/////////////////////////////////////////
void ProcessVertex(float multiplier, float invMultiplier, ref Vector3F position, out Vector3F result)
{
var random = new Random(position.GetHashCode());
result = new Vector3F(
position.X * random.Next(invMultiplier, multiplier),
position.Y * random.Next(invMultiplier, multiplier),
position.Z * random.Next(invMultiplier, multiplier));
}
/////////////////////////////////////////
void ProcessVertex(float multiplier, float multiplier1, float invMultiplier, ref Vector3F position, out Vector3F result)
{
var random = new Random(position.GetHashCode());
if (position.X < 0 && position.Z < 0)
{
result = new Vector3F(
position.X - Math.Sign(position.X) * random.Next(invMultiplier, multiplier / 10) - position.Z * multiplier1,
position.Y, //* random.Next( invMultiplier, multiplier ),
position.Z); // * random.Next( invMultiplier, multiplier ) );
}
else
{
result = position;
}
}
/////////////////////////////////////////
void ProcessVertex(float multiplier, float multiplier1, float invMultiplier, int n, ref Vector3F position, out Vector3F result)
{
var random = new Random(position.GetHashCode());
float nposx = 0;
float Ax = 0;
float nposy = 0;
float Ay = 0;
float nposz = 0;
float Az = 0;
float ofs1 = off1;
float ofs2 = off2;
float mul = 0;
result = position;
//if(n % 2 == 0) {
// return;
//}
if (posN == 2)
{
if (position.Z > (float)Multiplier2 && position.Z < (float)Multiplier3 && multiplier1 != 0)
{
Vector2F xz = new Vector2F(position.X, position.Z - (float)Multiplier2);
float a1 = NeoAxis.MathEx.Acos(xz.GetNormalize().X);
mul = ((multiplier) * (MathEx.Sin(position.Z) * position.Z - (float)Multiplier2)) / multiplier1;
nposx = NeoAxis.MathEx.Cos(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xz.Length();
nposz = (float)Multiplier2 + NeoAxis.MathEx.Sin(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xz.Length();
result = new Vector3F(
nposx,
position.Y,
nposz);
}
else if (position.Z >= (float)Multiplier3 && multiplier1 != 0)
{
Vector2F xz = new Vector2F(position.X, position.Z - (float)Multiplier2);
float a1 = NeoAxis.MathEx.Acos(xz.GetNormalize().X);
mul = ((multiplier) * (MathEx.Sin((float)Multiplier3) * (float)Multiplier3 - (float)Multiplier2)) / multiplier1;
nposx = NeoAxis.MathEx.Cos(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xz.Length();
nposz = (float)Multiplier2 + NeoAxis.MathEx.Sin(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xz.Length();
result = new Vector3F(
nposx,
position.Y,
nposz);
}
}
else if (posN == 1)
{
//z - y
//x
//y - z
if (position.Y <= (float)Multiplier2 && multiplier1 != 0)
{
Vector2F xy = new Vector2F(position.X, position.Y + (float)Multiplier2);
float a1 = NeoAxis.MathEx.Acos(xy.GetNormalize().X);
mul = ((multiplier) * (position.Y - (float)Multiplier2)) / multiplier1;
nposx = NeoAxis.MathEx.Cos(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xy.Length();
nposy = (float)Multiplier2 - NeoAxis.MathEx.Sin(a1 + (mul * NeoAxis.MathEx.PI) / 180) * xy.Length();
result = new Vector3F(
nposx,
nposy,
position.Z);
}
}
}
/// <summary>
/// Returns a hash code for this instance.
