mirror of
https://github.com/BelfrySCAD/BOSL2.git
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642 lines
28 KiB
OpenSCAD
642 lines
28 KiB
OpenSCAD
//////////////////////////////////////////////////////////////////////
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// LibFile: masks3d.scad
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// This file defines 3D masks for applying chamfers, roundovers, and teardrop roundovers to straight edges and circular
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// edges in three dimensions.
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// Includes:
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// include <BOSL2/std.scad>
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// FileGroup: Basic Modeling
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// FileSummary: 3D masks for rounding or chamfering edges and corners.
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// FileFootnotes: STD=Included in std.scad
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//////////////////////////////////////////////////////////////////////
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// Section: Chamfer Masks
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// Module: chamfer_edge_mask()
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// Synopsis: Creates a shape to chamfer a 90° edge.
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// SynTags: Geom
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// Topics: Masking, Chamfers, Shapes (3D)
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// See Also: chamfer_corner_mask(), chamfer_cylinder_mask(), chamfer_edge_mask(), default_tag(), diff()
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// Usage:
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// chamfer_edge_mask(l|h=|length=|height=, chamfer, [excess]) [ATTACHMENTS];
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// Description:
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// Creates a shape that can be used to chamfer a 90° edge.
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// Difference it from the object to be chamfered. The center of
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// the mask object should align exactly with the edge to be chamfered.
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// Arguments:
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// l/h/length/height = Length of mask.
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// chamfer = Size of chamfer.
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// excess = The extra amount to add to the length of the mask so that it differences away from other shapes cleanly. Default: `0.1`
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// ---
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Side Effects:
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// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
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// Example:
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// chamfer_edge_mask(l=50, chamfer=10);
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// Example:
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// difference() {
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// cube(50, anchor=BOTTOM+FRONT);
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// #chamfer_edge_mask(l=50, chamfer=10, orient=RIGHT);
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// }
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// Example: Masking by Attachment
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// diff()
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// cube(50, center=true) {
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// edge_mask(TOP+RIGHT)
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// #chamfer_edge_mask(l=50, chamfer=10);
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// }
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function chamfer_edge_mask(l, chamfer=1, excess=0.1, h, length, height, anchor=CENTER, spin=0, orient=UP) = no_function("chamfer_edge_mask");
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module chamfer_edge_mask(l, chamfer=1, excess=0.1, h, length, height, anchor=CENTER, spin=0, orient=UP) {
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l = one_defined([l, h, height, length], "l,h,height,length");
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default_tag("remove") {
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attachable(anchor,spin,orient, size=[chamfer*2, chamfer*2, l]) {
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cylinder(r=chamfer, h=l+excess, center=true, $fn=4);
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children();
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}
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}
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}
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// Module: chamfer_corner_mask()
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// Synopsis: Creates a shape to chamfer a 90° corner.
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// SynTags: Geom
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// Topics: Masking, Chamfers, Shapes (3D)
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// See Also: chamfer_corner_mask(), chamfer_cylinder_mask(), chamfer_edge_mask(), default_tag(), diff()
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// Usage:
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// chamfer_corner_mask(chamfer) [ATTACHMENTS];
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// Description:
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// Creates a shape that can be used to chamfer a 90° corner.
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// Difference it from the object to be chamfered. The center of
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// the mask object should align exactly with the corner to be chamfered.
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// Arguments:
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// chamfer = Size of chamfer.
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// ---
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Side Effects:
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// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
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// Example:
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// chamfer_corner_mask(chamfer=10);
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// Example:
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// difference() {
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// cuboid(50, chamfer=10, trimcorners=false);
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// move(25*[1,-1,1]) #chamfer_corner_mask(chamfer=10);
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// }
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// Example: Masking by Attachment
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// diff()
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// cuboid(100, chamfer=20, trimcorners=false) {
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// corner_mask(TOP+FWD+RIGHT)
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// chamfer_corner_mask(chamfer=20);
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// }
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// Example: Anchors
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// chamfer_corner_mask(chamfer=20)
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// show_anchors();
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function chamfer_corner_mask(chamfer=1, anchor=CENTER, spin=0, orient=UP) = no_function("chamfer_corner_mask");
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module chamfer_corner_mask(chamfer=1, anchor=CENTER, spin=0, orient=UP) {
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default_tag("remove") {
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octahedron(chamfer*4, anchor=anchor, spin=spin, orient=orient) children();
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}
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}
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// Module: chamfer_cylinder_mask()
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// Synopsis: Creates a shape to chamfer the end of a cylinder.
