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The Belfry OpenScad Library, v2.0. An OpenSCAD library of shapes, masks, and manipulators to make working with OpenSCAD easier. BETA
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orig sphere matching to builtin. |
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.github | ||
changes | ||
examples | ||
githooks | ||
scripts | ||
tests | ||
tutorials | ||
.gitignore | ||
.nodocsfiles | ||
affine.scad | ||
arrays.scad | ||
attachments.scad | ||
beziers.scad | ||
bosl1compat.scad | ||
bottlecaps.scad | ||
common.scad | ||
constants.scad | ||
CONTRIBUTING.md | ||
coords.scad | ||
cubetruss.scad | ||
debug.scad | ||
distributors.scad | ||
edges.scad | ||
geometry.scad | ||
hingesnaps.scad | ||
hull.scad | ||
involute_gears.scad | ||
joiners.scad | ||
knurling.scad | ||
LICENSE | ||
linear_bearings.scad | ||
masks.scad | ||
math.scad | ||
metric_screws.scad | ||
mutators.scad | ||
nema_steppers.scad | ||
partitions.scad | ||
paths.scad | ||
phillips_drive.scad | ||
polyhedra.scad | ||
primitives.scad | ||
quaternions.scad | ||
queues.scad | ||
README.md | ||
regions.scad | ||
rounding.scad | ||
screws.scad | ||
shapes.scad | ||
shapes2d.scad | ||
skin.scad | ||
sliders.scad | ||
stacks.scad | ||
std.scad | ||
strings.scad | ||
structs.scad | ||
threading.scad | ||
torx_drive.scad | ||
transforms.scad | ||
triangulation.scad | ||
turtle3d.scad | ||
vectors.scad | ||
version.scad | ||
vnf.scad | ||
walls.scad | ||
wiring.scad | ||
WRITING_DOCS.md |
BOSL2
The Belfry OpenScad Library, v2
A library for OpenSCAD, filled with useful tools, shapes, masks, math and manipulators, designed to make OpenSCAD easier to use.
- NOTE: BOSL2 IS PRE-ALPHA CODE. THE CODE IS STILL BEING REORGANIZED.
- NOTE2: CODE WRITTEN FOR BOSLv1 PROBABLY WON'T WORK WITH BOSL2!
Installation
- Download the .zip or .tar.gz release file for this library.
- Unpack it. Make sure that you unpack the whole file structure. Some zipfile unpackers call this option "Use folder names". It should create either a
BOSL-v2.0
orBOSL2-master
directory with the library files within it. You should see "examples", "scripts", "tests", and other subdirectories. - Rename the unpacked main directory to
BOSL2
. - Move the
BOSL2
directory into the apropriate OpenSCAD library directory for your platform:- Windows:
My Documents\OpenSCAD\libraries\
- Linux:
$HOME/.local/share/OpenSCAD/libraries/
- Mac OS X:
$HOME/Documents/OpenSCAD/libraries/
- Windows:
- Restart OpenSCAD.
Terminology
For purposes of the BOSL2 library, the following terms apply:
- Left: Towards X-
- Right: Towards X+
- Front/Forward: Towards Y-
- Back/Behind: Towards Y+
- Bottom/Down/Below: Towards Z-
- Top/Up/Above: Towards Z+
Common Arguments:
Args | What it is |
---|---|
rounding | Radius of rounding for interior or exterior edges. |
chamfer | Size of chamfers/bevels for interior or exterior edges. |
orient | Axis a part should be oriented along. Given as an XYZ triplet of rotation angles. It is recommended that you use the ORIENT_ constants from constants.scad . Default is usually ORIENT_Z for vertical orientation. |
anchor | Side of the object that should be anchored to the origin. Given as a vector towards the side of the part to align with the origin. It is recommended that you use the directional constants from constants.scad . Default is usually CENTER for centered. |
Examples
A lot of the features of this library are to allow shorter, easier-to-read, intent-based coding. For example:
BOSL2/transforms.scad Examples |
Raw OpenSCAD Equivalent |
---|---|
up(5) |
translate([0,0,5]) |
xrot(30,cp=[0,10,20]) |
translate([0,10,20]) rotate([30,0,0]) translate([0,-10,-20]) |
xspread(20,n=3) |
for (dx=[-20,0,20]) translate([dx,0,0]) |
zring(n=6,r=20) |
for (zr=[0:5]) rotate([0,0,zr*60]) translate([20,0,0]) |
skew_xy(xa=30,ya=45) |
multmatrix([[1,0,tan(30),0],[0,1,tan(45),0],[0,0,1,0],[0,0,0,1]]) |
BOSL2/shapes.scad Examples |
Raw OpenSCAD Equivalent |
---|---|
cube([10,20,30], anchor=BOTTOM); |
translate([0,0,15]) cube([10,20,30], center=true); |
cuboid([20,20,30], fillet=5, edges=EDGES_Z_ALL); |
minkowski() {cube([10,10,20], center=true); sphere(r=5, $fn=32);} |
prismoid([30,40],[20,30],h=10); |
hull() {translate([0,0,0.005]) cube([30,40,0.01], center=true); translate([0,0,9.995]) cube([20,30,0.01],center=true);} |
