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MIT License
Copyright (c) 2023 Kenneth Hodson
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
This repository is based on Gridfinity:
MIT License
Copyright (c) 2023 Zachary Freedman and Voidstar Lab LLC
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
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The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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# Gridfinity Rebuilt in OpenSCAD
[![CC BY-NC-SA 4.0][cc-by-nc-sa-shield]][cc-by-nc-sa]
A ground-up port (with a few extra features) of the stock [gridfinity](https://www.youtube.com/watch?v=ra_9zU-mnl8) bins in OpenSCAD. Open to feedback, because I could not feasibly test all combinations of bins. I tried my best to exactly match the original gridfinity dimensions, but some of the geometry is slightly incorrect (mainly fillets). However, I think they are negligible differences, and will not appear in the printed model.
Full documentation can be found at the project's [website](https://kennetek.github.io/gridfinity-rebuilt-openscad/).
The project can also be found on [Printables](https://www.printables.com/model/274917-gridfinity-rebuilt-in-openscad) if you want to support the project.
[<img src="./images/base_dimension.gif" width="320">]()
[<img src="./images/compartment_dimension.gif" width="320">]()
[<img src="./images/height_dimension.gif" width="320">]()
[<img src="./images/tab_dimension.gif" width="320">]()
[<img src="./images/holes_dimension.gif" width="320">]()
[<img src="./images/custom_dimension.gif" width="320">]()
## Features
- any size of bin (width/length/height)
- height by units, internal depth, or overall size
- any number of compartments (along both X and Y axis)
- togglable scoop
- togglable tabs, split tabs, and tab alignment
- togglable holes (with togglable supportless printing hole structures)
- manual compartment construction (make the most wacky bins imaginable)
- togglable lip (if you don't care for stackability)
- dividing bases (if you want a 1.5 unit long bin, for instance)
- removed material from bases to save filament
- vase mode bins
### Printable Holes
The printable holes allow your slicer to bridge the gap inside the countersunk magnet hole (using the technique shown [here](https://www.youtube.com/watch?v=W8FbHTcB05w)) so that supports are not needed.
[<img src="./images/slicer_holes.png" height="200">]()
[<img src="./images/slicer_holes_top.png" height="200">]()
## Recommendations
For best results, use a version of OpenSCAD with the fast-csg feature. As of writing, this feature is only implemented in the [development snapshots](https://openscad.org/downloads.html). To enable the feature, go to Edit > Preferences > Features > fast-csg. On my computer, this sped up rendering from 10 minutes down to a couple of seconds, even for comically large bins.
## Enjoy!
[<img src="./images/spin.gif" width="160">]()
[Gridfinity](https://www.youtube.com/watch?v=ra_9zU-mnl8) by [Zack Freedman](https://www.youtube.com/c/ZackFreedman/about)
This work is licensed under the same license as Gridfinity, being a
[Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License][cc-by-nc-sa].
[![CC BY-NC-SA 4.0][cc-by-nc-sa-image]][cc-by-nc-sa]
[cc-by-nc-sa]: http://creativecommons.org/licenses/by-nc-sa/4.0/
[cc-by-nc-sa-image]: https://licensebuttons.net/l/by-nc-sa/4.0/88x31.png
[cc-by-nc-sa-shield]: https://img.shields.io/badge/License-CC%20BY--NC--SA%204.0-lightgrey.svg

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<h1 id="gridfinity-rebuilt-baseplate">gridfinity-rebuilt-baseplate</h1>
<p>To round out the rebuilt catalog, we have baseplates. Originally, baseplates were not included as there was not anything really interesting to parameterize, unlike with bins. However, upon closer inspection, there is a couple things that would make peoples' lives easier. For instance, what is called here the "skeletonized" style, in that the baseplate is still thick to allow for magnets, but the center portion is removed. Additionally, being able to generate spacers for the sides of the bases, so that they fit perfectly inside your drawers.</p>
<p><img alt="Bin" src="../images/baseplate.gif" /></p>
<h2 id="script-parameters">Script Parameters</h2>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>number of bases along the x-axis<br> If set to zero, will fill with as many <br>bases that fit within <code>distancex</code></td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>number of bases along the y-axis<br> If set to zero, will fill with as many <br>bases that fit within <code>distancey</code></td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
<tr>
<td>distancex</td>
<td>{ n&gt;0 | n∈R }</td>
<td>minimum length of baseplate along x <br>alternatively, how large is the drawer along x <br>(leave zero to ignore)</td>
</tr>
<tr>
<td>distancey</td>
<td>{ n&gt;0 | n∈R }</td>
<td>minimum length of baseplate along y <br>alternatively, how large is the drawer along y <br>(leave zero to ignore)</td>
</tr>
<tr>
<td>fitx</td>
<td>{ -1&lt;=n&lt;=1 | n∈R }</td>
<td>alignment factor for extra space along x axis</td>
</tr>
<tr>
<td>fity</td>
<td>{ -1&lt;=n&lt;=1 | n∈R }</td>
<td>alignment factor for extra space along y axis</td>
</tr>
<tr>
<td>style_plate</td>
<td>{ 0, 1, 2 }</td>
<td>the style of baseplate <br> • (0) thin (minimum material, only outline) <br> • (1) weighted (thick with space for tire iron) <br> • (2) skeletonized (thick, center hollowed)</td>
</tr>
<tr>
<td>enable_magnet</td>
<td>boolean</td>
<td>toggle hole for magnet on top</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2 }</td>
<td>the style of holes underneath the baseplate, if applicable <br> • (0) none <br> • (1) countersink <br> • (2) counterbore</td>
</tr>
</tbody>
</table>
<h2 id="modules">Modules</h2>
<h3 id="gridfinitybaseplate">gridfinityBaseplate</h3>
<p>Generates a baseplate to use with gridfinity bins. </p>
<p><strong> <code>gridfinityBaseplate(gridx, gridy, length, distancex, distancey, style_plate, enable_magnet, style_hole)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>number of bases along the x-axis<br> If set to zero, will fill with as many <br>bases that fit within <code>distancex</code></td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>number of bases along the y-axis<br> If set to zero, will fill with as many <br>bases that fit within <code>distancey</code></td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
<tr>
<td>distancex</td>
<td>{ n&gt;0 | n∈R }</td>
<td>minimum length of baseplate along x <br>alternatively, how large is the drawer along x <br>(leave zero to ignore)</td>
</tr>
<tr>
<td>distancey</td>
<td>{ n&gt;0 | n∈R }</td>
<td>minimum length of baseplate along y <br>alternatively, how large is the drawer along y <br>(leave zero to ignore)</td>
</tr>
<tr>
<td>fitx</td>
<td>{ -1&lt;=n&lt;=1 | n∈R }</td>
<td>alignment factor for extra space along x axis</td>
</tr>
<tr>
<td>fity</td>
<td>{ -1&lt;=n&lt;=1 | n∈R }</td>
<td>alignment factor for extra space along y axis</td>
</tr>
<tr>
<td>style_plate</td>
<td>{ 0, 1, 2 }</td>
<td>the style of baseplate <br> • (0) thin (minimum material, only outline) <br> • (1) weighted (thick with space for tire iron) <br> • (2) skeletonized (thick, center hollowed)</td>
</tr>
<tr>
<td>enable_magnet</td>
<td>boolean</td>
<td>toggle hole for magnet on top</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2 }</td>