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// SynTags: Geom
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// Topics: Masking, Chamfers, Cylinders
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// See Also: chamfer_corner_mask(), chamfer_cylinder_mask(), chamfer_edge_mask(), default_tag(), diff()
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// Usage:
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// chamfer_cylinder_mask(r|d=, chamfer, [ang], [from_end]) [ATTACHMENTS];
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// Description:
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// Create a mask that can be used to bevel/chamfer the end of a cylindrical region.
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// Difference it from the end of the region to be chamfered. The center of the mask
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// object should align exactly with the center of the end of the cylindrical region
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// to be chamfered.
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// Arguments:
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// r = Radius of cylinder to chamfer.
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// chamfer = Size of the edge chamfered, inset from edge.
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// ---
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// d = Diameter of cylinder to chamfer. Use instead of r.
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// ang = Angle of chamfer in degrees from the horizontal. (Default: 45)
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// from_end = If true, chamfer size is measured from end of cylinder. If false, chamfer is measured outset from the radius of the cylinder. (Default: false)
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Side Effects:
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// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
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// Example:
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// difference() {
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// cylinder(r=50, h=100, center=true);
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// up(50) #chamfer_cylinder_mask(r=50, chamfer=10);
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// }
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// Example:
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// difference() {
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// cylinder(r=50, h=100, center=true);
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// up(50) chamfer_cylinder_mask(r=50, chamfer=10);
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// }
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// Example: Changing the chamfer angle
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// difference() {
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// cylinder(r=50, h=100, center=true);
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// up(50) #chamfer_cylinder_mask(r=50, chamfer=10, ang=70);
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// }
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// Example:
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// difference() {
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// cylinder(r=50, h=100, center=true);
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// up(50) chamfer_cylinder_mask(r=50, chamfer=10, ang=70);
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// }
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// Example: Masking by Attachment
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// diff()
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// cyl(d=100,h=40)
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// attach([TOP,BOT])
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// tag("remove")chamfer_cylinder_mask(d=100, chamfer=10);
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function chamfer_cylinder_mask(r, chamfer, d, ang=45, from_end=false, anchor=CENTER, spin=0, orient=UP) = no_function("chamfer_cylinder_mask");
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module chamfer_cylinder_mask(r, chamfer, d, ang=45, from_end=false, anchor=CENTER, spin=0, orient=UP)
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{
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r = get_radius(r=r, d=d, dflt=1);
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dummy = assert(all_nonnegative([chamfer]), "Chamfer must be a nonnegative number");
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ch = from_end? chamfer : opp_ang_to_adj(chamfer,90-ang);
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default_tag("remove"){
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attachable(anchor,spin,orient, r=r, l=ch*2) {
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difference() {
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cyl(r=r+chamfer, l=ch*2, anchor=CENTER);
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cyl(r=r, l=ch*3, chamfer=chamfer, chamfang=ang, from_end=from_end, anchor=TOP);
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}
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children();
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}
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}
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}
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// Section: Rounding Masks
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// Module: rounding_edge_mask()
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// Synopsis: Creates a shape to round a 90° edge.
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// SynTags: Geom
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// Topics: Masks, Rounding, Shapes (3D)
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// See Also: rounding_corner_mask(), default_tag(), diff()
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// Usage:
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// rounding_edge_mask(l|h=|length=|height=, r|d=, [ang], [excess=]) [ATTACHMENTS];
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// rounding_edge_mask(l|h=|length=|height=, r1=|d1=, r2=|d2=, [ang=], [excess=]) [ATTACHMENTS];
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// Description:
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// Creates a shape that can be used to round a straight edge at any angle.