xcyl(l=20,d=4); |
rotate([0,90,0]) cylinder(h=20, d=4, center=true); |
cyl(l=100, d=40, fillet=5); |
translate([0,0,50]) minkowski() {cylinder(h=90, d=30, center=true); sphere(r=5);} |
BOSL2/masks.scad Examples |
Raw Openscad Equivalent |
---|---|
chamfer_mask_z(l=20,chamfer=5); |
rotate(45) cube([5*sqrt(2), 5*sqrt(2), 20], center=true); |
fillet_mask_z(l=20,fillet=5); |
difference() {cube([10,10,20], center=true); for(dx=[-5,5],dy=[-5,5]) translate([dx,dy,0]) cylinder(h=20.1, r=5, center=true);} |
fillet_hole_mask(r=30,fillet=5); |
difference() {cube([70,70,10], center=true); translate([0,0,-5]) rotate_extrude(convexity=4) translate([30,0,0]) circle(r=5);} |
The Library Files
The library files are as follows:
Basics (Imported via std.scad)
transforms.scad
: Commonly used transformations shortcuts.distributors.scad
: Modules and Functions to distribute items.mutators.scad
: Modules and Functions to mutate items.attachments.scad
: Modules and functions to enable attachments.primitives.scad
: Attachment aware replacements for built-in shapes.shapes.scad
: Common useful 3D shapes and structured objects.shapes2d.scad
: Common useful 2D shapes and drawing helpers.masks.scad
: Shapes that are useful for masking withdifference()
andintersect()
.
Math (Imported via std.scad)
math.scad
: Useful math helper functions.vectors.scad
: Functions for vector math.arrays.scad
: Functions to manipulate lists and arrays.quaternions.scad
: Functions to work with quaternion rotations.affine.scad
: Functions for affine transformation matrix math.coords.scad
: Functions for coordinate system conversions and transformations.
Geometry (Imported via std.scad)
geometry.scad
: Functions to find line intersections, circles from 3 points, etc.edges.scad
: Constants and functions to specify edges and corners.vnf.scad
: Vertices 'n' Faces structure to make creatingpolyhedron()
s easier.paths.scad
: Functions and modules to work with arbitrary 3D paths.regions.scad
: Perform offsets and boolean geometry on 2D paths and regions.
Common (Imported via std.scad)
common.scad
: Useful helpers for argument processing.constants.scad
: Useful constants for vectors, edges, etc.errors.scad
: Routines to help print out warnings and errors.version.scad
: Ways to parse and compare semantic versions.
Processes
beziers.scad
: Functions and modules to work with bezier curves.threading.scad
: Modules to make triangular and trapezoidal threaded rods and nuts.rounding.scad
: Functions to help rounding corners in a path.knurling.scad
: Masks and shapes to help with knurling.partitions.scad
: Modules to help partition large objects into smaller assembled parts.rounding.scad
: Functions and modules to create rounded paths and boxes.skin.scad
: Functions to skin surfaces between 2D cross-section paths.hull.scad
: Functions to create 2D and 3D convex hulls.triangulation.scad
: Functions to triangulatepolyhedron()
faces.debug.scad
: Modules to help debugpolygons()
s andpolyhedron()
s
Data Structures
strings.scad
: String manipulation functions.stacks.scad
: Functions to manipulate stack data structures.queues.scad
: Functions to manipulate queue data structures.structs.scad
: Structure/Dictionary creation and manipulation functions.
Miscellaneous Parts
polyhedra.scad
: Modules to create various regular and stellated polyhedra.walls.scad
: Modules to create walls and structural elements for 3D printing.cubetruss.scad
: Modules to create modular open-framed trusses and joiners.involute_gears.scad
: Modules and functions to make involute gears and racks.joiners.scad
: Modules to make joiner shapes for connecting separately printed objects.sliders.scad
: Modules for creating simple sliders and rails.metric_screws.scad
: Functions and modules to make metric screws, nuts, and screwholes.linear_bearings.scad
: Modules to make mounts for LMxUU style linear bearings.nema_steppers.scad
: Modules to make mounting holes for NEMA motors.phillips_drive.scad
: Modules to create Phillips screwdriver tips.torx_drive.scad
: Functions and Modules to create Torx bit drive holes.wiring.scad
: Modules to render routed bundles of wires.hingesnaps.scad
: Modules to make foldable, snap-locking parts.bottlecaps.scad
: Modules to make standard beverage bottle caps and necks.
Documentation
The full library docs can be found at https://github.com/revarbat/BOSL2/wiki