<td>the style of holes underneath the baseplate, if applicable <br> • (0) none <br> • (1) countersink <br> • (2) counterbore</td>
</tr>
</tbody>
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<h1 id="gridfinity-rebuilt-bins">gridfinity-rebuilt-bins</h1>
<p>Generates stock bins, with a great number of variations. </p>
<p><img alt="Bin" src="../images/custom_dimension.gif" /></p>
<h2 id="script-parameters">Script Parameters</h2>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the x-axis</td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the y-axis</td>
</tr>
<tr>
<td>gridz</td>
<td>{ n&gt;0 | n∈R }</td>
<td>bin height. See bin height information and "gridz_define" below.</td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
<tr>
<td>divx</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along X</td>
</tr>
<tr>
<td>divy</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along Y</td>
</tr>
<tr>
<td>scoop</td>
<td>n&gt;0 | n∈R</td>
<td>controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full.</td>
</tr>
<tr>
<td>enable_zsnap</td>
<td>boolean</td>
<td>automatically snap the bin size to the nearest 7mm increment. <br> default: true</td>
</tr>
<tr>
<td>style_lip</td>
<td>{0, 1, 2}</td>
<td>if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height</td>
</tr>
<tr>
<td>gridz_define</td>
<td>{ n&gt;0 | n∈R }</td>
<td>determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters</td>
</tr>
<tr>
<td>height_internal</td>
<td>{ n&gt;0 | n∈R }</td>
<td>height of the internal block. <br> Can be lower than bin height to save filament on custom bins. <br> default of 0 means use the calculated height.</td>
</tr>
<tr>
<td>style_tab</td>
<td>{ 0, 1, 2, 3, 4, 5 }</td>
<td>how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2, 3 }</td>
<td>the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit</td>
</tr>
<tr>
<td>div_base_x</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
<tr>
<td>div_base_y</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
</tbody>
</table>
<p><br></p>
<h2 id="modules">Modules</h2>
<hr />
<h3 id="gridfinityinit">gridfinityInit</h3>
<p>Initializes the top part of the bin (walls and solid section). All bins have to use this module, and have the compartments cut out from it. </p>
<p><strong> <code>gridfinityInit (gridx, gridy, height, height_internal, length)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the x-axis</td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the y-axis</td>
</tr>
<tr>
<td>height</td>
<td>{ n&gt;0 | n∈R }</td>
<td>height of the bin, in millimeters (but not exactly). <br> See the <code>height()</code> function for more info.</td>
</tr>
<tr>
<td>height_internal</td>
<td>{ n&gt;0 | n∈R }</td>
<td>height of the internal block. <br> Can be lower than bin height to save filament on custom bins. <br> default of 0 means use the calculated height.</td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
</tbody>
</table>
<pre><code>// Example: generate a 3x3x6 bin with a 42mm unit size
gridfinityInit(3, 3, height(6), 0, 42) {
cutEqual(n_divx = 3, n_divy = 3, style_tab = 0, scoop_weight = 1);
}
</code></pre>
<hr />
<h3 id="height">height</h3>
<p>Calculates the proper height for bins. </p>
<p><strong> <code>height (gridz, gridz_define, style_lip, enable_zsnap)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridz</td>
<td>{ n&gt;0 | n∈R }</td>
<td>bin height. See bin height information and "gridz_define" below.</td>
</tr>
<tr>
<td>gridz_define</td>
<td>{ n&gt;0 | n∈R }</td>
<td>determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters</td>
</tr>
<tr>
<td>style_lip</td>
<td>{0, 1, 2}</td>
<td>if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height</td>
</tr>
<tr>
<td>enable_zsnap</td>
<td>boolean</td>
<td>automatically snap the bin size to the nearest 7mm increment. <br> default: true</td>
</tr>
</tbody>
</table>
<pre><code>// Example: height for a 6 unit high bin
height(6);
// Example: height for a bin that can fit (at maximum) a 30mm high object inside
height(30, 1, 0, false);
</code></pre>
<hr />
<h3 id="gridfinitybase">gridfinityBase</h3>
<p>Generates the bases for bins. Has various different hole styles, and can be subdivided.</p>
<p><strong> <code>gridfinityBase (gridx, gridy, length, div_base_x, div_base_y, style_hole)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the x-axis</td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the y-axis</td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. default: 42</td>
</tr>
<tr>
<td>div_base_x</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. 0 means automatically guess the division)</td>
</tr>
<tr>
<td>div_base_y</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. 0 means automatically guess the division)</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2, 3 }</td>
<td>the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit</td>
</tr>
</tbody>
</table>
<pre><code>// Example: generate a 3x3 base with a 42mm unit size and clean magnet holes
gridfinityBase(3, 3, 42, 0, 0, 1);
</code></pre>
<hr />
<h3 id="cutequal">cutEqual</h3>
<p>Generates the "traditional" bin cutters. It is a utility function that creates evenly distributed compartments. </p>
<p><strong> <code>cutEqual (n_divx, n_divy, style_tab, scoop_weight)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>n_divx</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along X</td>
</tr>
<tr>
<td>n_divy</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along Y</td>
</tr>
<tr>
<td>style_tab</td>
<td>{ 0, 1, 2, 3, 4, 5 }</td>
<td>how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs</td>
</tr>
<tr>
<td>scoop</td>
<td>n&gt;0 | n∈R</td>
<td>controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full.</td>
</tr>
</tbody>
</table>
<pre><code>// Example: this generates 9 compartments in a 3x3 grid, and all compartments have a full tab and a scoop
gridfinityInit(3, 3, height(6), 0, 42) {
cutEqual(n_divx = 3, n_divy = 3, style_tab = 0, scoop_weight = 1);
}
</code></pre>
<hr />
<h3 id="cut">cut</h3>
<p>Cuts a single compartment into the bin at the provided location with the provided attributes. The coordinate system for compartments originates (0,0) at the bottom left corner of the bin, where 1 unit is the length of 1 base. Positive X and positive Y are in the same direction as the global coordinate system.</p>
<p><strong> <code>cut (x, y, w, h, t, s)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>x</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>X coordinate of the compartment <br>(position of left edge of compartment)</td>
</tr>
<tr>
<td>y</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>Y coordinate of the compartment <br>(position of bottom edge of compartment)</td>
</tr>
<tr>
<td>w</td>
<td>{ n&gt;0 | n∈R }</td>
<td>Width of the compartment, in base units <br>(1 unit = 1 <code>length</code>)</td>
</tr>
<tr>
<td>h</td>
<td>{ n&gt;0 | n∈R }</td>
<td>Height of the compartment, in base units <br>(1 unit = 1 <code>length</code>)</td>
</tr>
<tr>
<td>t</td>
<td>{ 0, 1, 2, 3, 4, 5 }</td>
<td>how the tabs for labels are generated for this compartment. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs</td>
</tr>
<tr>
<td>s</td>
<td>n&gt;0 | n∈R</td>
<td>controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full, only for this specific compartment</td>
</tr>
</tbody>
</table>
<pre><code>// Example:
// this cuts two compartments that are both 1 wide and 2 high.
