>::Through(mirror[1], mirror[0], mirror[2] ); screenNormal = screenPlane.normal(); mirrorNormal = mirrorPlane.normal(); Eigen::ParametrizedLine<double,3> line = Eigen::ParametrizedLine<double,3>::Through( screenCenter , screenCenter + screenNormal*10); // Calcola il punto proiezione della normale uscente dallo schermo sullo specchio double p = line.intersection(mirrorPlane); screenProjectionOnMirror = p*((screenNormal).normalized()) + screenCenter; planesIntersectionBase = -getPlaneIntersection(mirrorPlane,screenPlane,0); planesIntersectionDirection = mirrorPlane.normal().cross(screenPlane.normal()); planesIntersecEnd = planesIntersectionBase - 200*planesIntersectionDirection; // Draw the planes intersection glPushMatrix(); glColor3fv(glBlue); glBegin(GL_LINES); glVertex3dv(planesIntersectionBase.data()); glVertex3dv(planesIntersecEnd.data()); glEnd(); glPopMatrix(); // Draw the mirror plane (only if calibrationPhase==0) if ( calibrationPhase==0 ) { glPushMatrix(); Grid gridMirror; gridMirror.setRowsAndCols(20,20); gridMirror.init(mirror[1],mirror[0],mirror[2],mirror[3]); // invert the order to have 45 degrees yaw and 90 degree pitch when correct glColor3fv(glRed); gridMirror.draw(); glPopMatrix(); // Draw the mirror normal mirrorCenter = (mirror[0]+mirror[1]+mirror[2]+mirror[3])/4.0; Vector3d mirrorCenterDirection = mirrorCenter + 20*mirrorNormal; glPushMatrix(); glColor3fv(glRed); glBegin(GL_LINES); glVertex3dv(mirrorCenter.data()); glVertex3dv(mirrorCenterDirection.data()); glEnd(); glPopMatrix(); } // Draw the screen plane if ( calibrationPhase!=0) { glPushMatrix(); Grid gridScreen; gridScreen.setRowsAndCols(20,20); gridScreen.init(screen[0],screen[1],screen[2],screen[3]); glColor3fv(glGreen); gridScreen.draw(); glPopMatrix(); // Draw the screen normal screenCenter = (screen[0]+screen[1]+screen[2]+screen[3])/4.0; Vector3d screenCenterDirection = screenCenter + 20*screenNormal; glPushMatrix(); glBegin(GL_LINES); glVertex3dv(screenCenter.data()); glVertex3dv(screenCenterDirection.data()); glEnd(); glPopMatrix(); } // Draw the vector from screen center to mirror center glPushMatrix(); glColor3fv(glRed); glBegin(GL_LINES); glVertex3dv(screenCenter.data()); glVertex3dv(mirrorCenter.data()); glEnd(); glPopMatrix(); // Draw the vector from mirror center to X axis Vector3d orthoProjMirrorCenter(mirrorCenter); glPushMatrix(); glColor3fv(glRed); glBegin(GL_LINES); glVertex3dv(mirrorCenter.data()); glVertex3d(mirrorCenter.x(),mirrorCenter.y(),0); glEnd(); glPopMatrix(); // draw mirror saved center if ( calibrationPhase == 1) { glPushMatrix(); glTranslatef(mirrorSavedCenter.x(),mirrorSavedCenter.y(),mirrorSavedCenter.z()); glutSolidSphere(1,10,20); glPopMatrix(); } mirrorYaw = mathcommon::toDegrees(acos(mirrorNormal.z())); mirrorPitch = mathcommon::toDegrees(acos(mirrorNormal.y())); screenYaw = mathcommon::toDegrees(acos(screenNormal.z())); screenPitch = mathcommon::toDegrees(acos(screenNormal.y())); glColor3fv(glWhite); double tolerance = 0.5; //degrees bool mirrorYawOK = abs(mirrorYaw - 45) <= tolerance; bool screenYawOK = abs(screenYaw - 90) <= tolerance; bool mirrorPitchOK = abs(mirrorPitch-90) <= tolerance; bool screenPitchOK = abs(screenPitch-90) <= tolerance; GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); switch( calibrationPhase ) { case 0: text.draw("==== INSTRUCTIONS ===="); text.draw("Put the markers on the mirror vertices, try to keep them aligned. Press SPACEBAR to save their coordinates"); text.draw("Press 2/8 to zoom out/in. Press '+/-' to go forward or backward"); break; case 1: { text.draw("Now remove the mirror, mirror coordinates are saved to calibrationCoordinates.txt"); text.draw("Now you must put the markers on the screen"); text.draw(""); text.draw(""); text.draw("Mirror current