private static Point4d findPivotPoint(Point4d a4, Point4d b4)
{
Vector3 a = new Vector3();
Vector3 b = new Vector3();
a = Point4d.projectAndGetVect3(a4);
b = Point4d.projectAndGetVect3(b4);
Vector3 a_minus_b = new Vector3(a.x - b.x, a.y - b.y, a.z - b.z);
float p = HyperbolicMath.dotProduct(a, a_minus_b);
float q = HyperbolicMath.dotProduct(b, a_minus_b);
float r = HyperbolicMath.dotProduct(a_minus_b, a_minus_b);
return(new Point4d(p * b.x - q * a.x,
p * b.y - q * a.y,
p * b.z - q * a.z,
r));
}
public void Scaling(Node parentNode)
{
if (parentNode.nodeNumDecendents == 0)
{
return;
}
else
{
float scaler = 100f;
foreach (Node child in parentNode.nodeChildren)
{
//Quaternion rotation = Quaternion.Euler(child.nodeHemsphereTheta, 0.0f, child.nodeHemspherePhi);
// Set the translation, rotation and scale parameters.
Matrix4x4 m = Matrix4x4.Scale(new Vector3(scaler, scaler, scaler));
Vector3 tempVect3 = m.MultiplyPoint3x4(Point4d.projectAndGetVect3(child.nodeEuclideanPosition));
child.nodeEuclideanPosition = new Point4d(tempVect3.x, tempVect3.y, tempVect3.z);
Scaling(child);
}
}
}
public void ComputeCoordinatesEuclidean(Node parentNode)
{
/*
* if (parentNode.nodeNumDecendents == 0)
* {
* return;
* }
* else
* {
* Matrix4x4 translationMatrix = Matrix4x4.Translate(new Vector3(HyperbolicMath.euclideanDistance(parentNode.nodeHemsphereRadius) + parentNode.nodeEuclideanPosition.x, parentNode.nodeEuclideanPosition.y, parentNode.nodeEuclideanPosition.z));
* foreach (Node child in parentNode.nodeChildren)
* {
* Vector3 childCoord = Point4d.projectAndGetVect3(child.nodeRelativeHyperbolicProjectionPosition);
* childCoord = translationMatrix.MultiplyPoint(childCoord);
*
* Quaternion rotation = Quaternion.Euler(child.nodeHemsphereTheta, 0.0f, child.nodeHemspherePhi);
* // Set the translation, rotation and scale parameters.
* //Matrix4x4 m = Matrix4x4.TRS(new Vector3(HyperbolicMath.euclideanDistance(parentNode.nodeHemsphereRadius) + parentNode.nodeEuclideanPosition.x, parentNode.nodeEuclideanPosition.y, parentNode.nodeEuclideanPosition.z), rotation, new Vector3(globalScaler, globalScaler, globalScaler));
* Matrix4x4 m = Matrix4x4.TRS(new Vector3(0.0f, 0.0f, 0.0f), rotation, new Vector3(globalScaler, globalScaler, globalScaler));
* Vector3 tempVect3 = m.MultiplyPoint3x4(childCoord);
* child.nodeEuclideanPosition = new Point4d(tempVect3.x, tempVect3.y, tempVect3.z);
* ComputeCoordinatesEuclidean(child);
* }
* }
*/
if (parentNode.nodeNumDecendents == 0)
{
return;
}
else
{
//Matrix4d rotationOfCoordinate = HyperbolicTransformation.buildCanonicalOrientationEuclidean(HyperbolicTransformation.ORIGIN4, parentNode.nodeEuclideanPosition);
float parentPhi = Point4d.getPhiByPoint(parentNode.nodeEuclideanPosition);
float parentTheta = Point4d.getThetaByPoint(parentNode.nodeEuclideanPosition);