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// Difference it from the object to be rounded. The center of the mask
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// object should align exactly with the edge to be rounded. You can use it with {{diff()}} and
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// {{edge_mask()}} to attach masks automatically to objects. The default "remove" tag is set
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// automatically.
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//
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// Arguments:
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// l/h/length/height = Length of mask.
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// r = Radius of the rounding.
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// ang = Angle between faces for rounding. Default: 90
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// ---
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// r1 = Bottom radius of rounding.
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// r2 = Top radius of rounding.
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// d = Diameter of the rounding.
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// d1 = Bottom diameter of rounding.
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// d2 = Top diameter of rounding.
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// excess = Extra size for the mask. Defaults: 0.1
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Side Effects:
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// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
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// Example(VPD=200,VPR=[55,0,120]):
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// rounding_edge_mask(l=50, r=15);
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// Example(VPD=200,VPR=[55,0,120]): With different radii at each end
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// rounding_edge_mask(l=50, r1=10, r2=25);
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// Example(VPD=200,VPR=[55,0,120]): Acute angle
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// rounding_edge_mask(l=50, r=10, ang=45);
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// Example(VPD=200,VPR=[55,0,120]): A large excess
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// rounding_edge_mask(l=50, r=15,excess=4);
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// Example: Subtracting from a cube
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// difference() {
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// cube(size=100, center=false);
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// #rounding_edge_mask(l=100, r=25, anchor=BOTTOM);
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// }
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// Example: Varying Rounding Radius
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// difference() {
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// cube(size=50, center=false);
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// down(1)rounding_edge_mask(l=52, r1=25, r2=10, anchor=BOTTOM);
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// }
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// Example: Angle not 90 degrees
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// difference() {
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// pie_slice(ang=70, h=50, d=100, center=true);
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// #rounding_edge_mask(h=51, r=20.0, ang=70, $fn=32);
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// }
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// Example: Varying Rounding Radius
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// difference() {
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// pie_slice(ang=70, h=50, d=100, center=true);
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// #rounding_edge_mask(h=51, r1=10, r2=25, ang=70, $fn=32);
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// }
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// Example: Rounding a non-right angled edge, with a zero radius at the bottom.
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// difference(){
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// linear_extrude(height=50)xflip(x=25)right_triangle([50,50]);
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// rounding_edge_mask(l=51, ang=45, r1=0, r2=15, anchor=BOT);
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// }
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// Example: Masking by Attachment
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// diff()
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// cube(100, center=true)
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// edge_mask(FRONT+RIGHT)
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// #rounding_edge_mask(l=$parent_size.z+0.01, r=25);
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// Example: Multiple Masking by Attachment
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// diff()
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// cube([80,90,100], center=true) {
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// let(p = $parent_size*1.01) {
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// edge_mask(TOP)
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// rounding_edge_mask(l=p.z, r=25);
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// }
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// }
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function rounding_edge_mask(l, r, ang=90, r1, r2, d, d1, d2, excess=0.1, anchor=CENTER, spin=0, orient=UP, h,height,length) = no_function("rounding_edge_mask");
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module rounding_edge_mask(l, r, ang=90, r1, r2, excess=0.01, d1, d2,d,r,length, h, height, anchor=CENTER, spin=0, orient=UP,
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_remove_tag=true)
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{
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length = one_defined([l,length,h,height],"l,length,h,height");
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r1 = get_radius(r1=r1, d1=d1,d=d,r=r);
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r2 = get_radius(r2=r2, d1=d2,d=d,r=r);
