godot/modules/mono/glue/cs_files/Quat.cs

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using System;
using System.Runtime.InteropServices;
#if REAL_T_IS_DOUBLE
using real_t = System.Double;
#else
using real_t = System.Single;
#endif
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namespace Godot
{
[StructLayout(LayoutKind.Sequential)]
public struct Quat : IEquatable<Quat>
{
private static readonly Quat identity = new Quat(0f, 0f, 0f, 1f);
public real_t x;
public real_t y;
public real_t z;
public real_t w;
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public static Quat Identity
{
get { return identity; }
}
public real_t this[int index]
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{
get
{
switch (index)
{
case 0:
return x;
case 1:
return y;
case 2:
return z;
case 3:
return w;
default:
throw new IndexOutOfRangeException();
}
}
set
{
switch (index)
{
case 0:
x = value;
break;
case 1:
y = value;
break;
case 2:
z = value;
break;
case 3:
w = value;
break;
default:
throw new IndexOutOfRangeException();
}
}
}
public Quat CubicSlerp(Quat b, Quat preA, Quat postB, real_t t)
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{
real_t t2 = (1.0f - t) * t * 2f;
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Quat sp = Slerp(b, t);
Quat sq = preA.Slerpni(postB, t);
return sp.Slerpni(sq, t2);
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}
public real_t Dot(Quat b)
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{
return x * b.x + y * b.y + z * b.z + w * b.w;
}
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public Quat Inverse()
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{
return new Quat(-x, -y, -z, w);
}
public real_t Length()
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{
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return Mathf.Sqrt(LengthSquared());
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}
public real_t LengthSquared()
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{
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return Dot(this);
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}
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public Quat Normalized()
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{
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return this / Length();
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}
public void Set(real_t x, real_t y, real_t z, real_t w)
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{
this.x = x;
this.y = y;
this.z = z;
this.w = w;
}
public void Set(Quat q)
{
x = q.x;
y = q.y;
z = q.z;
w = q.w;
}
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public Quat Slerp(Quat b, real_t t)
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{
// Calculate cosine
real_t cosom = x * b.x + y * b.y + z * b.z + w * b.w;
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var to1 = new real_t[4];
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// Adjust signs if necessary
if (cosom < 0.0)
{
cosom = -cosom; to1[0] = -b.x;
to1[1] = -b.y;
to1[2] = -b.z;
to1[3] = -b.w;
}
else
{
to1[0] = b.x;
to1[1] = b.y;
to1[2] = b.z;
to1[3] = b.w;
}
real_t sinom, scale0, scale1;
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// Calculate coefficients
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if (1.0 - cosom > Mathf.Epsilon)
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{
// Standard case (Slerp)
real_t omega = Mathf.Acos(cosom);
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sinom = Mathf.Sin(omega);
scale0 = Mathf.Sin((1.0f - t) * omega) / sinom;
scale1 = Mathf.Sin(t * omega) / sinom;
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}
else
{
// Quaternions are very close so we can do a linear interpolation
scale0 = 1.0f - t;
scale1 = t;
}
// Calculate final values
return new Quat
(
scale0 * x + scale1 * to1[0],
scale0 * y + scale1 * to1[1],
scale0 * z + scale1 * to1[2],
scale0 * w + scale1 * to1[3]
);
}
public Quat Slerpni(Quat b, real_t t)
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{
real_t dot = Dot(b);
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if (Mathf.Abs(dot) > 0.9999f)
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{
return this;
}
real_t theta = Mathf.Acos(dot);
real_t sinT = 1.0f / Mathf.Sin(theta);
real_t newFactor = Mathf.Sin(t * theta) * sinT;
real_t invFactor = Mathf.Sin((1.0f - t) * theta) * sinT;
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return new Quat
(
invFactor * x + newFactor * b.x,
invFactor * y + newFactor * b.y,
invFactor * z + newFactor * b.z,
invFactor * w + newFactor * b.w
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);
}
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public Vector3 Xform(Vector3 v)
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{
Quat q = this * v;
q *= Inverse();
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return new Vector3(q.x, q.y, q.z);
}
// Constructors
public Quat(real_t x, real_t y, real_t z, real_t w)
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{
this.x = x;
this.y = y;
this.z = z;
this.w = w;
}
public Quat(Quat q)
{
x = q.x;
y = q.y;
z = q.z;
w = q.w;
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}
public Quat(Vector3 axis, real_t angle)
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{
real_t d = axis.Length();
real_t angle_t = angle;
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if (d == 0f)
{
x = 0f;
y = 0f;
z = 0f;
w = 0f;
}
else
{
real_t s = Mathf.Sin(angle_t * 0.5f) / d;
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x = axis.x * s;
y = axis.y * s;
z = axis.z * s;
w = Mathf.Cos(angle_t * 0.5f);
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}
}
public static Quat operator *(Quat left, Quat right)
{
return new Quat
(
left.w * right.x + left.x * right.w + left.y * right.z - left.z * right.y,
left.w * right.y + left.y * right.w + left.z * right.x - left.x * right.z,
left.w * right.z + left.z * right.w + left.x * right.y - left.y * right.x,
left.w * right.w - left.x * right.x - left.y * right.y - left.z * right.z
);
}
public static Quat operator +(Quat left, Quat right)
{
return new Quat(left.x + right.x, left.y + right.y, left.z + right.z, left.w + right.w);
}
public static Quat operator -(Quat left, Quat right)
{
return new Quat(left.x - right.x, left.y - right.y, left.z - right.z, left.w - right.w);
}
public static Quat operator -(Quat left)
{
return new Quat(-left.x, -left.y, -left.z, -left.w);
}
public static Quat operator *(Quat left, Vector3 right)
{
return new Quat
(
left.w * right.x + left.y * right.z - left.z * right.y,
left.w * right.y + left.z * right.x - left.x * right.z,
left.w * right.z + left.x * right.y - left.y * right.x,
-left.x * right.x - left.y * right.y - left.z * right.z
);
}
public static Quat operator *(Vector3 left, Quat right)
{
return new Quat
(
right.w * left.x + right.y * left.z - right.z * left.y,
right.w * left.y + right.z * left.x - right.x * left.z,
right.w * left.z + right.x * left.y - right.y * left.x,
-right.x * left.x - right.y * left.y - right.z * left.z
);
}
public static Quat operator *(Quat left, real_t right)
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{
return new Quat(left.x * right, left.y * right, left.z * right, left.w * right);
}
public static Quat operator *(real_t left, Quat right)
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{
return new Quat(right.x * left, right.y * left, right.z * left, right.w * left);
}
public static Quat operator /(Quat left, real_t right)
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{
return left * (1.0f / right);
}
public static bool operator ==(Quat left, Quat right)
{
return left.Equals(right);
}
public static bool operator !=(Quat left, Quat right)
{
return !left.Equals(right);
}
public override bool Equals(object obj)
{
if (obj is Vector2)
{
return Equals((Vector2)obj);
}
return false;
}
public bool Equals(Quat other)
{
return x == other.x && y == other.y && z == other.z && w == other.w;
}
public override int GetHashCode()
{
return y.GetHashCode() ^ x.GetHashCode() ^ z.GetHashCode() ^ w.GetHashCode();
}
public override string ToString()
{
return String.Format("({0}, {1}, {2}, {3})", x.ToString(), y.ToString(), z.ToString(), w.ToString());
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}
public string ToString(string format)
{
return String.Format("({0}, {1}, {2}, {3})", x.ToString(format), y.ToString(format), z.ToString(format), w.ToString(format));
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}
}
}