public override void ReadData()
{
if (autoWind)
{
if (showDebug)
{
Debug.Log(base.name + " Auto Wind Compare vectors");
}
Vector3 referenceVector = base.transform.TransformDirection(new Vector3(1f, 0f, 0f));
Vector3 normal = base.transform.TransformDirection(new Vector3(0f, 0f, 1f));
float num;
for (num = Math3d.SignedVectorAngle(referenceVector, initialWorldVectorX, normal); num - windAngle < -180f; num += 360f)
{
}
while (num - windAngle > 180f)
{
num -= 360f;
}
windAngle = num;
catapultWindCount = windAngle / 360f;
}
dataWindCount = catapultWindCount;
windRadius = windCoreRadius + radius;
localTargetPos = base.transform.InverseTransformPoint(target.position);
Vector2 vector = localTargetPos.SetZ(0f);
float num2 = Mathf.Acos(windRadius / vector.magnitude);
Vector2 vector2 = vector.Rotate(0f - num2).normalized *windRadius;
float num3 = Math2d.NormalizeAnglePositive(Math2d.SignedAngle(new Vector2(0f, 1f), vector2) * ((float)Math.PI / 180f));
float num4 = num3 / ((float)Math.PI * 2f);
int num5 = Mathf.RoundToInt(catapultWindCount - num4);
float num6 = num4 + (float)num5 + 2f;
exitWindPos = new Vector3(vector2.x, vector2.y, num6 * windThickness);
if (autoWind)
{
if (showDebug)
{
Debug.Log(base.name + " Auto Wind Calc Total Length");
}
straightT = 0.9f;
float num7 = num6 * 2f * (float)Math.PI * windRadius / straightT;
lengthChange = totalLen - num7;
totalLen = num7;
}
else
{
straightT = num6 * 2f * (float)Math.PI * windRadius / totalLen;
}
straightNormal = vector2.normalized;
straightBinormal = Vector3.Cross((vector - vector2).normalized, straightNormal);
}