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dummy = assert(all_nonnegative([r1,r2]), "radius/diameter value(s) must be nonnegative")
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assert(all_positive([length]), "length/l/h/height must be a positive value")
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assert(is_finite(ang) && ang>0 && ang<180, "ang must be a number between 0 and 180");
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steps = ceil(segs(max(r1,r2))*(180-ang)/360);
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function make_path(r) =
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let(
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arc = r==0 ? repeat([0,0],steps+1)
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: arc(n=steps+1, r=r, corner=[polar_to_xy(r,ang),[0,0],[r,0]]),
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maxx = last(arc).x,
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maxy = arc[0].y,
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cp = [-excess/tan(ang/2),-excess]
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)
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[
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[maxx, -excess],
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cp,
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arc[0] + polar_to_xy(excess, 90+ang),
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each arc
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];
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path1 = path3d(make_path(r1),-length/2);
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path2 = path3d(make_path(r2),length/2);
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left_normal = cylindrical_to_xyz(1,90+ang,0);
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left_dir = cylindrical_to_xyz(1,ang,0);
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zdir = unit([length, 0,-(r2-r1)/tan(ang/2)]);
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cutfact = 1/sin(ang/2)-1;
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v=unit(zrot(ang,zdir)+left_normal);
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ref = UP - (v*UP)*v;
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backleft_spin=-vector_angle(rot(from=UP,to=v,p=BACK),ref);
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override = [
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[CENTER, [CENTER,UP]],
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[TOP, [[0,0,length/2]]],
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[BOT, [[0,0,-length/2]]],
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[FWD, [[(r1+r2)/tan(ang/2)/4,0,0]]],
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[FWD+BOT, [[r1/tan(ang/2)/2,0,-length/2]]],
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[FWD+TOP, [[r2/tan(ang/2)/2,0,length/2]]],
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[LEFT, [(r1+r2)/tan(ang/2)/4*left_dir, left_normal,ang-180]],
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[LEFT+BOT, [down(length/2,r1/tan(ang/2)/2*left_dir), rot(v=left_dir,-45,p=left_normal),ang-180]],
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[LEFT+TOP, [up(length/2,r2/tan(ang/2)/2*left_dir), rot(v=left_dir, 45, p=left_normal),ang-180]],
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[LEFT+FWD, [CENTER, left_normal+FWD,ang/2-90]],
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[LEFT+FWD+TOP, [[0,0,length/2], left_normal+FWD+UP,ang/2-90]],
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[LEFT+FWD+BOT, [[0,0,-length/2], left_normal+FWD+DOWN,ang/2-90]],
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[RIGHT, [[(r1+r2)/2/tan(ang/2),0,0],zdir]],
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[RIGHT+TOP, [[r2/tan(ang/2),0,length/2],zdir+UP]],
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[RIGHT+BOT, [[r1/tan(ang/2),0,-length/2],zdir+DOWN]],
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[RIGHT+FWD, [[(r1+r2)/2/tan(ang/2),0,0],zdir+FWD]],
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[RIGHT+TOP+FWD, [[r2/tan(ang/2),0,length/2],zdir+UP+FWD]],
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[RIGHT+BOT+FWD, [[r1/tan(ang/2),0,-length/2],zdir+DOWN+FWD]],
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[BACK, [ (r1+r2)/2/tan(ang/2)*left_dir,zrot(ang,zdir),ang+90]],
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[BACK+BOT, [ down(length/2,r1/tan(ang/2)*left_dir),zrot(ang,zdir)+DOWN,ang+90]],
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[BACK+UP, [ up(length/2,r2/tan(ang/2)*left_dir),zrot(ang,zdir)+UP,ang+90]],
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[BACK+LEFT, [ (r1+r2)/2/tan(ang/2)*left_dir,zrot(ang,zdir)+left_normal, backleft_spin]],
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[BACK+BOT+LEFT, [ down(length/2,r1/tan(ang/2)*left_dir),zrot(ang,zdir)+left_normal+DOWN,backleft_spin]],
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[BACK+UP+LEFT, [ up(length/2,r2/tan(ang/2)*left_dir),zrot(ang,zdir)+left_normal+UP,backleft_spin]],
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[BACK+RIGHT, [cylindrical_to_xyz(cutfact*(r1+r2)/2,ang/2,0), zrot(ang/2,zdir),ang/2+90]],
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[BACK+RIGHT+TOP, [cylindrical_to_xyz(cutfact*r2,ang/2,length/2), zrot(ang/2,zdir)+UP,ang/2+90]],
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[BACK+RIGHT+BOT, [cylindrical_to_xyz(cutfact*r1,ang/2,-length/2), zrot(ang/2,zdir)+DOWN,ang/2+90]],
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];
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vnf = vnf_vertex_array([path1,path2],caps=true,col_wrap=true);
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default_tag("remove", _remove_tag)
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attachable(anchor,spin,orient,size=[1,1,length],override=override){
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vnf_polyhedron(vnf);
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children();
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}
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}
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// Module: rounding_corner_mask()
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// Synopsis: Creates a shape to round 90° corners.