// One is on the bottom left, and the other is at the top right.
gridfinityInit(3, 3, height(6), 0, 42) {
cut(0, 0, 1, 2, 0, 1);
cut(2, 1, 1, 2, 0, 1);
}
</code></pre>
<hr />
<h3 id="cut_move">cut_move</h3>
<p>Moves all of its children from the global origin to the center of the area that a compartment would normally fill, and uses them to cut from the bin. This allows you to easily make custom cutouts in the bin.</p>
<p><strong> <code>cut_move (x, y, w, h)</code> </strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>x</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>X coordinate of the area (position of left edge)</td>
</tr>
<tr>
<td>y</td>
<td>{ n&gt;=0 | n∈R }</td>
<td>Y coordinate of the area (position of bottom edge)</td>
</tr>
<tr>
<td>w</td>
<td>{ n&gt;0 | n∈R }</td>
<td>Width of the area, in base units (1 unit = 1 <code>length</code>)</td>
</tr>
<tr>
<td>h</td>
<td>{ n&gt;0 | n∈R }</td>
<td>Height of the area, in base units (1 unit = 1 <code>length</code>)</td>
</tr>
</tbody>
</table>
<pre><code>// Example:
// cuts a cylindrical hole of radius 5
// hole center is located 1/2 units from the right edge of the bin, and 1 unit from the top
gridfinityInit(3, 3, height(6), 0, 42) {
cut_move(x=2, y=1, w=1, h=2) {
cylinder(r=5, h=100, center=true);
}
}
</code></pre>
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<h1 id="gridfinity-rebuilt-constants">gridfinity-rebuilt-constants</h1>
<p>This file contains dimensions that are critical to the constructiuon of the other models, but are not values that often need to be changed. Thus, they were outsourced to this file such that the rest of the files would retain parity. All values here have the same range, this is positive real numbers. Some can be zero, but that may result in strange or invalid geometry, </p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>h_base</td>
<td>height of the base</td>
</tr>
<tr>
<td>r_base</td>
<td>outside rounded radius of bin</td>
</tr>
<tr>
<td>r_c1</td>
<td>lower base chamfer "radius"</td>
</tr>
<tr>
<td>r_c2</td>
<td>upper base chamfer "radius"</td>
</tr>
<tr>
<td>h_bot</td>
<td>bottom thiccness of bin</td>
</tr>
<tr>
<td>r_fo1</td>
<td>outside radii 1</td>
</tr>
<tr>
<td>r_fo2</td>
<td>outside radii 2</td>
</tr>
<tr>
<td>r_fo3</td>
<td>outside radii 3</td>
</tr>
<tr>
<td>r_hole1</td>
<td>screw hole radius</td>
</tr>
<tr>
<td>r_hole2</td>
<td>magnet hole radius</td>
</tr>
<tr>
<td>d_hole</td>
<td>center-to-center distance between holes</td>
</tr>
<tr>
<td>h_hole</td>
<td>magnet hole depth</td>
</tr>
<tr>
<td>h_slit</td>
<td>slit depth (printer layer height)</td>
</tr>
<tr>
<td>r_f1</td>
<td>top edge fillet radius</td>
</tr>
<tr>
<td>r_f2</td>
<td>internal fillet radius</td>
</tr>
<tr>
<td>d_div</td>
<td>width of divider between compartments</td>
</tr>
<tr>
<td>d_wall</td>
<td>minimum wall thickness</td>
</tr>
<tr>
<td>d_clear</td>
<td>tolerance fit factor</td>
</tr>
<tr>
<td>d_tabh</td>
<td>height of tab (yaxis, measured from inner wall)</td>
</tr>
<tr>
<td>d_tabw</td>
<td>maximum width of tab</td>
</tr>
<tr>
<td>a_tab</td>
<td>angle of tab</td>
</tr>
<tr>
<td>bp_h_bot</td>
<td>Baseplate bottom part height (part added with weigthed=true)</td>
</tr>
<tr>
<td>bp_cut_size</td>
<td>Baseplate bottom cutout rectangle size</td>
</tr>
<tr>
<td>bp_cut_depth</td>
<td>Baseplate bottom cutout rectangle depth</td>
</tr>
<tr>
<td>bp_rcut_width</td>
<td>Baseplate bottom cutout finger gap width</td>
</tr>
<tr>
<td>bp_rcut_length</td>
<td>Baseplate bottom cutout finger gap left</td>
</tr>
<tr>
<td>bp_rcut_depth</td>
<td>Baseplate bottom cutout finger gap depth</td>
</tr>
<tr>
<td>d_cs</td>
<td>countersink diameter for baseplate</td>
</tr>
<tr>
<td>r_skel</td>
<td>radius of cutout for skeletonized baseplate</td>
</tr>
<tr>
<td>r_cb</td>
<td>baseplate counterbore radius</td>
</tr>
<tr>
<td>h_cb</td>
<td>baseplate counterbore depth</td>
</tr>
<tr>
<td>h_skel</td>
<td>minimum baseplate thickness (when skeletonized)</td>
</tr>
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# gridfinity-rebuilt-baseplate
To round out the rebuilt catalog, we have baseplates. Originally, baseplates were not included as there was not anything really interesting to parameterize, unlike with bins. However, upon closer inspection, there is a couple things that would make peoples' lives easier. For instance, what is called here the "skeletonized" style, in that the baseplate is still thick to allow for magnets, but the center portion is removed. Additionally, being able to generate spacers for the sides of the bases, so that they fit perfectly inside your drawers.