center= " + util::stringify< Eigen::Matrix<double,1,3> >(mirrorSavedCenter.transpose() ) ); text.draw("Distance from mirror center to screen center " + util::stringify<double>( (mirrorSavedCenter - screenCenter).norm() )); text.draw("Projection error of screen normal on mirror center " + util::stringify<Eigen::Matrix<double,1,3> >( screenProjectionOnMirror.transpose() ) ); } break; case 2: break; } text.draw("==== MIRROR INFO ===="); mirrorPitchOK ? glColor3fv(glGreen) : glColor3fv(glRed); text.draw("Mirror Pitch= " + util::stringify<double>(mirrorPitch) ); mirrorYawOK ? glColor3fv(glGreen) : glColor3fv(glRed); text.draw("Mirror Yaw=" + util::stringify<double>(mirrorYaw)); glColor3fv(glWhite); text.draw("==== SCREEN INFO ===="); screenPitchOK ? glColor3fv(glGreen) : glColor3fv(glRed); text.draw("Screen Pitch=" + util::stringify<double>(screenPitch)); screenYawOK ? glColor3fv(glGreen) : glColor3fv(glRed); text.draw("Screen Yaw=" + util::stringify<double>(screenYaw)); // Here print the relative orientation of screen and mirror if ( calibrationPhase==0) { text.draw("Total distance (norm)= " + util::stringify<double>(abs(mirrorCenter.z())+(mirrorCenter - screenCenter).norm()) ); text.draw("Total distance (only x+z)= " + util::stringify<double>( abs(mirrorCenter.x()-screenCenter.x()) + abs(mirrorCenter.z()) )); } else { text.draw("Total distance (norm)= " + util::stringify<double>(abs(mirrorSavedCenter.z())+(mirrorSavedCenter - screenCenter).norm()) ); text.draw("Total distance (ignore y offset)= " + util::stringify<double>( abs(mirrorSavedCenter.x()-screenCenter.x()) + abs(mirrorSavedCenter.z()) )); } text.draw("Intersection of planes" + util::stringify<Eigen::Matrix<int,1,3> >(planesIntersectionBase.cast<int>())); text.leaveTextInputMode(); }
/*** INFO ***/ void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text.enterTextInputMode(); glColor3fv(glWhite); text.draw("####### summer15-SMT-pyramid #######"); text.draw(""); if(experiment) text.draw("####### SUBJECT #######"); if(training) text.draw("####### THIS IS JUST A TRAINING #######"); text.draw("#"); text.draw("# Name: " +parameters.find("SubjectName")); text.draw("# IOD: " +stringify<double>(interoculardistance)); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################\n\n"); text.draw(" "); // check if mirror is calibrated if ( abs(mirrorAlignment - 45.0) < 0.2 ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("# Mirror Alignment = " +stringify<double>(mirrorAlignment)); // check if monitor is calibrated if ( screenAlignmentY < 89.0 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Y = " +stringify<double>(screenAlignmentY)); if ( abs(screenAlignmentZ) < 89.4 ) glColor3fv(glRed); else glColor3fv(glGreen); text.draw("# Screen Alignment Z = " +stringify<double>(screenAlignmentZ)); glColor3fv(glWhite); // X and Z coords of simulated fixation text.draw("# Fixation Z = " +stringify<double>(markers.at(screen1).p.x()-120.0)+ " [mm]"); text.draw("# Fixation X = " +stringify<double>(markers.at(screen1).p.z()+363.0)+ " [mm]"); text.draw(" "); glColor3fv(glWhite); text.draw(" " ); text.draw("time: " +stringify<int>(timer.getElapsedTimeInMilliSec())); text.draw(" " ); text.draw("stereocheck: " + stringify<double>(stereocheckZ[0]) + " " + stringify<double>(stereocheckZ[1])); text.draw("stereocheck: " + stringify<double>(stereocheckZ[2]) + " " + stringify<double>(stereocheckZ[3])); /* if(depth_cue_pedestal == "stereo") { text.draw("Moving: = " +stringify<double> (depth_stimulus)); text.draw("Stereo: = " +stringify<double> (depth_pedestal)); } else { text.draw("Moving: = " +stringify<double> (depth_pedestal)); text.draw("Stereo: = " +stringify<double> (depth_stimulus)); } */ text.leaveTextInputMode(); } if ( expFinished ) { GLText text2; text2.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_12); text2.enterTextInputMode(); text2.draw("The experiment is finished."); text2.leaveTextInputMode(); } if ( inPause ) { GLText text3; text3.init(SCREEN_WIDTH,SCREEN_HEIGHT,glWhite,GLUT_BITMAP_HELVETICA_18); text3.enterTextInputMode(); text3.draw("P A U S E"); text3.leaveTextInputMode(); } }
