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Updated README file with better examples.

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@ -4,61 +4,76 @@ The Belfry OpenScad Library - A library of tools, shapes, and helpers to make Op
This library is a set of useful tools, shapes and manipulators that I developed while working on various
projects, including large ones like the Snappy-Reprap printed 3D printer.
# Overview
## Terminology
For purposes of the BOSL 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+
## Examples
A lot of the features of this library are to allow shorter, easier-to-read, intent-based coding. For example:
`BOSL/transforms.scad` Examples | Raw OpenSCAD Equivalent
------------------------------------ | -------------------------------
`up(5) ...` | `translate([0,0,5]) ...`
`yrot(45) ...` | `rotate([0,45,0]) ...`
`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]) ...`
`zflip_copy() shape();` | `shape(); mirror([0,0,1]) shape();`
`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]]) ...`
`top_half(100) shape();` | `difference() {shape(); translate([0,0,-50]) cube(100, center=true);}`
`BOSL/shapes.scad` Examples | Raw OpenSCAD Equivalent
------------------------------------ | -------------------------------
`upcube([10,20,30]);` | `translate([0,0,15]) cube([10,20,30], center=true);`
`rcube([20,20,30], r=5, $fn=32);` | `minkowski() {cube([10,10,20], center=true); sphere(r=5, $fn=32);}`
`chamfcube([20,20,30], chamfer=5);` | `hull() {cube([10,10,30], center=true); cube([10,20,20], center=true); cube([20,10,20], center=true); cube([15,15,25], center=true);}`
`trapezoid([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);`
`rcylinder(h=100, d=40, fillet=5);` | `translate([0,0,50]) minkowski() {cylinder(h=90, d=30, center=true); sphere(r=5);}`
`torus(r=30, r2=5);` | `rotate_extrude(convexity=4) translate([30,0,0]) circle(r=5);`
`BOSL/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:
- `transforms.scad`: The most commonly used transformations, manipulations, and shortcuts are in this file.
- `shapes.scad`: Common useful shapes and structured objects.
- `masks.scad`: Shapes that are useful for masking with `difference()` and `intersect()`.
- `math.scad`: Useful helper functions and constants.
- `paths.scad`: Functions and modules to work with arbitrary 3D paths.
- `bezier.scad`: Functions and modules to work with bezier curves.
- `involute_gears.scad`: Modules and functions to make involute gears and racks.
- `metric_screws.scad`: Functions and modules to make holes for metric screws and nuts.
- `joiners.scad`: Modules to make joiner shapes for connecting separately printed objects.
- `sliders.scad`: Modules for creating simple sliders and rails.
- `acme_screws.scad`: Modules to make trapezoidal (ACME) threaded rods and nuts.
- `nema_steppers.scad`: Modules to make mounting holes for NEMA motors.
- `linear_bearings.scad`: Modules to make mounts for LMxUU style linear bearings.
- `wiring.scad`: Modules to render routed bundles of wires.
- `quaternions.scad`: Functions to work with quaternion rotations.
## transforms.scad
The most commonly useful of the library files is `transforms.scad`. It provides features such as:
- `up()`, `down()`, `left()`, `right()`, `fwd()`, `back()` as more readable alternatives to `translate()`.
- `xrot()`, `yrot()`, `zrot()` as single-axis alternatives to `rotate`.
- `xspread()`, `yspread()`, and `zspread()` to evenly space copies of an item along an axis.
- `xring()`, `yring()`, `zring()` to evenly space copies of an item around a circle.
- `skewxy()` that let you skew objects without using a `multmatrix()`.
- Easy mirroring with `xflip()`, `xflip_copy()`, etc.
- Slice items in half with `top_half()`, `left_half()`, `back_half()`, etc.
### Commonly Used
- [`transforms.scad`](wiki/transforms.scad): The most commonly used transformations, manipulations, and shortcuts are in this file.
- [`shapes.scad`](wiki/shapes.scad): Common useful shapes and structured objects.
- [`masks.scad`](wiki/masks.scad): Shapes that are useful for masking with `difference()` and `intersect()`.
- [`threading.scad`](wiki/threading.scad): Modules to make triangular and trapezoidal threaded rods and nuts.
- [`paths.scad`](wiki/paths.scad): Functions and modules to work with arbitrary 3D paths.
- [`beziers.scad`](wiki/beziers.scad): Functions and modules to work with bezier curves.
## shapes.scad
The `shapes.scad` library file provides useful compound shapes, such as:
- `upcube()` a ridiculously useful version of `cube()` that is centered on top of the XY plane.
- Filleted (rounded) and Chamferred (bevelled) cubes and cylinders.
- `pyramid()` and `prism()`
- The incredibly useful `trapezoid()` for non-parallelogram cubes.
- `right_triangle()` for the obvious shape.
- `teardrop()` and `onion()` for making more 3D printable holes.
- `tube()` and `torus()` for donut shapes.
- `slot()` and `arced_slot()` for making things like screw slots.
- `thinning_wall()` makes a vertical wall which thins in the middle, to reduce print volume.
- `thinning_triangle()` makes a right triangle which thins in the middle, to reduce print volume.
- `sparse_strut()` makes a cross-braced open strut wall, optimized for support-less 3D printing.
- `corrugated_wall()` makes a corrugated wall to reduce print volume while keeping strength.
### Standard Parts
- [`involute_gears.scad`](wiki/involute_gears.scad): Modules and functions to make involute gears and racks.
- [`joiners.scad`](wiki/joiners.scad): Modules to make joiner shapes for connecting separately printed objects.
- [`sliders.scad`](wiki/sliders.scad): Modules for creating simple sliders and rails.
- [`metric_screws.scad`](wiki/metric_screws.scad): Functions and modules to make metric screws, nuts, and screwholes.
- [`linear_bearings.scad`](wiki/linear_bearings.scad): Modules to make mounts for LMxUU style linear bearings.
- [`nema_steppers.scad`](wiki/nema_steppers.scad): Modules to make mounting holes for NEMA motors.
- [`phillips_drive.scad`](wiki/phillips_drive.scad): Modules to create Phillips screwdriver tips.
- [`torx_drive.scad`](wiki/torx_drive.scad): Functions and Modules to create Torx bit drive holes.
- [`wiring.scad`](wiki/wiring.scad): Modules to render routed bundles of wires.
## masks.scad
The `masks.scad` library file provides mask shapes like:
- `angle_pie_mask()` to mask a pie-slice shape.
- `chamfer_mask_x()`, `chamfer_mask_y()`, and `chamfer_mask_z()` to chamfer (bevel) an axis aligned 90 degree edge.
- `fillet_mask_x()`, `fillet_mask_y()`, and `fillet_mask_z()` to fillet (round) an axis aligned 90 degree edge.
- `fillet_corner_mask()` to fillet a 90 degree corner.
- `fillet_angled_edge_mask()` to fillet an acute or obtuse vertical edge.
- `fillet_angled_corner_mask()` to fillet the corner of two acute or obtuse planes.
- `fillet_cylinder_mask()` to fillet the end of a cylinder.
- `fillet_hole_mask()` to fillet the edge of a cylindrical hole.
### Miscellaneous
- [`math.scad`](wiki/math.scad): Useful helper functions.
- [`constants.scad`](wiki/constants.scad): Useful constants for vectors, edges, etc.
- [`quaternions.scad`](wiki/quaternions.scad): Functions to work with quaternion rotations.
- [`debug.scad`](wiki/debug.scad): Modules to help debug creation of beziers, `polygons()`s and `polyhedron()`s
## Documentation
The full library docs can be found at https://github.com/revarbat/BOSL/wiki