![Bin](images/baseplate.gif)
## Script Parameters
Parameter | Range | Description
--- | ----- | ---
gridx | { n>=0 \| n∈R } | number of bases along the x-axis<br> If set to zero, will fill with as many <br>bases that fit within `distancex`
gridy | { n>=0 \| n∈R } | number of bases along the y-axis<br> If set to zero, will fill with as many <br>bases that fit within `distancey`
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
distancex | { n>0 \| n∈R } | minimum length of baseplate along x <br>alternatively, how large is the drawer along x <br>(leave zero to ignore)
distancey | { n>0 \| n∈R } | minimum length of baseplate along y <br>alternatively, how large is the drawer along y <br>(leave zero to ignore)
fitx | { -1<=n<=1 \| n∈R } | alignment factor for extra space along x axis
fity | { -1<=n<=1 \| n∈R } | alignment factor for extra space along y axis
style_plate | { 0, 1, 2 } | the style of baseplate <br> • (0) thin (minimum material, only outline) <br> • (1) weighted (thick with space for tire iron) <br> • (2) skeletonized (thick, center hollowed)
enable_magnet | boolean | toggle hole for magnet on top
style_hole | { 0, 1, 2 } | the style of holes underneath the baseplate, if applicable <br> • (0) none <br> • (1) countersink <br> • (2) counterbore
## Modules
### gridfinityBaseplate
Generates a baseplate to use with gridfinity bins.
** `gridfinityBaseplate(gridx, gridy, length, distancex, distancey, style_plate, enable_magnet, style_hole)` **
Parameter | Range | Description
--- | ----- | ---
gridx | { n>=0 \| n∈R } | number of bases along the x-axis<br> If set to zero, will fill with as many <br>bases that fit within `distancex`
gridy | { n>=0 \| n∈R } | number of bases along the y-axis<br> If set to zero, will fill with as many <br>bases that fit within `distancey`
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
distancex | { n>0 \| n∈R } | minimum length of baseplate along x <br>alternatively, how large is the drawer along x <br>(leave zero to ignore)
distancey | { n>0 \| n∈R } | minimum length of baseplate along y <br>alternatively, how large is the drawer along y <br>(leave zero to ignore)
fitx | { -1<=n<=1 \| n∈R } | alignment factor for extra space along x axis
fity | { -1<=n<=1 \| n∈R } | alignment factor for extra space along y axis
style_plate | { 0, 1, 2 } | the style of baseplate <br> • (0) thin (minimum material, only outline) <br> • (1) weighted (thick with space for tire iron) <br> • (2) skeletonized (thick, center hollowed)
enable_magnet | boolean | toggle hole for magnet on top
style_hole | { 0, 1, 2 } | the style of holes underneath the baseplate, if applicable <br> • (0) none <br> • (1) countersink <br> • (2) counterbore

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# gridfinity-rebuilt-bins
Generates stock bins, with a great number of variations.
![Bin](images/custom_dimension.gif)
## Script Parameters
Parameter | Range | Description
--- | ----- | ---
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
gridz | { n>0 \| n∈R } | bin height. See bin height information and "gridz_define" below.
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
divx | { n>0 \| n∈Z } | number of compartments along X
divy | { n>0 \| n∈Z } | number of compartments along Y
scoop | n>0 \| n∈R | controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full.
enable_zsnap | boolean | automatically snap the bin size to the nearest 7mm increment. <br> default: true
style_lip | {0, 1, 2} | if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height
gridz_define | { n>0 \| n∈R } | determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters
height_internal | { n>0 \| n∈R } | height of the internal block. <br> Can be lower than bin height to save filament on custom bins. <br> default of 0 means use the calculated height.
style_tab | { 0, 1, 2, 3, 4, 5 } | how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs
style_hole | { 0, 1, 2, 3 } | the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit
div_base_x | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
div_base_y | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
<br>
## Modules
---
### gridfinityInit
Initializes the top part of the bin (walls and solid section). All bins have to use this module, and have the compartments cut out from it.
** `gridfinityInit (gridx, gridy, height, height_internal, length)` **
Parameter | Range | Description
--- | ----- | ---
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
height | { n>0 \| n∈R } | height of the bin, in millimeters (but not exactly). <br> See the `height()` function for more info.
height_internal | { n>0 \| n∈R } | height of the internal block. <br> Can be lower than bin height to save filament on custom bins. <br> default of 0 means use the calculated height.
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
```
// Example: generate a 3x3x6 bin with a 42mm unit size
gridfinityInit(3, 3, height(6), 0, 42) {
cutEqual(n_divx = 3, n_divy = 3, style_tab = 0, scoop_weight = 1);
}
```
---
### height
Calculates the proper height for bins.
** `height (gridz, gridz_define, style_lip, enable_zsnap)` **
Parameter | Range | Description
--- | ----- | ---
gridz | { n>0 \| n∈R } | bin height. See bin height information and "gridz_define" below.
gridz_define | { n>0 \| n∈R } | determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters
style_lip | {0, 1, 2} | if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height
enable_zsnap | boolean | automatically snap the bin size to the nearest 7mm increment. <br> default: true
```
// Example: height for a 6 unit high bin
height(6);
// Example: height for a bin that can fit (at maximum) a 30mm high object inside
height(30, 1, 0, false);
```
---
### gridfinityBase
Generates the bases for bins. Has various different hole styles, and can be subdivided.
** `gridfinityBase (gridx, gridy, length, div_base_x, div_base_y, style_hole)` **
Parameter | Range | Description
--- | ----- | ---
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
length | { n>0 \| n∈R } | length of one unit of the base. default: 42
div_base_x | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. 0 means automatically guess the division)
div_base_y | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. 0 means automatically guess the division)
style_hole | { 0, 1, 2, 3 } | the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit
```
// Example: generate a 3x3 base with a 42mm unit size and clean magnet holes
gridfinityBase(3, 3, 42, 0, 0, 1);
```
---
### cutEqual
Generates the "traditional" bin cutters. It is a utility function that creates evenly distributed compartments.
