mirror of
https://github.com/RHeavenStudioPlus/HeavenStudioPlus.git
synced 2024-11-14 05:35:08 +00:00
459 lines
No EOL
13 KiB
C#
459 lines
No EOL
13 KiB
C#
using UnityEngine;
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namespace BezierSolution
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{
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[AddComponentMenu( "Bezier Solution/Bezier Point" )]
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[HelpURL( "https://github.com/yasirkula/UnityBezierSolution" )]
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public partial class BezierPoint : MonoBehaviour
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{
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public Vector3 localPosition
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{
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get { return transform.localPosition; }
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set
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{
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if( transform.localPosition == value )
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return;
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transform.localPosition = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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#pragma warning disable 0649
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[SerializeField, HideInInspector]
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private Vector3 m_position;
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public Vector3 position
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{
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get { return m_position; }
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set
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{
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if( transform.position == value )
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return;
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transform.position = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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public Quaternion localRotation
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{
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get { return transform.localRotation; }
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set
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{
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if( transform.localRotation == value )
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return;
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transform.localRotation = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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public Quaternion rotation
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{
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get { return transform.rotation; }
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set
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{
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if( transform.rotation == value )
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return;
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transform.rotation = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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public Vector3 localEulerAngles
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{
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get { return transform.localEulerAngles; }
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set
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{
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if( transform.localEulerAngles == value )
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return;
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transform.localEulerAngles = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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public Vector3 eulerAngles
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{
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get { return transform.eulerAngles; }
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set
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{
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if( transform.eulerAngles == value )
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return;
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transform.eulerAngles = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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public Vector3 localScale
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{
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get { return transform.localScale; }
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set
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{
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if( transform.localScale == value )
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return;
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transform.localScale = value;
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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private Vector3 m_precedingControlPointLocalPosition = Vector3.left;
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public Vector3 precedingControlPointLocalPosition
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{
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get { return m_precedingControlPointLocalPosition; }
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set
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{
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if( m_precedingControlPointLocalPosition == value )
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return;
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m_precedingControlPointLocalPosition = value;
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m_precedingControlPointPosition = transform.TransformPoint( value );
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if( m_handleMode == HandleMode.Aligned )
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{
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m_followingControlPointLocalPosition = -m_precedingControlPointLocalPosition.normalized * m_followingControlPointLocalPosition.magnitude;
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m_followingControlPointPosition = transform.TransformPoint( m_followingControlPointLocalPosition );
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}
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else if( m_handleMode == HandleMode.Mirrored )
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{
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m_followingControlPointLocalPosition = -m_precedingControlPointLocalPosition;
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m_followingControlPointPosition = transform.TransformPoint( m_followingControlPointLocalPosition );
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}
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spline.dirtyFlags |= InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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private Vector3 m_precedingControlPointPosition;
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public Vector3 precedingControlPointPosition
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{
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get { return m_precedingControlPointPosition; }
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set
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{
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if( m_precedingControlPointPosition == value )
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return;
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m_precedingControlPointPosition = value;
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m_precedingControlPointLocalPosition = transform.InverseTransformPoint( value );
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if( transform.hasChanged )
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{
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m_position = transform.position;
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m_followingControlPointPosition = transform.TransformPoint( m_followingControlPointLocalPosition );
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange;
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transform.hasChanged = false;
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}
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if( m_handleMode == HandleMode.Aligned )
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{
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m_followingControlPointPosition = m_position - ( m_precedingControlPointPosition - m_position ).normalized *
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( m_followingControlPointPosition - m_position ).magnitude;
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m_followingControlPointLocalPosition = transform.InverseTransformPoint( m_followingControlPointPosition );
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}
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else if( m_handleMode == HandleMode.Mirrored )
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{
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m_followingControlPointPosition = 2f * m_position - m_precedingControlPointPosition;
