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| author | Kelly Thomas <kelly.thomas@hotmail.com.au> | 2018-09-15 10:26:11 +0800 |
|---|---|---|
| committer | Kelly Thomas <kelly.thomas@hotmail.com.au> | 2018-09-15 13:08:21 +0800 |
| commit | d4b24234283a022e4ae2fd124e6b94fc40572f99 (patch) | |
| tree | 146cb7b09400b98f4728258cc557cc4d63712b54 /modules/mono/glue | |
| parent | 43a1b93d71d2fa8da375a9881f8f389980c68575 (diff) | |
[Mono] implement Transform.InterpolateWith()
Diffstat (limited to 'modules/mono/glue')
| -rw-r--r-- | modules/mono/glue/Managed/Files/Basis.cs | 32 | ||||
| -rw-r--r-- | modules/mono/glue/Managed/Files/Transform.cs | 19 |
2 files changed, 51 insertions, 0 deletions
diff --git a/modules/mono/glue/Managed/Files/Basis.cs b/modules/mono/glue/Managed/Files/Basis.cs index ec96a9e2fa..a5618cb28d 100644 --- a/modules/mono/glue/Managed/Files/Basis.cs +++ b/modules/mono/glue/Managed/Files/Basis.cs @@ -165,6 +165,38 @@ namespace Godot ); } + internal Quat RotationQuat() + { + Basis orthonormalizedBasis = Orthonormalized(); + real_t det = orthonormalizedBasis.Determinant(); + if (det < 0) + { + // Ensure that the determinant is 1, such that result is a proper rotation matrix which can be represented by Euler angles. + orthonormalizedBasis = orthonormalizedBasis.Scaled(Vector3.NegOne); + } + + return orthonormalizedBasis.Quat(); + } + + internal void SetQuantScale(Quat quat, Vector3 scale) + { + SetDiagonal(scale); + Rotate(quat); + } + + private void Rotate(Quat quat) + { + this *= new Basis(quat); + } + + private void SetDiagonal(Vector3 diagonal) + { + _x = new Vector3(diagonal.x, 0, 0); + _y = new Vector3(0, diagonal.y, 0); + _z = new Vector3(0, 0, diagonal.z); + + } + public real_t Determinant() { return this[0, 0] * (this[1, 1] * this[2, 2] - this[2, 1] * this[1, 2]) - diff --git a/modules/mono/glue/Managed/Files/Transform.cs b/modules/mono/glue/Managed/Files/Transform.cs index e432d5b52c..068007d7f0 100644 --- a/modules/mono/glue/Managed/Files/Transform.cs +++ b/modules/mono/glue/Managed/Files/Transform.cs @@ -20,6 +20,25 @@ namespace Godot return new Transform(basisInv, basisInv.Xform(-origin)); } + public Transform InterpolateWith(Transform transform, real_t c) + { + /* not sure if very "efficient" but good enough? */ + + Vector3 sourceScale = basis.Scale; + Quat sourceRotation = basis.RotationQuat(); + Vector3 sourceLocation = origin; + + Vector3 destinationScale = transform.basis.Scale; + Quat destinationRotation = transform.basis.RotationQuat(); + Vector3 destinationLocation = transform.origin; + + var interpolated = new Transform(); + interpolated.basis.SetQuantScale(sourceRotation.Slerp(destinationRotation, c).Normalized(), sourceScale.LinearInterpolate(destinationScale, c)); + interpolated.origin = sourceLocation.LinearInterpolate(destinationLocation, c); + + return interpolated; + } + public Transform Inverse() { Basis basisTr = basis.Transposed(); |