** `cutEqual (n_divx, n_divy, style_tab, scoop_weight)` **
Parameter | Range | Description
--- | ----- | ---
n_divx | { n>0 \| n∈Z } | number of compartments along X
n_divy | { n>0 \| n∈Z } | number of compartments along Y
style_tab | { 0, 1, 2, 3, 4, 5 } | how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs
scoop | n>0 \| n∈R | controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full.
```
// Example: this generates 9 compartments in a 3x3 grid, and all compartments have a full tab and a scoop
gridfinityInit(3, 3, height(6), 0, 42) {
cutEqual(n_divx = 3, n_divy = 3, style_tab = 0, scoop_weight = 1);
}
```
---
### cut
Cuts a single compartment into the bin at the provided location with the provided attributes. The coordinate system for compartments originates (0,0) at the bottom left corner of the bin, where 1 unit is the length of 1 base. Positive X and positive Y are in the same direction as the global coordinate system.
** `cut (x, y, w, h, t, s)` **
Parameter | Range | Description
--- | ----- | ---
x | { n>=0 \| n∈R } | X coordinate of the compartment <br>(position of left edge of compartment)
y | { n>=0 \| n∈R } | Y coordinate of the compartment <br>(position of bottom edge of compartment)
w | { n>0 \| n∈R } | Width of the compartment, in base units <br>(1 unit = 1 `length`)
h | { n>0 \| n∈R } | Height of the compartment, in base units <br>(1 unit = 1 `length`)
t | { 0, 1, 2, 3, 4, 5 } | how the tabs for labels are generated for this compartment. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs
s | n>0 \| n∈R | controls the fillet on the bottom of the compartment for easy <br> item removal. 0 is disabled, 1 is full, any other real number will <br> scale from full, only for this specific compartment
```
// Example:
// this cuts two compartments that are both 1 wide and 2 high.
// One is on the bottom left, and the other is at the top right.
gridfinityInit(3, 3, height(6), 0, 42) {
cut(0, 0, 1, 2, 0, 1);
cut(2, 1, 1, 2, 0, 1);
}
```
---
### cut_move
Moves all of its children from the global origin to the center of the area that a compartment would normally fill, and uses them to cut from the bin. This allows you to easily make custom cutouts in the bin.
** `cut_move (x, y, w, h)` **
Parameter | Range | Description
--- | ----- | ---
x | { n>=0 \| n∈R } | X coordinate of the area (position of left edge)
y | { n>=0 \| n∈R } | Y coordinate of the area (position of bottom edge)
w | { n>0 \| n∈R } | Width of the area, in base units (1 unit = 1 `length`)
h | { n>0 \| n∈R } | Height of the area, in base units (1 unit = 1 `length`)
```
// Example:
// cuts a cylindrical hole of radius 5
// hole center is located 1/2 units from the right edge of the bin, and 1 unit from the top
gridfinityInit(3, 3, height(6), 0, 42) {
cut_move(x=2, y=1, w=1, h=2) {
cylinder(r=5, h=100, center=true);
}
}
```

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# gridfinity-rebuilt-constants
This file contains dimensions that are critical to the constructiuon of the other models, but are not values that often need to be changed. Thus, they were outsourced to this file such that the rest of the files would retain parity. All values here have the same range, this is positive real numbers. Some can be zero, but that may result in strange or invalid geometry,
Parameter | Description
--- | ------
h_base | height of the base
r_base| outside rounded radius of bin
r_c1 | lower base chamfer "radius"
r_c2 | upper base chamfer "radius"
h_bot| bottom thiccness of bin
r_fo1| outside radii 1
r_fo2| outside radii 2
r_fo3 | outside radii 3
r_hole1| screw hole radius
r_hole2| magnet hole radius
d_hole| center-to-center distance between holes
h_hole| magnet hole depth
h_slit| slit depth (printer layer height)
r_f1| top edge fillet radius
r_f2 | internal fillet radius
d_div | width of divider between compartments
d_wall| minimum wall thickness
d_clear| tolerance fit factor
d_tabh| height of tab (yaxis, measured from inner wall)
d_tabw| maximum width of tab
a_tab| angle of tab
bp_h_bot| Baseplate bottom part height (part added with weigthed=true)
bp_cut_size| Baseplate bottom cutout rectangle size
bp_cut_depth| Baseplate bottom cutout rectangle depth
bp_rcut_width| Baseplate bottom cutout finger gap width
bp_rcut_length| Baseplate bottom cutout finger gap left
bp_rcut_depth| Baseplate bottom cutout finger gap depth
d_cs | countersink diameter for baseplate
r_skel| radius of cutout for skeletonized baseplate
r_cb| baseplate counterbore radius
h_cb| baseplate counterbore depth
h_skel | minimum baseplate thickness (when skeletonized)

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## Introduction
Gridfinity rebuilt aims to remake the brilliant Gridfinity project from [Zack Freedman](https://www.youtube.com/c/ZackFreedman/about) in a more robust and open-source way than the original Fusion 360 files. Many major CAD suites struggle with making parametric models constructed from linear patterns, due to changing fillet edges and seams. Thus, a pure mathematical approach using OpenSCAD can allow a single solution for all possible bin variants.
The project has expanded into more eccentric models that use modules from the original generator. This wiki aims to document these modules in great detail.
Models are generated subtractively. First, the solid bin and bases are constructed, and then the compartments and holes are removed. This allows for internal fillets that nearly match the originals. However, they are not exactly perfect. There are some fillets that are too small and too difficult to be worth implementing, as most printers do not have a high enough resolution for it to matter.
## Getting Started
For best results, use a version of OpenSCAD with the fast-csg feature. As of writing, this feature is only implemented in the [development snapshots](https://openscad.org/downloads.html). To enable the feature, go to Edit > Preferences > Features > fast-csg. This can speed up rendering from 10 minutes down to a couple of seconds, even for comically large bins. It is not a requirement to use development versions of OpenSCAD.
Most files will come ready-to-run, so parameters can be changed using OpenSCAD's built-in customizer window, and the bins will automatically generate. However, all modules are packed up nicely, so any module can be imported into other files or have more custom modifications beyond tweaking the parameters.
## Script Structure
* Information (Imports / Script Details)
* Parameters (Shown in Customizer)
* Implementation (Executing the Parameters)
* Construction (Script-Specific Modules and Constants)
* Examples
The two files which do not follow these conventions are `gridfinity-rebuilt-utility` and `gridfinity-rebuilt-constants`. These files are not meant to be exposed to the user, except for special requirements that the normal parameters cannot handle. Their respective wiki pages go into more depth.