Debug.Log(parentNode.nodeEuclideanPosition.x + " " + parentNode.nodeEuclideanPosition.y + " " + parentNode.nodeEuclideanPosition.z);
foreach (Node child in parentNode.nodeChildren)
{
Vector3 childCoord = Point4d.projectAndGetVect3(child.nodeRelativeHyperbolicProjectionPosition);
//Matrix4x4 scaler = Matrix4x4.Scale(new Vector3(globalScaler, globalScaler, globalScaler));
//scaler.MultiplyPoint3x4(childCoord);
//Debug.Log(rotationOfCoordinate.matrix4d);
//rotationOfCoordinate.matrix4d.MultiplyPoint3x4(childCoord);
//child.nodeHemsphereTheta / Mathf.PI * 180, 0.0f, child.nodeHemspherePhi / Mathf.PI * 180
//Quaternion rotation = Quaternion.Euler(parentNode.nodeHemsphereTheta / Mathf.PI * 180, parentNode.nodeHemspherePhi / Mathf.PI * 180, 0.0f);
//Quaternion rotation = Quaternion.Euler(child.nodeHemsphereTheta + parentTheta, 0.0f, child.nodeHemspherePhi + parentPhi);
//Quaternion rotation = Quaternion.Euler(parentPhi / Mathf.PI * 180, 0.0f, parentTheta / Mathf.PI * 180);
float xAngRot;
float yAngRot;
if (parentNode.nodeParent == null)
{
xAngRot = Point4d.getRotAngleX(parentNode.nodeEuclideanPosition);
yAngRot = Point4d.getRotAngleY(parentNode.nodeEuclideanPosition);
}
else
{
xAngRot = -Point4d.getRotAngleX(parentNode.nodeEuclideanPosition - parentNode.nodeParent.nodeEuclideanPosition);
yAngRot = Point4d.getRotAngleY(parentNode.nodeEuclideanPosition - parentNode.nodeParent.nodeEuclideanPosition);
}
//xAngRot += Point4d.getRotAngleX(new Point4d(childCoord.x, childCoord.y, childCoord.z));
//yAngRot += Point4d.getRotAngleY(new Point4d(childCoord.x, childCoord.y, childCoord.z));
Quaternion rotation = Quaternion.Euler(xAngRot / Mathf.PI * 180, yAngRot / Mathf.PI * 180, 0.0f);
//Matrix4x4 rotationMatrix = Matrix4x4.Rotate(rotation);
//childCoord = rotationMatrix.MultiplyPoint(childCoord);
//rotation = Quaternion.Euler(0.0f, 0.0f, 0.0f);
Matrix4x4 m = Matrix4x4.TRS(new Vector3(HyperbolicMath.euclideanDistance(parentNode.nodeHemsphereRadius) + parentNode.nodeEuclideanPosition.x, parentNode.nodeEuclideanPosition.y, parentNode.nodeEuclideanPosition.z), rotation, new Vector3(globalScaler, globalScaler, globalScaler));
//Matrix4x4 m = Matrix4x4.TRS(new Vector3(HyperbolicMath.euclideanDistance(parentNode.nodeHemsphereRadius) + parentNode.nodeEuclideanPosition.x, parentNode.nodeEuclideanPosition.y, parentNode.nodeEuclideanPosition.z), rotation, new Vector3(globalScaler, globalScaler, globalScaler));
childCoord = m.MultiplyPoint(childCoord);
//rotation = Quaternion.Euler(parentTheta, 0.0f, parentPhi);
Debug.Log(parentNode.nodeName + " " + child.nodeName + " " + (parentTheta / Mathf.PI * 180) + " " + (parentPhi / Mathf.PI * 180));
//m = Matrix4x4.Rotate(rotation);
//childCoord = m.MultiplyPoint3x4(childCoord);
child.nodeEuclideanPosition = new Point4d(childCoord.x, childCoord.y, childCoord.z);
ComputeCoordinatesEuclidean(child);
}
}
//ComputeCoordinatesEuclideanTest(parentNode, 0.0f, 0.0f);
}
