public void processExpressionsAfterHandleChange()
{
//Debug.Log("processExpressionsAfterHandleChange");
// ASSUME THAT han_x, han_y, or han_z have just been rest in the vars.
// Ripple to set any parameters based on these new handle values.
for (int i = 0; i < expressions.Count; i++)
{
if (expressions[i] == "")
{
continue;
}
string expression = Regex.Replace(expressions[i], @"\s+", "");
string paramName = expression.Substring(0, expression.IndexOf("="));
string definition = expression.Substring(expression.IndexOf("=") + 1);
//Debug.Log (param + " --- " + definition);
try {
if (parametricObject.getParameter(paramName).Type == AXParameter.DataType.Int)
{
parametricObject.initiateRipple_setIntValueFromGUIChange(paramName, Mathf.RoundToInt((float)parametricObject.parseMath(definition)));
}
else
{
parametricObject.initiateRipple_setFloatValueFromGUIChange(paramName, (float)parametricObject.parseMath(definition));
}
} catch (System.Exception e) {
parametricObject.codeWarning = "10. Handle error: Please check syntax of: \"" + definition + "\" " + e.Message;
}
}
// Now that the parmaseters are all updated, reset the
// X, Y, and Z values...
calculatePosition();
}
// Update is called once per frame
void Update()
{
if (!Application.isPlaying)
{
return;
}
bool byPlane = true;
if (handle == null)
{
return;
}
AXParametricObject parametricObject = handle.parametricObject;
// GET POSITION
if (parametricObject.is2D())
{
context = parametricObject.model.transform.localToWorldMatrix * parametricObject.worldDisplayMatrix;
if (parametricObject.generator.hasOutputsConnected() || parametricObject.is2D())
{
context *= parametricObject.generator.localMatrix.inverse;
}
else
{
context *= parametricObject.getAxisRotationMatrix().inverse *parametricObject.generator.localMatrix.inverse *parametricObject.getAxisRotationMatrix();
}
}
else
{
// GROUPER MATRIX NOT WORKING....
context = parametricObject.model.transform.localToWorldMatrix * parametricObject.generator.parametricObject.worldDisplayMatrix * (parametricObject.getAxisRotationMatrix() * parametricObject.generator.getLocalAlignMatrix()).inverse * parametricObject.generator.localMatrix.inverse;
}
// position handle by parmeters.
positionHandleGameObject();
double h_diff = 0;
double v_diff = 0;
if (mouseIsDown)
{
if (Input.touchCount == 1)
{
// touch input - works better with deltaPosition
var touch = Input.GetTouch(0);
//var dx = touch.deltaPosition.x;
h_diff = (100.0 / Screen.width) * touch.deltaPosition.x;
v_diff = (100.0 / Screen.width) * touch.deltaPosition.y;
}
else
{
// 0 touches: must be mouse input
h_diff = (5000 / Screen.width) * Input.GetAxis("Mouse X");
v_diff = (5000 / Screen.width) * Input.GetAxis("Mouse Y");
}
h_diff /= 5;
v_diff /= 5;
//Debug.Log(h_diff +", " + v_diff);
//using plane
if (byPlane)
{
establishDrawingSurface();
//Vector3 prevPosition = transform.position;
}
// BASED ON PLANE
Vector3 world_pos = transform.position;
if (byPlane)
{
Vector3 hit_position3D = sampleHitPoint();
world_pos = hit_position3D - mouseDownDiff;
transform.position = world_pos;
}
Vector3 localPosition = context.inverse.MultiplyPoint3x4(world_pos);
//transform.position = world_pos;
//if (transform.position != prevPosition)
if (h_diff != 0 || v_diff != 0)
{
//Debug.Log("moved");
// Determine the orientation of the camera
//The normal OperatingSystemFamily the handle plane
//Debug.Log (lookV);
float threshold = .707f;
double diffX = -v_diff;
double diffZ = h_diff;
// This logic works with a normal vector
if (!byPlane)
{
if (lookV.x > 0 && lookV.z < 0)
{
diffX = (1 - lookV.x) * h_diff - lookV.x * v_diff;
diffZ = (1 + lookV.z) * h_diff - lookV.z * v_diff;
}
else if (lookV.x > 0 && lookV.z > 0)
{
diffX = -((lookV.x)) * h_diff - lookV.x * v_diff;
diffZ = (1 + lookV.z) * h_diff - lookV.z * v_diff;
}
else if (lookV.x < 0 && lookV.z > 0)
{
diffX = (1 + lookV.x) * h_diff + lookV.x * v_diff;
diffZ = (1 - lookV.z) * h_diff + lookV.z * v_diff;
}
else if (lookV.x > 0 && lookV.z > 0)
{
diffX = -((lookV.x)) * h_diff - (lookV.x) * v_diff;
diffZ = (1 + lookV.z) * h_diff - lookV.z * v_diff; //(-lookV.x + lookV.z) * v_diff;
}
else if (lookV.z > threshold) // pointing forwards
{
diffX = -h_diff;
diffZ = -v_diff;
}
else if (lookV.z < -threshold)
{
// pointing backwards
diffX = h_diff;
diffZ = v_diff;
}
else if (lookV.x > 0)
{
// pointing right
diffX = -h_diff;
diffZ = v_diff;
}
else
{
// pointing left
diffX = v_diff;
diffZ = -h_diff;
}
}
AXHandle han = handle;
string hanString = "han_y";
float posV = localPosition.y;
if (parametricObject.is3D())
{
hanString = "han_z";
posV = localPosition.z;
}
if (byPlane)
{
parametricObject.setVar("han_x", (localPosition.x));
if (parametricObject.is3D())
{
parametricObject.setVar("han_z", world_pos.z);
}
else
{
parametricObject.setVar("han_y", localPosition.y);
}
}
else
{
// Relative slide of cursor
parametricObject.setVar("han_x", (localPosition.x + (float)diffX));
parametricObject.setVar(hanString, (posV + (float)diffZ));
}
// From plane
// parametricObject.setVar("han_x", localPosition.x);
// parametricObject.setVar("han_y", localPosition.y);
// parametricObject.setVar("han_z", localPosition.z);
// EACH EXPRESSION
for (int i = 0; i < han.expressions.Count; i++)
{
if (han.expressions [i] == "")
{
continue;
}
string expression = Regex.Replace(han.expressions [i], @"\s+", "");
string paramName = expression.Substring(0, expression.IndexOf("="));
string definition = expression.Substring(expression.IndexOf("=") + 1);
//Debug.Log (param + " --- " + definition);
try {
if (parametricObject.getParameter(paramName).Type == AXParameter.DataType.Int)
{
parametricObject.initiateRipple_setIntValueFromGUIChange(paramName, Mathf.RoundToInt((float)parametricObject.parseMath(definition)));
}
else
{
parametricObject.initiateRipple_setFloatValueFromGUIChange(paramName, (float)parametricObject.parseMath(definition));
}
} catch (System.Exception e) {
parametricObject.codeWarning = "10. Handle error: Please check syntax of: \"" + definition + "\" " + e.Message;
}
}
parametricObject.model.isAltered();
//parametricObject.model.autobuild();
}
}
}