**NOTE: This documentation is a work in progress, just like the rest of the repository, so parts may still be under construction.**

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# gridfinity-rebuilt-lite
Generates stock bins, but with a twist: the bases are hollow. This is unable to be implemented directly into `gridfinity-rebuilt-bins` due to its surprisingly complex construction. It couldn't be a toggle without causing the structure of the script to fundamentally change (and become more complex) so it was moved to a separate file. Notably, there are some parameters missing, as they are incompatible with the lite variation. Additionally, the complex geometry means rendering is fairly slow, and currently causes many CSG errors.
![Bin](images/lite.gif)
## Script Parameters
Parameter | Range | Description
--- | ----- | ---
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
gridz | { n>0 \| n∈R } | bin height. See bin height information and "gridz_define" below.
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
divx | { n>0 \| n∈Z } | number of compartments along X
divy | { n>0 \| n∈Z } | number of compartments along Y
enable_zsnap | boolean | automatically snap the bin size to the nearest 7mm increment. <br> default: true
style_lip | {0, 1, 2} | if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height
gridz_define | { n>0 \| n∈R } | determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters
style_tab | { 0, 1, 2, 3, 4, 5 } | how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs
style_hole | { 0, 1, 2, 3 } | the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit
div_base_x | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
div_base_y | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
<br>
## Modules
---
### gridfinityLite
Wrapper function that calls [`gridfinityInit`](bins.md#gridfinityInit) and [`gridfinityBase`](bins.md#gridfinityBase) functions (hence the sheer quantity of parameters). Like [`gridfinityInit`](bins.md#gridfinityInit), it uses its children as cutters for the compartments.
**`gridfinityLite(gridx, gridy, gridz, gridz_define, enable_lip, enable_zsnap, length, div_base_x, div_base_y, style_hole)`**
Parameter | Range | Description
--- | ----- | ---
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
gridz | { n>0 \| n∈R } | bin height. See bin height information and "gridz_define" below.
gridz_define | { n>0 \| n∈R } | determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters
style_lip | {0, 1, 2} | if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height
enable_zsnap | boolean | automatically snap the bin size to the nearest 7mm increment. <br> default: true
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)
div_base_x | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
div_base_y | { n>=0 \| n∈Z } | number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)
style_hole | { 0, 1, 2, 3 } | the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit
```
// Example: generate a 3x3x6 bin with 2x2 compartments, that is hollow
gridfinityLite(gridx=3, gridy=3, gridz=6, gridz_define=0, enable_lip=true, enable_zsnap=false, length=42, div_base_x=0, div_base_y=0, style_hole=1) {
cutEqual(n_divx=2, n_divy=2, style_tab=1, enable_scoop = false);
}
```

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# gridfinity-spiral-vase
Some assembly required!
Adaptation of Gridfinity bins to work with spiral vase mode, as to save filament and print time. A big drawback of using vase mode for Gridfinity bins was that they would be very flimsy, and would lack the features that make Gridfinity such a good organizational tool. The goal of this implementation was to maintain the design philosophy while working under the constraints of vase mode.
![Bin](images/vase_dividers.gif)
![Bin](images/vase_base.gif)
## Instructions
Normal Gridfinity is impossible to convert to vase mode due to the geometry of the bases, meaning most existing vase mode Gridfinity models are limited to 1x1 bins. How this script gets around the impossible is to use two separate pieces. **The bin and bases must be printed separately, and then glued together to form the final bin.** While this is slightly more work, there is an added bonus to this method, as for larger bins you may not need every single grid slot to have a base, you only really need them on the corners, or the edges, with some in the middle for support. Using less bases saves filament and print time.
All parameters are global. The customizer has descriptions for all parameters. It is **essential** that the section *Printer Settings* matches your preferred slicer's settings, otherwise the model will not slice correctly. Additionally, you have to turn on the spiral vase parameter in your slicer. If you do not know what vase mode is, [this](https://www.youtube.com/watch?v=HZSFoFYpBaA) is a helpful video.
1. Change the *Printer Settings* parameters to match your slicer and printer settings.
2. Run the `gridfinityVaseBase()` module. This will generate a single spiral-capable base. Export as an STL file. You will need to print multiple of these, so it recommended to fill a base plate with them using the "complete individual objects" option (or equivilant) in your slicer. You only need to do this step initially, and then each time your printer settings change afterwards.
3. Change the bin parameters and run `gridfinityVase()` module to generate the main bin.
4. Glue bases to the bottom of the bin. I recommend superglue on the corners and the top of the magnet holes.
How your sliced files should look (cross section shown for 1x1 bin):
![Bin](images/slicer_bin.png)
![Bin](images/slicer_base.png)
Example sliced files can be found on the [Printables](https://www.printables.com/model/284371-spiral-vase-gridfinity-in-openscad) page.
## Statistics
Given how it has become a bit of a [challenge](https://www.printables.com/model/265271-gridfinity-lite-economical-plain-storage-bins) to reduce the weight and print time for these bins, here is a comparison for a large bin:
| Type | Weight | Time |
|--------------|-----------|------------|
Plain 4x2x6 Bin | 114.66g | 3h58m
Vase 4x2x6 Bin with 8 Bases | 68.31g | 2h27m
Vase 4x2x6 Bin with 4 Bases (only corners) | 56.43g | 1h59m
Clearly, vase mode is very quick and quite lightweight. However, this fundamentally means the bins will be weaker, so keep that in mind.