/*** INFO ***/ void drawInfo() { if ( visibleInfo ) { GLText text; text.init(SCREEN_WIDTH-350,SCREEN_HEIGHT-250,glWhite,GLUT_BITMAP_HELVETICA_18); text.enterTextInputMode(); if(!expFinished) { if(!system_calibrated) { text.draw(""); text.draw(""); text.draw("Calibrate the coordinate system by pressing C"); text.draw(""); text.draw(""); if ( allVisibleReferenceMarkers ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Marker "+ stringify<int>(calibration1)+": "+stringify< Eigen::Matrix<double,1,3> > (markers.at(calibration1).p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(calibration2)+": "+stringify< Eigen::Matrix<double,1,3> > (markers.at(calibration2).p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(calibration3)+": "+stringify< Eigen::Matrix<double,1,3> > (markers.at(calibration3).p.transpose())+ " [mm]" ); text.draw("Marker "+ stringify<int>(calibration4)+": "+stringify< Eigen::Matrix<double,1,3> > (markers.at(calibration4).p.transpose())+ " [mm]" ); } else { switch (fingerCalibrationDone) { case 0: text.draw("Calibration markers are not visible."); break; case 1: { glColor3fv(glGreen); text.draw("Calibration markers have been detected. Press F to record their positions."); } break; case 2: { glColor3fv(glWhite); text.draw("Place index and thumb tips on the markers and press F to calibrate"); } break; case 3: text.draw("Set home position then press F."); break; case 4: text.draw("Set target position then press F to start."); break; } glColor3fv(glWhite); text.draw(" "); if(fingerCalibrationDone == 5) { text.draw("####### " + student_directory + "'s experiment #######"); text.draw(""); if(experiment) { text.draw("####### EXPERIMENT #######"); } if(training) { glColor3fv(glRed); text.draw("####### THIS IS JUST A TRAINING: press E to begin when ready #######"); } glColor3fv(glWhite); text.draw("#"); text.draw("# Name: " + subjectName); text.draw("#"); text.draw("# trial: " +stringify<double>(trialNumber)); text.draw("#"); text.draw("#######################\n\n"); text.draw(" "); } if(fingerCalibrationDone < 3) { glColor3fv(glWhite); text.draw("Index Marker: "+ stringify< Eigen::Matrix<double,1,3> > (index_marker.transpose()) + " [mm]" ); text.draw("Thumb Marker: "+ stringify< Eigen::Matrix<double,1,3> > (thumb_marker.transpose()) + " [mm]" ); text.draw(""); if(fingerCalibrationDone < 2) { if ( allVisibleCalibrationMarkers ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Index Calibration Marker "+ stringify<int>(indexcal)+stringify< Eigen::Matrix<double,1,3> > (markers.at(indexcal).p.transpose())+ " [mm]" ); text.draw("Thumb Calibration Marker "+ stringify<int>(thumbcal)+stringify< Eigen::Matrix<double,1,3> > (markers.at(thumbcal).p.transpose())+ " [mm]" ); text.draw(" "); } } glColor3fv(glWhite); text.draw(" " ); text.draw("Index" ); if ( allVisibleIndex ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Index = " +stringify< Eigen::Matrix<double,1,3> > (ind.transpose())); glColor3fv(glWhite); text.draw(" " ); text.draw("Thumb" ); if ( allVisibleThumb ) glColor3fv(glGreen); else glColor3fv(glRed); text.draw("Thumb = " +stringify< Eigen::Matrix<double,1,3> > (thu.transpose())); glColor3fv(glWhite); text.draw(" " ); text.draw(" " ); text.draw("Elapsed Time: " +stringify<int>(timer.getElapsedTimeInMilliSec())); text.draw("Grip Aperture: " +stringify<double>(grip_aperture)); } } else { text.draw("The experiment is finished."); } text.leaveTextInputMode(); } }