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// SynTags: Geom
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// Topics: Masking, Rounding, Shapes (3D)
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// See Also: rounding_edge_mask(), default_tag(), diff()
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// Usage:
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// rounding_corner_mask(r|d, [ang], [excess=], [style=]) [ATTACHMENTS];
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// Description:
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// Creates a shape that you can use to round corners where the top and bottom faces are parallel and the two side
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// faces are perpendicular to the top and bottom, e.g. cubes or pie_slice corners.
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// Difference it from the object to be rounded. The center of the mask
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// object should align exactly with the corner to be rounded.
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// Arguments:
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// r = Radius of corner rounding.
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// ang = Angle of corner (measured around the z axis). Default: 90
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// ---
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// d = Diameter of corner rounding.
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// excess = Extra size for the mask. Defaults: 0.1
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// style = The style of the sphere cutout's construction. One of "orig", "aligned", "stagger", "octa", or "icosa". Default: "octa"
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
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// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
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// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
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// Side Effects:
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// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
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// Example:
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// rounding_corner_mask(r=20);
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// Example: Adding a huge excess
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// rounding_corner_mask(r=20, excess=5);
|
|
// Example: Position masks manually
|
|
// difference() {
|
|
// cube(size=[50, 60, 70], center=true);
|
|
// translate([-25, -30, 35])
|
|
// #rounding_corner_mask(r=20, spin=90, orient=DOWN);
|
|
// translate([25, -30, 35])
|
|
// #rounding_corner_mask(r=20, orient=DOWN);
|
|
// translate([25, -30, -35])
|
|
// #rounding_corner_mask(r=20, spin=90);
|
|
// }
|
|
// Example: Masking by Attachment
|
|
// diff()
|
|
// cube(size=[50, 60, 70]) {
|
|
// corner_mask(TOP)
|
|
// #rounding_corner_mask(r=20);
|
|
// }
|
|
// Example(VPR=[71.8,0,345.8],VPT=[57.0174,43.8496,24.5863],VPD=263.435,NoScales): Acute angle
|
|
// ang=60;
|
|
// difference() {
|
|
// pie_slice(ang=ang, h=50, r=100);
|
|
// zflip_copy(z=25)
|
|
// #rounding_corner_mask(r=20, ang=ang);
|
|
// }
|
|
// Example(VPR=[62.7,0,5.4],VPT=[6.9671,22.7592,20.7513],VPD=192.044): Obtuse angle
|
|
// ang=120;
|
|
// difference() {
|
|
// pie_slice(ang=ang, h=50, r=30);
|
|
// zflip_copy(z=25)
|
|
// #rounding_corner_mask(r=20, ang=ang);
|
|
// }
|
|
|
|