## Script Parameters
Parameter | Range | Description
--- | ----- | ---
type | { 0 , 1 } | generate the bin (0) or base (1)
nozzle | { n>0 \| n∈R } | extrusion width in slicer
layer | { n>0 \| n∈R } | size of layers in slicer
bottom_layer | { n>0 \| n∈Z } | number of layers on the bottom of the print
gridx | { n>0 \| n∈R } | number of bases along the x-axis
gridy | { n>0 \| n∈R } | number of bases along the y-axis
gridz | { n>0 \| n∈R } | bin height. See bin height information and <br> "gridz_define" below.
length | { n>0 \| n∈R } | length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of <br>Life, the Universe, and Everything.)
n_divx | { n>0 \| n∈Z } | number of compartments along X
enable_holes | boolean | toggle holes inside the base
enable_zsnap | boolean | automatically snap the bin size to the nearest <br> 7mm increment. default: true
enable_lip | boolean | if you are not stacking the bin, you can disable the <br>top lip to save space. default: true
enable_scoop_chamfer | boolean | toggles the chamfer on bottom edge <br> for easy removal of items
enable_funnel | boolean | toggles funnel on back of tab. <br> acts as a finger grip and pour spout for small parts.
enable_inset | boolean | toggles an inset on the front of the bin. <br> adds strength when using scoop.
enable_pinch | boolean | toggles an outside pinch at the top lip of the bin. <br> adds strength.
gridz_define | { n>0 \| n∈R } | determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in mm <br> • (2) gridz is the overall external height of the bin in mm
style_tab | { 0, 1, 2, 3, 4, 5 } | how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs
style_base | { 0, 1, 2, 3, 4} | specifies the locations for the "X" cutouts for bases. <br> • (0) all <br> • (1) corners <br> • (2) edges <br> • (3) automatic <br> • (4) none
a_tab | { n>0 \| n∈R } | angle of the tab
## Modules
### gridfinityVase
Generates the compartment section of the bin. No parameters as it uses the global parameters for construction.
**`gridfinityVase()`**
### gridfinityVaseBase
Generates the base section of the bin. No parameters as it uses the global parameters for construction. It only generates a single base, as all of them are the same. Use your slicer with the "outpuit individual objects" option to print a full sheet of these, or as many as you need to fit your bins.
**`gridfinityVaseBase()`**

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// height of the base
h_base = 5;
// outside rounded radius of bin
r_base = 4;
// lower base chamfer "radius"
r_c1 = 0.8;
// upper base chamfer "radius"
r_c2 = 2.4;
// bottom thiccness of bin
h_bot = 2.2;
// outside radii 1
r_fo1 = 8.5;
// outside radii 2
r_fo2 = 3.2;
// outside radii 3
r_fo3 = 1.6;
// screw hole radius
r_hole1 = 1.5;
// magnet hole radius
r_hole2 = 3.25;
// center-to-center distance between holes
d_hole = 26;
// magnet hole depth
h_hole = 2.4;
// slit depth (printer layer height)
h_slit = 0.2;
// top edge fillet radius
r_f1 = 0.6;
// internal fillet radius
r_f2 = 2.8;
// width of divider between compartments
d_div = 1.2;
// minimum wall thickness
d_wall = 0.95;
// tolerance fit factor
d_clear = 0.25;
// height of tab (yaxis, measured from inner wall)
d_tabh = 15.85;
// maximum width of tab
d_tabw = 42;
// angle of tab
a_tab = 36;
// lip height
h_lip = 3.548;
d_wall2 = r_base-r_c1-d_clear*sqrt(2);
d_magic = -2*d_clear-2*d_wall+d_div;
// Baseplate constants
// Baseplate bottom part height (part added with weigthed=true)
bp_h_bot = 6.4;
// Baseplate bottom cutout rectangle size
bp_cut_size = 21.4;
// Baseplate bottom cutout rectangle depth
bp_cut_depth = 4;
// Baseplate bottom cutout rounded thingy width
bp_rcut_width = 8.5;
// Baseplate bottom cutout rounded thingy left
bp_rcut_length = 4.25;
// Baseplate bottom cutout rounded thingy depth
bp_rcut_depth = 2;
// countersink diameter for baseplate
d_cs = 2.5;
// radius of cutout for skeletonized baseplate
r_skel = 2;
// baseplate counterbore radius
r_cb = 2.75;
// baseplate counterbore depth
h_cb = 3;
// minimum baseplate thickness (when skeletonized)
h_skel = 1;
// Prime numbers
p_corn = 401;

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include <gridfinity-rebuilt-utility.scad>
// ===== INFORMATION ===== //
/*
IMPORTANT: rendering will be better for analyzing the model if fast-csg is enabled. As of writing, this feature is only available in the development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins. Enable it in Edit > Preferences > Features > fast-csg
https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
// ===== PARAMETERS ===== //
/* [Setup Parameters] */
$fa = 8;
$fs = 0.25;
/* [General Settings] */
// number of bases along x-axis
gridx = 5;
// number of bases along y-axis
gridy = 5;
// base unit
length = 42;
/* [Screw Together Settings - Defaults work for M3 and 4-40] */
// screw diameter
d_screw = 3.35;
// screw head diameter
d_screw_head = 5;
// screw spacing distance
screw_spacing = .5;
// number of screws per grid block
n_screws = 1; // [1:3]
/* [Fit to Drawer] */
// minimum length of baseplate along x (leave zero to ignore, will automatically fill area if gridx is zero)
distancex = 0;
// minimum length of baseplate along y (leave zero to ignore, will automatically fill area if gridy is zero)
distancey = 0;
// where to align extra space along x
fitx = 0; // [-1:0.1:1]
// where to align extra space along y
fity = 0; // [-1:0.1:1]
/* [Styles] */
// baseplate styles
style_plate = 0; // [0: thin, 1:weighted, 2:skeletonized, 3: screw together, 4: screw together minimal]
// enable magnet hole
enable_magnet = true;
// hole styles
style_hole = 2; // [0:none, 1:contersink, 2:counterbore]
// ===== IMPLEMENTATION ===== //
screw_together = (style_plate == 3 || style_plate == 4);
color("tomato")
gridfinityBaseplate(gridx, gridy, length, distancex, distancey, style_plate, enable_magnet, style_hole, fitx, fity);
// ===== CONSTRUCTION ===== //
module gridfinityBaseplate(gridx, gridy, length, dix, diy, sp, sm, sh, fitx, fity) {
assert(gridx > 0 || dix > 0, "Must have positive x grid amount!");
assert(gridy > 0 || diy > 0, "Must have positive y grid amount!");
