internal void Start()
{
shearingLabManager labMan = FindObjectOfType <shearingLabManager>();
labMan.measurementDisplays.Add(surfaceAreaModel.transform);
labMan.measurementDisplays.Add(volumeModel.transform);
//labMan.measurementDisplays.Add(crossSectionModel.transform);
labMan.disableDisplays();
surfaceAreaModel.GetComponent <MeshRenderer>().materials[0].color = mgoColor;
volumeModel.GetComponent <MeshRenderer>().materials[0].color = mgoColor;
crossSectionModel.GetComponent <MeshRenderer>().materials[0].color = mgoColor;
//copy into base scene on Load.
//this.transform.parent = SceneManager.GetSceneByName("HandWaverBase").GetRootGameObjects()[0].transform.parent;
//construct parallel planes
flatface1 = flatlandSurface.Constructor();
flatface2 = flatlandSurface.Constructor();
flatface1.otherFlatlandSurface = flatface2;
flatface2.otherFlatlandSurface = flatface1;
flatface1.transform.localScale = new Vector3(3f, .0001f, 3f);
flatface2.transform.localScale = new Vector3(3f, .0001f, 3f);
AbstractPoint apexPoint = GeoObjConstruction.iPoint(Vector3.ProjectOnPlane(this.transform.position, Vector3.up) + Vector3.up * height2);
AbstractPolygon basePoly = GeoObjConstruction.rPoly(nSides, .3f, Vector3.ProjectOnPlane(this.transform.position, Vector3.up) + Vector3.up * height1);
myPyramid = GeoObjConstruction.dPyramid(basePoly, apexPoint);
foreach (AbstractLineSegment line in myPyramid.allEdges)
{
line.LeapInteraction = false;
}
foreach (AbstractPoint point in basePoly.pointList)
{
point.LeapInteraction = false;
flatface1.attachedObjs.Add(point);
}
foreach (AbstractPolygon face in myPyramid.allfaces)
{
face.LeapInteraction = false;
}
flatface2.attachedObjs.Add(apexPoint);
flatface2.attachedObjs.Add(basePoly);
myPyramid.GetComponent <InteractionBehaviour>().enabled = false;
mf.transform.position = Vector3.zero;
mf.transform.localScale = Vector3.one;
mf.transform.rotation = Quaternion.identity;
palmDetectors = GetComponentsInChildren <PalmDirectionDetector>();
//NATHAN HELP ME HERE
for (int i = 0; i < palmDetectors.Length; i++)
{
PalmDirectionDetector palm = palmDetectors[i];
palm.OnActivate.AddListener(startUpdateMesh);
palm.OnDeactivate.AddListener(endUpdateMesh);
ExtendedFingerDetector finger = palm.GetComponent <ExtendedFingerDetector>();
finger.OnDeactivate.AddListener(endUpdateMesh);
//the extended finger detectors are set to enable/disable the respective PalmDirectionDetectors.
switch (i)
{
case 0:
palm.HandModel = leapHandDataLogger.ins.currHands.Lhand_rigged;
finger.HandModel = leapHandDataLogger.ins.currHands.Lhand_rigged;
break;
case 1:
palm.HandModel = leapHandDataLogger.ins.currHands.RHand_rigged;
finger.HandModel = leapHandDataLogger.ins.currHands.RHand_rigged;
break;
default:
break;
}
}
updateMesh = updateMeshRoutine();
if (overrideHandInput)
{
startUpdateMesh();
}
foreach (AbstractPolygon face in myPyramid.allfaces)
{
face.figColor = mgoColor;
}
myPyramid.apex.GetComponent <InteractionBehaviour>().OnGraspEnd += constantVelOutOfRange;
labMan.addApexToList(myPyramid.apex);
}
internal void Start()
{
shearingLabManager labMan = FindObjectOfType <shearingLabManager>();
labMan.measurementDisplays.Add(areaModel.transform);
labMan.measurementDisplays.Add(perimeterModel.transform);
//labMan.measurementDisplays.Add(crossSectionModel.transform);
labMan.disableDisplays();
areaModel.GetComponent <MeshRenderer>().materials[0].color = mgoColor;
perimeterModel.GetComponent <LineRenderer>().materials[0].color = mgoColor;
crossSectionModel.GetComponent <LineRenderer>().materials[0].color = mgoColor;
line1 = parallelLines.Constructor();
parallelLines line2 = parallelLines.Constructor();
line1.Position3 = Vector3.ProjectOnPlane(this.transform.position, Vector3.up) + Vector3.up * height2;
line2.Position3 = Vector3.ProjectOnPlane(this.transform.position, Vector3.up) + Vector3.up * height1;
line1.otherLine = line2;
line2.otherLine = line1;
AbstractPoint p1 = GeoObjConstruction.iPoint(line1.Position3);
AbstractPoint p2 = GeoObjConstruction.iPoint(line2.Position3);
AbstractPoint p3 = GeoObjConstruction.iPoint(line2.Position3 + line2.normalDir * 0.3f);
p1.GetComponent <InteractionBehaviour>().OnGraspedMovement += checkOutOfRange;
p1.GetComponent <InteractionBehaviour>().OnGraspEnd += constantVelOutOfRange;
labMan.addApexToList(p1);
//line not on Parallel
l1 = GeoObjConstruction.dLineSegment(p1, p2);
//line not on parallel
l2 = GeoObjConstruction.dLineSegment(p1, p3);
//line on parallel
AbstractLineSegment l3 = GeoObjConstruction.dLineSegment(p3, p2);
line1.attachedObjs.Add(p1);
line2.attachedObjs.Add(p2);
line2.attachedObjs.Add(p3);
points.Add(p1);
points.Add(p2);
points.Add(p3);
lines.Add(l1);
lines.Add(l2);
lines.Add(l3);
triangle = GeoObjConstruction.dPolygon(lines, points);
foreach (AbstractLineSegment line in lines)
{
line.GetComponent <InteractionBehaviour>().enabled = false;
}
triangle.GetComponent <InteractionBehaviour>().enabled = false;
myLR = GetComponent <LineRenderer>();
palmDetectors = GetComponentsInChildren <PalmDirectionDetector>();
for (int i = 0; i < palmDetectors.Length; i++)
{
PalmDirectionDetector palm = palmDetectors[i];
palm.OnActivate.AddListener(startUpdateMesh);
palm.OnDeactivate.AddListener(endUpdateMesh);
ExtendedFingerDetector finger = palm.GetComponent <ExtendedFingerDetector>();
finger.OnDeactivate.AddListener(endUpdateMesh);
switch (i)
{
case 0:
palm.HandModel = leapHandDataLogger.ins.currHands.Lhand_rigged;
finger.HandModel = leapHandDataLogger.ins.currHands.Lhand_rigged;
break;
case 1:
palm.HandModel = leapHandDataLogger.ins.currHands.RHand_rigged;
finger.HandModel = leapHandDataLogger.ins.currHands.RHand_rigged;
break;
default:
break;
}
//the extended finger detectors are set to enable/disable the respective PalmDirectionDetectors.
}
updateLR = updateLR_Routine();
if (overridePalmDetector)
{
startUpdateMesh();
}
triangle.figColor = mgoColor;
movePointOnLine = animatePoint(points[0]);
}