function rounding_corner_mask(r, ang, d, style="octa", excess=0.1, anchor=CENTER, spin=0, orient=UP) = no_function("rounding_corner_mask");
|
|
module rounding_corner_mask(r, ang=90, d, style="octa", excess=0.1, anchor=CENTER, spin=0, orient=UP)
|
|
{
|
|
r = get_radius(r=r, d=d, dflt=1);
|
|
joint = r/tan(ang/2);
|
|
path = [
|
|
[joint,r],
|
|
[joint,-excess],
|
|
[-excess/tan(ang/2),-excess],
|
|
polar_to_xy(joint,ang)+polar_to_xy(excess,90+ang)
|
|
];
|
|
default_tag("remove") {
|
|
attachable(anchor,spin,orient, size=[2,2,2]*r) {
|
|
difference() {
|
|
down(excess)
|
|
linear_extrude(height=r+excess) polygon(path);
|
|
translate([joint,r,r])
|
|
spheroid(r=r, style=style);
|
|
}
|
|
children();
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
function rounding_angled_edge_mask(h, r, r1, r2, d, d1, d2, ang=90, anchor=CENTER, spin=0, orient=UP,l,height,length) = no_function("rounding_angled_edge_mask");
|
|
module rounding_angled_edge_mask(h, r, r1, r2, d, d1, d2, ang=90, anchor=CENTER, spin=0, orient=UP,l,height,length)
|
|
{
|
|
deprecate("angled_edge_mask");
|
|
rounding_edge_mask(h=h,r=r,r1=r1,r2=r2,d=d,d1=d1,d2=d1,ang=ang,anchor=anchor,spin=spin,orient=orient,l=l,height=height,length=length)
|
|
children();
|
|
}
|
|
|
|
|
|
function rounding_angled_corner_mask(r, ang=90, d, anchor=CENTER, spin=0, orient=UP) = no_function("rounding_angled_corner_mask");
|
|
module rounding_angled_corner_mask(r, ang=90, d, anchor=CENTER, spin=0, orient=UP)
|
|
{
|
|
deprecate("rounding_corner_mask");
|
|
zflip()rounding_corner_mask(r=r,ang=ang,d=d,anchor=anchor,spin=spin,orient=orient)
|
|
children();
|
|
}
|
|
|
|
|
|
// Module: rounding_cylinder_mask()
|
|
// Synopsis: Creates a shape to round the end of a cylinder.
|
|
// SynTags: Geom
|
|
// Topics: Masking, Rounding, Cylinders
|
|
// See Also: rounding_hole_mask(), rounding_corner_mask(), default_tag(), diff()
|
|
// Usage:
|
|
// rounding_cylinder_mask(r|d=, rounding);
|
|
// Description:
|
|
// Create a mask that can be used to round the end of a cylinder.
|
|
// Difference it from the cylinder to be rounded. The center of the
|
|
// mask object should align exactly with the center of the end of the
|
|
// cylinder to be rounded.
|
|
// Arguments:
|
|
// r = Radius of cylinder.
|
|
// rounding = Radius of the edge rounding.
|
|
// ---
|
|
// d = Diameter of cylinder.
|
|
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
|
|
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
|
|
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
|
|
// Side Effects:
|
|
// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
|
|
// Example:
|
|
// difference() {
|
|
// cylinder(r=50, h=50, center=false);
|
|
// up(50) #rounding_cylinder_mask(r=50, rounding=10);
|
|
// }
|
|
// Example:
|
|
// difference() {
|
|
// cylinder(r=50, h=50, center=false);
|
|
// up(50) rounding_cylinder_mask(r=50, rounding=10);
|
|
// }
|
|
// Example: Masking by Attachment
|
|
// diff()
|
|
// cyl(h=30, d=30) {
|
|
// attach(TOP)
|
|
// #tag("remove")
|
|
// rounding_cylinder_mask(d=30, rounding=5);
|
|
// }
|
|
function rounding_cylinder_mask(r, rounding, d, anchor, spin, orient) = no_function("rounding_cylinder_mask");
|
|
module rounding_cylinder_mask(r, rounding, d, anchor=CENTER, spin=0, orient=UP)
|
|
{
|
|
r = get_radius(r=r, d=d, dflt=1);
|
|
default_tag("remove") {
|
|
attachable(anchor,spin,orient, r=r+rounding, l=rounding*2) {
|
|
difference() {
|
|
cyl(r=r+rounding, l=rounding*2, anchor=CENTER);
|
|
cyl(r=r, l=rounding*3, rounding=rounding, anchor=TOP);
|
|
}
|
|
children();
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
// Module: rounding_hole_mask()
|
|
// Synopsis: Creates a shape to round the edge of a round hole.