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m_followingControlPointLocalPosition = transform.InverseTransformPoint( m_followingControlPointPosition );
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}
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spline.dirtyFlags |= InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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private Vector3 m_followingControlPointLocalPosition = Vector3.right;
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public Vector3 followingControlPointLocalPosition
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{
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get { return m_followingControlPointLocalPosition; }
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set
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{
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if( m_followingControlPointLocalPosition == value )
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return;
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m_followingControlPointLocalPosition = value;
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m_followingControlPointPosition = transform.TransformPoint( value );
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if( m_handleMode == HandleMode.Aligned )
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{
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m_precedingControlPointLocalPosition = -m_followingControlPointLocalPosition.normalized * m_precedingControlPointLocalPosition.magnitude;
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m_precedingControlPointPosition = transform.TransformPoint( m_precedingControlPointLocalPosition );
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}
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else if( m_handleMode == HandleMode.Mirrored )
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{
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m_precedingControlPointLocalPosition = -m_followingControlPointLocalPosition;
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m_precedingControlPointPosition = transform.TransformPoint( m_precedingControlPointLocalPosition );
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}
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spline.dirtyFlags |= InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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private Vector3 m_followingControlPointPosition;
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public Vector3 followingControlPointPosition
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{
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get { return m_followingControlPointPosition; }
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set
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{
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if( m_followingControlPointPosition == value )
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return;
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m_followingControlPointPosition = value;
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m_followingControlPointLocalPosition = transform.InverseTransformPoint( value );
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if( transform.hasChanged )
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{
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m_position = transform.position;
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m_precedingControlPointPosition = transform.TransformPoint( m_precedingControlPointLocalPosition );
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange;
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transform.hasChanged = false;
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}
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if( m_handleMode == HandleMode.Aligned )
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{
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m_precedingControlPointPosition = m_position - ( m_followingControlPointPosition - m_position ).normalized *
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( m_precedingControlPointPosition - m_position ).magnitude;
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m_precedingControlPointLocalPosition = transform.InverseTransformPoint( m_precedingControlPointPosition );
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}
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else if( m_handleMode == HandleMode.Mirrored )
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{
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m_precedingControlPointPosition = 2f * m_position - m_followingControlPointPosition;
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m_precedingControlPointLocalPosition = transform.InverseTransformPoint( m_precedingControlPointPosition );
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}
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spline.dirtyFlags |= InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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private HandleMode m_handleMode = HandleMode.Mirrored;
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public HandleMode handleMode
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{
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get { return m_handleMode; }
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set
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{
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if( m_handleMode == value )
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return;
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m_handleMode = value;
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if( value == HandleMode.Aligned || value == HandleMode.Mirrored )
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{
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// Temporarily change the value of m_precedingControlPointLocalPosition so that it will be different from precedingControlPointLocalPosition
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// and precedingControlPointLocalPosition's setter will run
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Vector3 _precedingControlPointLocalPosition = m_precedingControlPointLocalPosition;
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m_precedingControlPointLocalPosition -= Vector3.one;
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precedingControlPointLocalPosition = _precedingControlPointLocalPosition;
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}
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spline.dirtyFlags |= InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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[SerializeField, HideInInspector]
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[UnityEngine.Serialization.FormerlySerializedAs( "normal" )]
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private Vector3 m_normal = Vector3.up;
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public Vector3 normal
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{
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get { return m_normal; }
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set
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{
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if( m_normal == value )
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return;
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m_normal = value;
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spline.dirtyFlags |= InternalDirtyFlags.NormalChange;
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}
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}
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[SerializeField, HideInInspector]
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[UnityEngine.Serialization.FormerlySerializedAs( "autoCalculatedNormalAngleOffset" )]
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private float m_autoCalculatedNormalAngleOffset = 0f;
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public float autoCalculatedNormalAngleOffset
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{
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get { return m_autoCalculatedNormalAngleOffset; }
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set
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{
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if( m_autoCalculatedNormalAngleOffset == value )
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return;
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m_autoCalculatedNormalAngleOffset = value;
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spline.dirtyFlags |= InternalDirtyFlags.NormalOffsetChange;
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}
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}
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[SerializeField, HideInInspector]
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private Vector3[] m_intermediateNormals;
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public Vector3[] intermediateNormals
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{
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get { return m_intermediateNormals; }
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set
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{
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// In this special case, don't early exit if the assigned array is the same because one of its elements might have changed.
