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Fixes for extrude_path2d()
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2 changed files with 63 additions and 63 deletions
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@ -1004,7 +1004,6 @@ function triplet(list, wrap=false) =
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];
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// Function: combinations()
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// Usage:
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// list = combinations(l, [n]);
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123
mutators.scad
123
mutators.scad
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@ -477,13 +477,16 @@ module chain_hull()
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// Usage:
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// path_extrude2d(path, [caps], [closed]) {...}
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// Description:
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// Extrudes 2D children along the given 2D path, with optional rounded endcaps. This module works properly in general only if the given
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// children are convex and symmetric across the Y axis. It works by constructing flat sections corresponding to each segment of the path and
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// inserting rounded joints at each corner.
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// Extrudes 2D children along the given 2D path, with optional rounded endcaps.
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// It works by constructing straight sections corresponding to each segment of the path and inserting rounded joints at each corner.
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// If the children are symmetric across the Y axis line then you can set caps=true to produce rounded caps on the ends of the profile.
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// If you set caps to true for asymmetric children then incorrect caps will be generated.
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// Arguments:
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// path = The 2D path to extrude the geometry along.
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// caps = If true, caps each end of the path with a `rotate_extrude()`d copy of the children. This may interact oddly when given asymmetric profile children. Default: false
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// closed = If true, connect the starting point of the path to the ending point. Default: false
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// convexity = The max number of times a line could pass though a wall. Default: 10
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// s = Mask size to use. Use a number larger than twice your object's largest axis. If you make this too large, it messes with centering your view. Default: The length of the diagonal of the path's bounding box.
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// Example:
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// path = [
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// each right(50, p=arc(d=100,angle=[90,180])),
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@ -502,13 +505,55 @@ module chain_hull()
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// [-50,0], [-25,50], [0,0], [50,0]
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// ]);
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// path_extrude2d(path, caps=false)
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// trapezoid(w1=10, w2=1, h=5, anchor=BACK);
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module path_extrude2d(path, caps=false, closed=false) {
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// trapezoid(w1=10, w2=3, h=5, anchor=BACK);
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// Example: Un-Closed Path
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// $fn=16;
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// spath = star(id=15,od=35,n=5);
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// path_extrude2d(spath, caps=false, closed=false)
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// move_copies([[-3.5,1.5],[0.0,3.0],[3.5,1.5]])
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// circle(r=1.5);
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// Example: Complex Endcaps
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// $fn=16;
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// spath = star(id=15,od=35,n=5);
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// path_extrude2d(spath, caps=true, closed=false)
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// move_copies([[-3.5,1.5],[0.0,3.0],[3.5,1.5]])
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// circle(r=1.5);
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module path_extrude2d(path, caps=false, closed=false, s, convexity=10) {
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extra_ang = 0.1; // Extra angle for overlap of joints
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assert(caps==false || closed==false, "Cannot have caps on a closed extrusion");
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assert(is_path(path,2));
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path = deduplicate(path);
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for (p=pair(path,wrap=closed))
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extrude_from_to(p[0],p[1]) xflip()rot(-90)children();
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s = s!=undef? s :
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let(b = pointlist_bounds(path))
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norm(b[1]-b[0]);
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assert(is_finite(s));
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L = len(path);
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for (i = [0:1:L-(closed?1:2)]) {
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seg = select(path, i, i+1);
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segv = seg[1] - seg[0];
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seglen = norm(segv);
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translate((seg[0]+seg[1])/2) {
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rot(from=BACK, to=segv) {
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difference() {
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xrot(90) {
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linear_extrude(height=seglen, center=true, convexity=convexity) {
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children();
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}
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}
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if (closed || i>0) {
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pt = select(path, i-1);
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pang = v_theta(rot(from=-segv, to=RIGHT, p=pt - seg[0]));
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fwd(seglen/2+0.01) zrot(pang/2) cube(s, anchor=BACK);
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}
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if (closed || i<L-2) {
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pt = select(path, i+2);
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pang = v_theta(rot(from=segv, to=RIGHT, p=pt - seg[1]));
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back(seglen/2+0.01) zrot(pang/2) cube(s, anchor=FWD);
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}
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}
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}
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}
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}
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for (t=triplet(path,wrap=closed)) {
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ang = -(180-vector_angle(t)) * sign(_point_left_of_line2d(t[2],[t[0],t[1]]));
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delt = point3d(t[2] - t[1]);
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@ -525,60 +570,16 @@ module path_extrude2d(path, caps=false, closed=false) {
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}
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if (caps) {
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move_copies([path[0],last(path)])
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rotate_extrude()
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right_half(planar=true) children();
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}
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}
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module new_path_extrude2d(path, caps=false, closed=false) {
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extra_ang = 0.1; // Extra angle for overlap of joints
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assert(caps==false || closed==false, "Cannot have caps on a closed extrusion");
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path = deduplicate(path);
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for (i=[0:1:len(path)-(closed?1:2)]){
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// for (i=[0:1:1]){
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difference(){
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extrude_from_to(path[i],select(path,i+1)) xflip()rot(-90)children();
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# for(t = [select(path,i-1,i+1)]){ //, select(path,i,i+2)]){
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ang = -(180-vector_angle(t)) * sign(_point_left_of_line2d(t[2],[t[0],t[1]]));
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echo(ang=ang);
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delt = point3d(t[2] - t[1]);
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if (ang!=0)
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translate(t[1]) {
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frame_map(y=delt, z=UP)
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rotate(-sign(ang)*extra_ang/2)
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rotate_extrude(angle=ang+sign(ang)*extra_ang)
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if (ang<0)
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left_half(planar=true) children();
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else
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right_half(planar=true) children();
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}
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}
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}
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}
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for (t=triplet(path,wrap=closed)) {
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ang = -(180-vector_angle(t)) * sign(_point_left_of_line2d(t[2],[t[0],t[1]]));
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echo(oang=ang);
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delt = point3d(t[2] - t[1]);
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if (ang!=0)
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translate(t[1]) {
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frame_map(y=delt, z=UP)
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rotate(-sign(ang)*extra_ang/2)
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rotate_extrude(angle=ang+sign(ang)*extra_ang)
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if (ang<0)
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right_half(planar=true) children();
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else
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left_half(planar=true) children();
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}
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}
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if (caps) {
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move_copies([path[0],last(path)])
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rotate_extrude()
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right_half(planar=true) children();
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bseg = select(path,0,1);
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move(bseg[0])
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rot(from=BACK, to=bseg[0]-bseg[1])
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rotate_extrude(angle=180)
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right_half(planar=true) children();
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eseg = select(path,-2,-1);
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move(eseg[1])
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rot(from=BACK, to=eseg[1]-eseg[0])
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rotate_extrude(angle=180)
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right_half(planar=true) children();
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}
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}
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