|
|
// SynTags: Geom
|
|
// Topics: Masking, Rounding
|
|
// See Also: rounding_cylinder_mask(), rounding_hole_mask(), rounding_corner_mask(), default_tag(), diff()
|
|
// Usage:
|
|
// rounding_hole_mask(r|d, rounding, [excess]) [ATTACHMENTS];
|
|
// Description:
|
|
// Create a mask that can be used to round the edge of a circular hole.
|
|
// Difference it from the hole to be rounded. The center of the
|
|
// mask object should align exactly with the center of the end of the
|
|
// hole to be rounded.
|
|
// Arguments:
|
|
// r = Radius of hole.
|
|
// rounding = Radius of the rounding.
|
|
// excess = The extra thickness of the mask. Default: `0.1`.
|
|
// ---
|
|
// d = Diameter of hole to rounding.
|
|
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
|
|
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
|
|
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
|
|
// Side Effects:
|
|
// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
|
|
// Example:
|
|
// rounding_hole_mask(r=40, rounding=20, $fa=2, $fs=2);
|
|
// Example(Med):
|
|
// difference() {
|
|
// cube([150,150,100], center=true);
|
|
// cylinder(r=50, h=100.1, center=true);
|
|
// up(50) #rounding_hole_mask(r=50, rounding=10);
|
|
// }
|
|
// Example(Med):
|
|
// difference() {
|
|
// cube([150,150,100], center=true);
|
|
// cylinder(r=50, h=100.1, center=true);
|
|
// up(50) rounding_hole_mask(r=50, rounding=10);
|
|
// }
|
|
function rounding_hole_mask(r, rounding, excess=0.1, d, anchor=CENTER, spin=0, orient=UP) = no_function("rounding_hole_mask");
|
|
module rounding_hole_mask(r, rounding, excess=0.1, d, anchor=CENTER, spin=0, orient=UP)
|
|
{
|
|
r = get_radius(r=r, d=d, dflt=1);
|
|
default_tag("remove") {
|
|
attachable(anchor,spin,orient, r=r+rounding, l=2*rounding) {
|
|
rotate_extrude(convexity=4) {
|
|
difference() {
|
|
right(r-excess) fwd(rounding) square(rounding+excess, center=false);
|
|
right(r+rounding) fwd(rounding) circle(r=rounding);
|
|
}
|
|
}
|
|
children();
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
// Section: Teardrop Masking
|
|
|
|
// Module: teardrop_edge_mask()
|
|
// Synopsis: Creates a shape to round a 90° edge but limit the angle of overhang.
|
|
// SynTags: Geom
|
|
// Topics: Masking, Rounding, Shapes (3D), FDM Optimized
|
|
// See Also: teardrop_corner_mask(), teardrop_edge_mask(), default_tag(), diff()
|
|
// Usage:
|
|
// teardrop_edge_mask(l|h=|length=|height=, r|d=, [angle], [excess], [anchor], [spin], [orient]) [ATTACHMENTS];
|
|
// Description:
|
|
// Makes an apropriate 3D edge rounding mask that keeps within `angle` degrees of vertical.
|
|
// Arguments:
|
|
// l/h/length/height = length of mask
|
|
// r = Radius of the mask rounding.
|
|
// angle = Maximum angle from vertical. Default: 45
|
|
// excess = Excess mask size. Default: 0.1
|
|
// ---
|
|
// d = Diameter of the mask rounding.