/// </summary>
/// <returns>A hash code for this instance.</returns>
public override int GetHashCode()
{
return(Origin.GetHashCode() ^ Axis.GetHashCode() ^ Angle.GetHashCode());
}
/////////////////////////////////////////
void ProcessVertex(float multiplier, float multiplier1, float invMultiplier, ref Vector3F position, out Vector3F result)
{
var random = new Random(position.GetHashCode());
float nposx = 0;
float Ax = 0;
float nposy = 0;
float Ay = 0;
float nposz = 0;
float Az = 0;
float ofs1 = off1;
float ofs2 = off2;
result = position;
if (posN == 1)
{
if (sigN == 1 && position.X <= (float)Multiplier2)
{
Ax = multiplier * (float)Math.Exp(-position.Z * position.Z * multiplier1);
nposx = position.X + Math.Sign(position.X) * (Ax * ((float)Math.Exp(-position.Y * position.Y * multiplier1)));
if (nposx > (float)Multiplier2)
{
nposx = (float)Multiplier2;
}
result = new Vector3F(
nposx,
position.Y,
position.Z);
}
if (sigN == -1 && position.X > (float)Multiplier2)
{
Ax = multiplier * (float)Math.Exp(-position.Z * position.Z * multiplier1);
nposx = position.X + Math.Sign(position.X) * (Ax * ((float)Math.Exp(-position.Y * position.Y * multiplier1)));
if (nposx < (float)Multiplier2)
{
nposx = (float)Multiplier2;
}
result = new Vector3F(
nposx,
position.Y,
position.Z);
}
}
else if (posN == 2)
{
if (sigN == 1 && position.Y <= (float)Multiplier2)
{
Ay = multiplier * (float)Math.Exp(-position.Z * position.Z * multiplier1);
nposy = position.Y + Math.Sign(position.Y) * (Ay * ((float)Math.Exp(-position.X * position.X * multiplier1)));
if (nposy > (float)Multiplier2)
{
nposy = (float)Multiplier2;
}
result = new Vector3F(
position.X,
nposy,
position.Z);
}
if (sigN == -1 && position.Y > (float)Multiplier2)
{
Ay = multiplier * (float)Math.Exp(-position.Z * position.Z * multiplier1);
nposy = position.Y + Math.Sign(position.Y) * (Ay * ((float)Math.Exp(-position.X * position.X * multiplier1)));
if (nposy < (float)Multiplier2)
{
nposy = (float)Multiplier2;
}
result = new Vector3F(
position.X,
nposy,
position.Z);
}
}
else if (posN == 3)
{
if (sigN == 1 && position.Z <= (float)Multiplier2)
{
Az = multiplier * (float)Math.Exp(-(position.X - ofs2) * (position.X - ofs2) * multiplier1);
nposz = position.Z + Math.Sign(position.Z) * (Az * ((float)Math.Exp(-(position.Y - ofs1) * (position.Y - ofs1) * multiplier1)));
if (nposz > (float)Multiplier2)
{
nposz = (float)Multiplier2;
}
result = new Vector3F(
position.X,
position.Y,
nposz);
}
if (sigN == -1 && position.Z > (float)Multiplier2)
{
Az = multiplier * (float)Math.Exp(-(position.X - ofs2) * (position.X - ofs2) * multiplier1);
nposz = position.Z + Math.Sign(position.Z) * (Az * ((float)Math.Exp(-(position.Y - ofs1) * (position.Y - ofs1) * multiplier1)));
if (nposz < (float)Multiplier2)
{
nposz = (float)Multiplier2;
}
result = new Vector3F(
position.X,
position.Y,
nposz);
}
}
}
public override int GetHashCode()
{
return(Minimum.GetHashCode() ^ Maximum.GetHashCode());
}
public override int GetHashCode()
{
return(Point1.GetHashCode() ^ Point2.GetHashCode() ^ Radius.GetHashCode());
}
public override int GetHashCode()
{
return(Position.GetHashCode() ^ Normal.GetHashCode() ^ Tangent.GetHashCode() ^ Color.GetHashCode() ^ TexCoord0.GetHashCode() ^ TexCoord1.GetHashCode() ^ TexCoord2.GetHashCode() ^ TexCoord3.GetHashCode() ^ BlendIndices.GetHashCode() ^ BlendWeights.GetHashCode());
}
public override int GetHashCode()
{
return(Origin.GetHashCode() ^ Direction.GetHashCode());
}
public override int GetHashCode()
{
return(Origin.GetHashCode() ^ Radius.GetHashCode());
}
/// <summary>
/// Returns a hash code for this instance.
/// </summary>
/// <returns>A hash code for this instance.</returns>
public override int GetHashCode()
{
return(A.GetHashCode() ^ B.GetHashCode() ^ C.GetHashCode());
}
public override int GetHashCode()
{
return ( Start.GetHashCode() ^ End.GetHashCode() );
}
