pathbuilder
Pathbuilder tool to easily create complex 2D shapes for use in openSCAD. (by dinther)
dotSCAD
Reduce the burden of mathematics when playing OpenSCAD (by JustinSDK)
pathbuilder | dotSCAD | |
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3 | 30 | |
38 | 746 | |
- | - | |
7.8 | 0.0 | |
3 months ago | over 1 year ago | |
OpenSCAD | OpenSCAD | |
MIT License | GNU Lesser General Public License v3.0 only |
The number of mentions indicates the total number of mentions that we've tracked plus the number of user suggested alternatives.
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
pathbuilder
Posts with mentions or reviews of pathbuilder.
We have used some of these posts to build our list of alternatives
and similar projects. The last one was on 2023-02-09.
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repeated SVG import
https://github.com/dinther/pathbuilder this seems to accept svg data (open it up in something like notepad++)
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pathBuilder V1.0 Beta released
pathBuilder for openSCAD implements an enhanced set of SVG path commands to create complex shapes easier. It has been around for a while but recently I have spent a lot of time on it. Fixing bugs and adding functionality. I thought it might be useful for some of you.
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pathbuilder
I just uploaded a 2D pathbuilder for openSCAD to github. It allows you to define 2D shapes using a syntax similar to the SVG path. It also does fillets and chamfers.
dotSCAD
Posts with mentions or reviews of dotSCAD.
We have used some of these posts to build our list of alternatives
and similar projects. The last one was on 2023-04-13.
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MK4 Printable Parts are now available
If you're looking for examples of high quality openscad code, dotSCAD is pretty cool. nophead (old school reprap person and one of the openscad developers) has a parts library that I think is high quality.
- Making objects thinner while extruding
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RIP Lin Xinliang (Liang Gege) 1975~2022
Justin Lin passed away due to illness in 2022 at the age of 48.[0]
On December 22, 2022 OpenSCAD posted:
> Today's advent calendar door is a sad one. We'd like to commemorate Justin Lin, who passed away a while ago. In the OpenSCAD community he is best known for his #dotSCAD library. His designs always brought joy and amazement. Thank you, we will miss you.[1,2]
On October 11, 2022 dotSCAD v3.3 released — it was the last commit by JustinSDK on GitHub.[3]
[0] https://www.ithome.com.tw/caterpillar
[1] https://twitter.com/openscad/status/1605758512746881025
[2] https://fosstodon.org/@OpenSCAD/109555037335637650
[3] https://github.com/JustinSDK/dotSCAD/releases/tag/v3.3
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Does anyone know how I could join all the spheres together to create a single curve? I am trying to use the hull() function.
https://github.com/JustinSDK/dotSCAD - as far as I can tell this is widely used
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"edge2()" module implements "great circle arc" for graph edges on sphere
I synced your repo: https://github.com/JustinSDK/dotSCAD
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"tria(_p1, _p2, _p3)" module implements "spherical triangle" on sphere, allows for sperical polygon as well
// require https://github.com/JustinSDK/dotSCAD use use use n = 5; radius = 10; thickness = 1; geom = geom_icosahedron(radius); points = geom[0]; faces = geom[1]; for(f = faces) { triangle = [for(i = f) points[i]]; // subdivide the triangle triangles = tri_subdivide(triangle, n); points1 = [ for(t = triangles, p = t) let(unit_vector = p / norm(p)) unit_vector * radius ]; points2 = [ for(t = triangles, p = t) let(unit_vector = p / norm(p)) unit_vector * (radius - thickness) ]; ff = [for(i = [0:3:len(points1) - 3]) [i, i + 1, i + 2]]; color(rands(0, 1, 3)) sf_solidifyT(points1, points2, ff); }
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Treble clef dragon
If you are into OpenSCAD, grab this chap's work - https://github.com/JustinSDK/dotSCAD/tree/master/src and use his modules, they are rather good.
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Preferred way for rounding corners?
// use // a shape function from https://github.com/JustinSDK/dotSCAD // sq_outer = shape_square(size = 50, corner_r = 5); sq_outer = [[20, -25], [21.9471, -24.6053], [23.5868, -23.4835], [24.6602, -21.8118], [25, -20], [25, 20], [24.6053, 21.9471], [23.4835, 23.5868], [21.8118, 24.6602], [20, 25], [-20, 25], [-21.8118, 24.6602], [-23.4835, 23.5868], [-24.6053, 21.9471], [-25, 20], [-25, -20], [-24.6602, -21.8118], [-23.5868, -23.4835], [-21.9471, -24.6053], [-20, -25]]; // sq_inner = shape_square(size = 30, corner_r = 3); sq_inner = [[12, -15], [13.8551, -14.3577], [14.9158, -12.7057], [15, -12], [15, 12], [14.3577, 13.8551], [12.7057, 14.9158], [12, 15], [-12, 15], [-12.7057, 14.9158], [-14.3577, 13.8551], [-15, 12], [-15, -12], [-14.9158, -12.7057], [-13.8551, -14.3577], [-12, -15]]; polygon( points = concat(sq_outer, sq_inner), paths = [ [each [0:len(sq_outer) - 1]], [each [len(sq_outer):len(sq_outer)+ len(sq_inner) - 1]] ] );
- Creating a library for OpenSCAD
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Creating (and simplifying mesh for) a blade/wing from airfoil sections?
path_extrude from https://github.com/JustinSDK/dotSCAD library. This kinda works.