|
|
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
|
|
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
|
|
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
|
|
// Side Effects:
|
|
// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
|
|
// Example(VPD=50,VPR=[55,0,120]):
|
|
// teardrop_edge_mask(l=20, r=10, angle=40);
|
|
// Example(VPD=300,VPR=[75,0,25]):
|
|
// diff()
|
|
// cuboid([50,60,70],rounding=10,edges="Z",anchor=CENTER) {
|
|
// edge_mask(BOT)
|
|
// teardrop_edge_mask(l=max($parent_size)+1, r=10, angle=40);
|
|
// corner_mask(BOT)
|
|
// teardrop_corner_mask(r=10, angle=40);
|
|
// }
|
|
function teardrop_edge_mask(l, r, angle=45, excess=0.1, d, anchor, spin, orient,h,height,length) = no_function("teardrop_edge_mask");
|
|
module teardrop_edge_mask(l, r, angle=45, excess=0.1, d, anchor=CTR, spin=0, orient=UP,h,height,length)
|
|
{
|
|
l = one_defined([l, h, height, length], "l,h,height,length");
|
|
check =
|
|
assert(is_num(l) && l>0, "Length of mask must be positive")
|
|
assert(is_num(angle) && angle>0 && angle<90, "Angle must be a number between 0 and 90")
|
|
assert(is_num(excess));
|
|
r = get_radius(r=r, d=d, dflt=1);
|
|
path = mask2d_teardrop(r=r, angle=angle, excess=excess);
|
|
default_tag("remove") {
|
|
linear_sweep(path, height=l, center=true, atype="bbox", anchor=anchor, spin=spin, orient=orient) children();
|
|
}
|
|
}
|
|
|
|
|
|
// Module: teardrop_corner_mask()
|
|
// Synopsis: Creates a shape to round a 90° corner but limit the angle of overhang.
|
|
// SynTags: Geom
|
|
// Topics: Masking, Rounding, Shapes (3D), FDM Optimized
|
|
// See Also: teardrop_corner_mask(), teardrop_edge_mask(), default_tag(), diff()
|
|
// Usage:
|
|
// teardrop_corner_mask(r|d=, [angle], [excess], [anchor], [spin], [orient]) [ATTACHMENTS];
|
|
// Description:
|
|
// Makes an apropriate 3D corner rounding mask that keeps within `angle` degrees of vertical.
|
|
// Arguments:
|
|
// r = Radius of the mask rounding.
|
|
// angle = Maximum angle from vertical. Default: 45
|
|
// excess = Excess mask size. Default: 0.1
|
|
// ---
|
|
// d = Diameter of the mask rounding.
|
|
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
|
|
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
|
|
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
|
|
// Side Effects:
|
|
// Tags the children with "remove" (and hence sets `$tag`) if no tag is already set.
|
|
// Example:
|
|
// teardrop_corner_mask(r=20, angle=40);
|
|
// Example:
|
|
// diff()
|
|
// cuboid([50,60,70],rounding=10,edges="Z",anchor=CENTER) {
|
|
// edge_profile(BOT)
|
|
// mask2d_teardrop(r=10, angle=40);
|
|
// corner_mask(BOT)
|
|
// teardrop_corner_mask(r=10, angle=40);
|
|
// }
|
|
function teardrop_corner_mask(r, angle=45, excess=0.1, d, anchor, spin, orient) = no_function("teardrop_corner_mask");
|
|
module teardrop_corner_mask(r, angle=45, excess=0.1, d, anchor=CTR, spin=0, orient=UP)
|
|
{
|
|
assert(is_num(angle));
|
|
assert(is_num(excess));
|
|
assert(angle>0 && angle<90);
|
|
r = get_radius(r=r, d=d, dflt=1);
|
|
size = (r+excess) * [1,1,1];
|
|
midpt = (r-excess)/2 * [1,1,1];
|
|
default_tag("remove") {
|
|
attachable(anchor,spin,orient, size=size, offset=midpt) {
|
|
difference() {
|
|
translate(-[1,1,1]*excess) cube(r+excess, center=false);
|
|
translate([1,1,1]*r) onion(r=r, ang=angle, orient=DOWN);
|
|
}
|
|
children();
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
|