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// We can safely early exit if the assigned value was null or empty, though
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if( ( m_intermediateNormals == null || m_intermediateNormals.Length == 0 ) && ( value == null || value.Length == 0 ) )
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return;
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m_intermediateNormals = value;
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spline.dirtyFlags |= InternalDirtyFlags.NormalChange;
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}
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}
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[SerializeField, HideInInspector]
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[UnityEngine.Serialization.FormerlySerializedAs( "extraData" )]
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private ExtraData m_extraData;
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public ExtraData extraData
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{
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get { return m_extraData; }
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set
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{
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if( m_extraData == value )
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return;
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m_extraData = value;
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spline.dirtyFlags |= InternalDirtyFlags.ExtraDataChange;
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}
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}
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#pragma warning restore 0649
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public BezierSpline spline { get; internal set; }
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public int index { get; internal set; }
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public BezierPoint previousPoint
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{
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get
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{
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if( spline )
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{
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if( index > 0 )
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return spline.endPoints[index - 1];
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else if( spline.loop )
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return spline.endPoints[spline.endPoints.Count - 1];
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}
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return null;
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}
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}
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public BezierPoint nextPoint
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{
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get
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{
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if( spline )
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{
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if( index < spline.endPoints.Count - 1 )
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return spline.endPoints[index + 1];
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else if( spline.loop )
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return spline.endPoints[0];
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}
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return null;
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}
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}
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private void Awake()
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{
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transform.hasChanged = true;
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}
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private void OnDestroy()
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{
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if( spline )
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spline.dirtyFlags |= InternalDirtyFlags.All;
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}
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public void CopyTo( BezierPoint other )
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{
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other.transform.localPosition = transform.localPosition;
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other.transform.localRotation = transform.localRotation;
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other.transform.localScale = transform.localScale;
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other.m_handleMode = m_handleMode;
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other.m_precedingControlPointLocalPosition = m_precedingControlPointLocalPosition;
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other.m_followingControlPointLocalPosition = m_followingControlPointLocalPosition;
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other.m_normal = m_normal;
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other.m_autoCalculatedNormalAngleOffset = m_autoCalculatedNormalAngleOffset;
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other.m_extraData = m_extraData;
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}
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public void Refresh()
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{
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m_position = transform.position;
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m_precedingControlPointPosition = transform.TransformPoint( m_precedingControlPointLocalPosition );
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m_followingControlPointPosition = transform.TransformPoint( m_followingControlPointLocalPosition );
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transform.hasChanged = false;
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}
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internal void RefreshIfChanged()
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{
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if( transform.hasChanged )
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{
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Refresh();
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spline.dirtyFlags |= InternalDirtyFlags.EndPointTransformChange | InternalDirtyFlags.ControlPointPositionChange;
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}
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}
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internal void SetNormalAndResetIntermediateNormals( Vector3 normal, string undo )
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{
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if( spline && spline.autoCalculateNormals )
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return;
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#if UNITY_EDITOR
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if( !string.IsNullOrEmpty( undo ) )
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UnityEditor.Undo.RecordObject( this, undo );
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#endif
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this.normal = normal;
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intermediateNormals = null;
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BezierPoint previousPoint = this.previousPoint;
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if( previousPoint && previousPoint.m_intermediateNormals != null && previousPoint.m_intermediateNormals.Length > 0 )
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{
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#if UNITY_EDITOR
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if( !string.IsNullOrEmpty( undo ) )
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UnityEditor.Undo.RecordObject( previousPoint, undo );
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#endif
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previousPoint.intermediateNormals = null;
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}
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}
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public void Reset()
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{
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localPosition = Vector3.zero;
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localRotation = Quaternion.identity;
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localScale = Vector3.one;
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precedingControlPointLocalPosition = Vector3.left;
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followingControlPointLocalPosition = Vector3.right;
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m_normal = Vector3.up;
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m_autoCalculatedNormalAngleOffset = 0f;
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m_extraData = new ExtraData();
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transform.hasChanged = true;
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}
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#if UNITY_EDITOR
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[ContextMenu( "Invert Spline" )]
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private void InvertSplineContextMenu()
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{
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if( spline )
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spline.InvertSpline( "Invert spline" );
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}
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#endif
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}
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} |