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Shapes 3D
3.0
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Shapes 3D
3.0
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Public Member Functions | |
| BSpline2D (float[] x, float[] y, int nbrSlices) | |
| BSpline2D (List< PVector > knots, int nbrSlices) | |
| BSpline2D (List< PVector > knots, int nbrSlices, PathOrthogonal ortho) | |
| BSpline2D (PVector[] knots, int nbrSlices) | |
| BSpline2D (PVector[] knots, int nbrSlices, PathOrthogonal ortho) | |
| PVector | point (float t) |
| PVector | tangent (float t) |
 Public Member Functions inherited from shapes3d.path.AbstractPath | |
| int | nbrSlices () |
| PVector | tangent (float t) |
| PVector | orthogonal (float t) |
| boolean | isOpenPath () |
Protected Attributes | |
| BCurve2D[] | bcurve3d |
| float[] | tMax |
| float[] | tLength |
| Protected Attributes inherited from shapes3d.path.AbstractPath | |
| final int | DEFAULT_NBR_SLICES = 100 |
| final int | nbrSlices |
| boolean | pathIsOpen = true |
Additional Inherited Members | |
| Public Attributes inherited from shapes3d.path.AbstractPath | |
| PathOrthogonal | orthoCalculator = null |
| Public Attributes inherited from shapes3d.utils.SConstants | |
| int | WIRE = 0x00000011 |
| int | SOLID = 0x00000012 |
| int | TEXTURE = 0x00000014 |
| int | DRAWALL = WIRE | SOLID | TEXTURE |
| int | WHITE = 0xFFFFFFFF |
| int | BLACK = 0xFF000000 |
| int | GREY = 0xFFC0C0C0 |
| int | RED = 0xFFFF0000 |
| int | GREEN = 0xFF00FF00 |
| int | BLUE = 0xFF0000FF |
| int | YELLOW = 0xFFFFFF00 |
| int | PURPLE = 0xFFFF00FF |
| int | CYAN = 0xFF00FFFF |
| int | ORANGE = 0xFFFFC000 |
| int | CW = 1 |
| int | CCW = 2 |
| int | ALL = 0b11111111 |
| int | BOTTOM = 0b00000001 |
| int | TOP = 0b00000010 |
| int | FRONT = 0b00000100 |
| int | BACK = 0b00001000 |
| int | LEFT = 0b00010000 |
| int | RIGHT = 0b00100000 |
| int | BODY = 0b00000001 |
| int | END0 = 0b00000010 |
| int | END1 = 0b00000100 |
| float | ONE_DEG_T = (float) (Math.PI / 180.0) |
| PathOrthogonal | ORTHO_X = new PathOrthogonal.PathNormalX() |
| PathOrthogonal | ORTHO_Y = new PathOrthogonal.PathNormalY() |
| PathOrthogonal | ORTHO_Z = new PathOrthogonal.PathNormalZ() |
| PathOrthogonal | ORTHO_A = new PathOrthogonal.PathNormalAMC() |
| TransformUV | ROT_0 = TransformUV.ROT0 |
| TransformUV | ROT_90 = TransformUV.ROT90 |
| TransformUV | ROT_180 = TransformUV.ROT180 |
| TransformUV | ROT_270 = TransformUV.ROT270 |
| TransformUV | FLIP_H = TransformUV.FLIPH |
| TransformUV | FLIP_V = TransformUV.FLIPV |
| Rotation | ROTATION_ZERO = new Rotation() |
| int | T_BOX = 0x1001 |
| int | T_DOME = 0x1002 |
| int | T_CONE = 0x1003 |
| int | T_ELLIPSOID = 0x1004 |
| int | T_EXTRUSION = 0x1005 |
| int | T_LATHESTOCK = 0x1006 |
| int | T_MD2 = 0x1007 |
| int | T_SKYBOX = 0x1008 |
| int | T_SKYDOME = 0x1009 |
| int | T_TERRAIN = 0x100A |
| int | T_TUBE = 0x100B |
| int | C_LATHESURFACE = 0x2001 |
| int | C_OVAL = 0x2002 |
| int | C_POLYGON = 0x2003 |
| int | P_BCURVE2D = 0x3001 |
| int | P_BCURVE3D = 0x3002 |
| int | P_BSPLINE2D = 0x3003 |
| int | P_BSPLINE3D = 0x3004 |
| int | P_LINEAR = 0x3005 |
| int | P_LISSAJOUS = 0x3006 |
| int | P_RING = 0x3007 |
| int | P_SPIRAL = 0x3008 |
| Protected Member Functions inherited from shapes3d.path.AbstractPath | |
| AbstractPath () | |
| AbstractPath (int nbrSlices) | |
This class defines a Bezier spline in 2D space that passes through a set of given points (called knots). All z values for the knots are set to 0, this will affect all PVector objects used to construct a spline knots.
The curve between each pair of points is a cubic Bezier curve and the controls points are calculated to give a smooth transition along the spline.
The position along the spline can be found using a parametric variable in the range ≥0 and ≤1
Based on source code found on the Internet and modified by the author to work directly with Processing. The URL for the original code has been lost).
| shapes3d.path.BSpline2D.BSpline2D | ( | float[] | x, |
| float[] | y, | ||
| int | nbrSlices | ||
| ) |
Creates a Bezier spline using two arrays for the x and y positions for each control point (z = 0).
If the arrays passed to this constructor differ in length the extra in the longer array are ignored.
| x | array of the x values of the control point positions |
| y | array of the y values of the control point positions |
| nbrSlices | the number of slices along the curve's length Create a Bezier spline that passes through the specified positions |
| knots | list of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use Create a Bezier spline that passes through the specified positions |
| knots | list of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use Create a Bezier spline that passes through the specified positions |
| knots | array of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path Create a Bezier spline that passes through the specified positions |
| knots | array of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use Creates a Bezier spline using two arrays for the x and y positions for each control point (z = 0). If the arrays passed to this constructor differ in length the extra in the longer array are ignored. |
| x | array of the x values of the control point positions |
| y | array of the y values of the control point positions |
| nbrSlices | the number of slices along the curve's length |
| shapes3d.path.BSpline2D.BSpline2D | ( | List< PVector > | knots, |
| int | nbrSlices | ||
| ) |
Create a Bezier spline that passes through the specified positions
| knots | list of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use |
| shapes3d.path.BSpline2D.BSpline2D | ( | List< PVector > | knots, |
| int | nbrSlices, | ||
| PathOrthogonal | ortho | ||
| ) |
Create a Bezier spline that passes through the specified positions
| knots | list of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use |
| shapes3d.path.BSpline2D.BSpline2D | ( | PVector[] | knots, |
| int | nbrSlices | ||
| ) |
Create a Bezier spline that passes through the specified positions
| knots | array of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| shapes3d.path.BSpline2D.BSpline2D | ( | PVector[] | knots, |
| int | nbrSlices, | ||
| PathOrthogonal | ortho | ||
| ) |
Create a Bezier spline that passes through the specified positions
| knots | array of PVectors defining the spline. |
| nbrSlices | the number of slices along the length of the path |
| ortho | the orthogonal calculator to use |
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virtual |
Method defines the function V = pos(t) where t is in the range ≥0.0 and ≤1.0
| t | parametric value ≥0.0 and ≤1.0 |
Implements shapes3d.path.AbstractPath.
| PVector shapes3d.path.BSpline2D.tangent | ( | float | t | ) |
Method defines the function V = tangent(t) where t is in the range≥0.0 and ≤1.0
| t | parametric value ≥0.0 and ≤1.0 |
Implements shapes3d.path.Path.
1.8.5 
