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Reworked bezier_offset()
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1 changed files with 16 additions and 16 deletions
32
beziers.scad
32
beziers.scad
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@ -385,25 +385,24 @@ function bezier_close_to_axis(bezier, N=3, axis="X") =
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// Function: bezier_offset()
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// Usage:
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// bezier_offset(inset, bezier, [N], [axis]);
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// bezier_offset(offset, bezier, [N], [axis]);
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// Description:
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// Takes a 2D bezier path and closes it with a matching reversed path that is closer to the given axis by distance `inset`.
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// Takes a 2D bezier path and closes it with a matching reversed path that is offset by the given `offset` [X,Y] distance.
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// Arguments:
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// inset = Amount to lower second path by.
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// offset = Amount to offset second path by.
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// bezier = The 2D bezier path.
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// N = The degree of the bezier curves. Cubic beziers have N=3. Default: 3
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// axis = The axis to offset towards, "X", or "Y". Default: "X"
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// Example(2D):
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// bez = [[50,30], [40,10], [10,50], [0,30], [-10, 10], [-30,10], [-50,20]];
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// closed = bezier_offset(5, bez);
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// closed = bezier_offset([0,-5], bez);
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// trace_bezier(closed, size=1);
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// Example(2D):
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// bez = [[30,50], [10,40], [50,10], [30,0], [10, -10], [10,-30], [20,-50]];
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// closed = bezier_offset(5, bez, axis="Y");
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// closed = bezier_offset([-5,0], bez);
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// trace_bezier(closed, size=1);
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function bezier_offset(inset, bezier, N=3, axis="X") =
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function bezier_offset(offset, bezier, N=3) =
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let(
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backbez = reverse([ for (pt = bezier) pt-(axis=="X"? [0,inset] : [inset,0]) ]),
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backbez = reverse([ for (pt = bezier) pt+offset ]),
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bezend = len(bezier)-1
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) concat(
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bezier,
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@ -457,7 +456,7 @@ module bezier_polygon(bezier, splinesteps=16, N=3) {
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// scale = Relative size of top of extrusion to the bottom. default=1.0
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// slices = Number of vertical slices to use for twisted extrusion. default=20
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// center = If true, the extruded solid is centered vertically at z=0.
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `BOTTOM`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
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// Example:
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@ -469,10 +468,10 @@ module bezier_polygon(bezier, splinesteps=16, N=3) {
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// [ 25, -15], [-10, 0]
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// ];
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// linear_sweep_bezier(bez, height=20, splinesteps=32);
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module linear_sweep_bezier(bezier, height=100, splinesteps=16, N=3, center=undef, convexity=undef, twist=undef, slices=undef, scale=undef, anchor=UP, spin=0, orient=UP) {
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module linear_sweep_bezier(bezier, height=100, splinesteps=16, N=3, center=undef, convexity=undef, twist=undef, slices=undef, scale=undef, anchor=BOTTOM, spin=0, orient=UP) {
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maxx = max([for (pt = bezier) abs(pt[0])]);
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maxy = max([for (pt = bezier) abs(pt[1])]);
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orient_and_anchor([maxx*2,maxy*2,height], orient, anchor, spin=spin, chain=true) {
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orient_and_anchor([maxx*2,maxy*2,height], orient, anchor, spin=spin, center=center, chain=true) {
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linear_extrude(height=height, center=true, convexity=convexity, twist=twist, slices=slices, scale=scale) {
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bezier_polygon(bezier, splinesteps=splinesteps, N=N);
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}
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@ -491,7 +490,7 @@ module linear_sweep_bezier(bezier, height=100, splinesteps=16, N=3, center=undef
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// bezier = array of 2D points for the bezier path to rotate.
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// splinesteps = number of segments to divide each bezier segment into. default=16
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// N = number of points in each bezier segment. default=3 (cubic)
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// convexity = max number of walls a line could pass through, for preview. default=10
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// convexity = max number of walls a line could pass through, for preview. default=2
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// angle = Degrees of sweep to make. Default: 360
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
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@ -505,7 +504,7 @@ module linear_sweep_bezier(bezier, height=100, splinesteps=16, N=3, center=undef
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// [ 0, 10]
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// ];
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// rotate_sweep_bezier(path, splinesteps=32, $fn=180);
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module rotate_sweep_bezier(bezier, splinesteps=16, N=3, convexity=10, angle=360, anchor=CENTER, spin=0, orient=UP)
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module rotate_sweep_bezier(bezier, splinesteps=16, N=3, convexity=undef, angle=360, anchor=CENTER, spin=0, orient=UP)
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{
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maxx = max([for (pt = bezier) abs(pt[0])]);
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maxy = max([for (pt = bezier) abs(pt[1])]);
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@ -525,13 +524,16 @@ module rotate_sweep_bezier(bezier, splinesteps=16, N=3, convexity=10, angle=360,
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// Arguments:
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// bezier = array of points for the bezier path to extrude along.
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// splinesteps = number of segments to divide each bezier segment into. default=16
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// N = The degree of the bezier path to extrude.
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// convexity = max number of walls a line could pass through, for preview. default=2
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// clipsize = Size of cube to use for clipping beveled ends with.
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// Example(FR):
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// path = [ [0, 0, 0], [33, 33, 33], [66, -33, -33], [100, 0, 0] ];
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// bezier_path_extrude(path) difference(){
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// circle(r=10);
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// fwd(10/2) circle(r=8);
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// }
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module bezier_path_extrude(bezier, splinesteps=16, N=3, convexity=10, clipsize=1000) {
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module bezier_path_extrude(bezier, splinesteps=16, N=3, convexity=undef, clipsize=1000) {
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path = slice(bezier_polyline(bezier, splinesteps, N), 0, -1);
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path_extrude(path, convexity=convexity, clipsize=clipsize) children();
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}
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@ -567,7 +569,6 @@ module bezier_sweep_bezier(bezier, path, pathsteps=16, bezsteps=16, bezN=3, path
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}
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// Module: trace_bezier()
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// Description:
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// Renders 2D or 3D bezier paths and their associated control points.
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@ -653,7 +654,6 @@ function bezier_triangle_point(tri, u, v) =
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bezier_triangle_point(u*Pu + v*Pv + (1-u-v)*Pw, u, v);
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// Function: is_tripatch()
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// Description:
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// Returns true if the given item is a triangular bezier patch.
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