gx = gridx == 0 ? floor(dix/length) : gridx;
gy = gridy == 0 ? floor(diy/length) : gridy;
dx = max(gx*length-0.5, dix);
dy = max(gy*length-0.5, diy);
off = calculate_off(sp, sm, sh);
offsetx = dix < dx ? 0 : (gx*length-0.5-dix)/2*fitx*-1;
offsety = diy < dy ? 0 : (gy*length-0.5-diy)/2*fity*-1;
difference() {
translate([offsetx,offsety,h_base])
mirror([0,0,1])
rounded_rectangle(dx, dy, h_base+off, r_base);
gridfinityBase(gx, gy, length, 1, 1, 0, 0.5, false);
translate([offsetx,offsety,h_base-0.6])
rounded_rectangle(dx*2, dy*2, h_base*2, r_base);
pattern_linear(gx, gy, length) {
render(convexity = 6) {
if (sm) block_base_hole(1);
if (sp == 1)
translate([0,0,-off])
cutter_weight();
else if (sp == 2 || sp == 3)
linear_extrude(10*(h_base+off), center = true)
profile_skeleton();
else if (sp == 4)
translate([0,0,-5*(h_base+off)])
rounded_square(length-2*r_c2-2*r_c1, 10*(h_base+off), r_fo3);
hole_pattern(){
if (sm) block_base_hole(1);
translate([0,0,-off])
if (sh == 1) cutter_countersink();
else if (sh == 2) cutter_counterbore();
}
}
}
if (sp == 3 || sp ==4) cutter_screw_together(gx, gy, off);
}
}
function calculate_off(sp, sm, sh) =
screw_together
? 6.75
:sp==0
?0
: sp==1
?bp_h_bot
:h_skel + (sm
?h_hole
: 0)+(sh==0
? d_screw
: sh==1
?d_cs
:h_cb);
module cutter_weight() {
union() {
linear_extrude(bp_cut_depth*2,center=true)
square(bp_cut_size, center=true);
pattern_circular(4)
translate([0,10,0])
linear_extrude(bp_rcut_depth*2,center=true)
union() {
square([bp_rcut_width, bp_rcut_length], center=true);
translate([0,bp_rcut_length/2,0])
circle(d=bp_rcut_width);
}
}
}
module hole_pattern(){
pattern_circular(4)
translate([d_hole/2, d_hole/2, 0]) {
render();
children();
}
}
module cutter_countersink(){
cylinder(r = r_hole1+d_clear, h = 100*h_base, center = true);
translate([0,0,d_cs])
mirror([0,0,1])
hull() {
cylinder(h = d_cs+10, r=r_hole1+d_clear);
translate([0,0,d_cs])
cylinder(h=d_cs+10, r=r_hole1+d_clear+d_cs);
}
}
module cutter_counterbore(){
cylinder(h=100*h_base, r=r_hole1+d_clear, center=true);
difference() {
cylinder(h = 2*(h_cb+0.2), r=r_cb, center=true);
copy_mirror([0,1,0])
translate([-1.5*r_cb,r_hole1+d_clear+0.1,h_cb-h_slit])
cube([r_cb*3,r_cb*3, 10]);
}
}
module profile_skeleton() {
l = length-2*r_c2-2*r_c1;
minkowski() {
difference() {
square([l-2*r_skel+2*d_clear,l-2*r_skel+2*d_clear], center = true);
pattern_circular(4)
translate([d_hole/2,d_hole/2,0])
minkowski() {
square([l,l]);
circle(r_hole2+r_skel+2);
}
}
circle(r_skel);
}
}
module cutter_screw_together(gx, gy, off) {
screw(gx, gy);
rotate([0,0,90])
screw(gy, gx);
module screw(a, b) {
copy_mirror([1,0,0])
translate([a*length/2, 0, -off/2])
pattern_linear(1, b, 1, length)
pattern_linear(1, n_screws, 1, d_screw_head + screw_spacing)
rotate([0,90,0])
cylinder(h=length/2, d=d_screw, center = true);
}
}

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include <gridfinity-rebuilt-utility.scad>
// ===== INFORMATION ===== //
/*
IMPORTANT: rendering will be better for analyzing the model if fast-csg is enabled. As of writing, this feature is only available in the development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins. Enable it in Edit > Preferences > Features > fast-csg
the magnet holes can have an extra cut in them to make it easier to print without supports
tabs will automatically be disabled when gridz is less than 3, as the tabs take up too much space
base functions can be found in "gridfinity-rebuilt-utility.scad"
examples at end of file
BIN HEIGHT
the original gridfinity bins had the overall height defined by 7mm increments
a bin would be 7*u millimeters tall
the lip at the top of the bin (3.8mm) added onto this height
The stock bins have unit heights of 2, 3, and 6:
Z unit 2 -> 7*2 + 3.8 -> 17.8mm
Z unit 3 -> 7*3 + 3.8 -> 24.8mm
Z unit 6 -> 7*6 + 3.8 -> 45.8mm
https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
// ===== PARAMETERS ===== //
/* [Setup Parameters] */
$fa = 8;
$fs = 0.25;
/* [General Settings] */
// number of bases along x-axis
gridx = 5;
// number of bases along y-axis
gridy = 5;
// bin height. See bin height information and "gridz_define" below.
gridz = 6;
// base unit
length = 42;
/* [Compartments] */
// number of X Divisions (set to zero to have solid bin)
divx = 1;
// number of y Divisions (set to zero to have solid bin)
divy = 1;
/* [Height] */
// determine what the variable "gridz" applies to based on your use case
gridz_define = 0; // [0:gridz is the height of bins in units of 7mm increments - Zack's method,1:gridz is the internal height in millimeters, 2:gridz is the overall external height of the bin in millimeters]
// overrides internal block height of bin (for solid containers). Leave zero for default height. Units: mm
height_internal = 0;
// snap gridz height to nearest 7mm increment
enable_zsnap = false;
/* [Features] */
// the type of tabs
style_tab = 1; //[0:Full,1:Auto,2:Left,3:Center,4:Right,5:None]
// how should the top lip act
style_lip = 0; //[0: Regular lip, 1:remove lip subtractively, 2: remove lip and retain height]
// scoop weight percentage. 0 disables scoop, 1 is regular scoop. Any real number will scale the scoop.
scoop = 1; //[0:0.1:1]
// only cut magnet/screw holes at the corners of the bin to save uneccesary print time
style_corners = false;
/* [Base] */
style_hole = 3; // [0:no holes, 1:magnet holes only, 2: magnet and screw holes - no printable slit, 3: magnet and screw holes - printable slit]
// number of divisions per 1 unit of base along the X axis. (default 1, only use integers. 0 means automatically guess the right division)
div_base_x = 0;
// number of divisions per 1 unit of base along the Y axis. (default 1, only use integers. 0 means automatically guess the right division)
div_base_y = 0;
// ===== IMPLEMENTATION ===== //
color("tomato") {
gridfinityInit(gridx, gridy, height(gridz, gridz_define, style_lip, enable_zsnap), height_internal, length) {
if (divx > 0 && divy > 0)
cutEqual(n_divx = divx, n_divy = divy, style_tab = style_tab, scoop_weight = scoop);
}
gridfinityBase(gridx, gridy, length, div_base_x, div_base_y, style_hole*(style_corners?p_corn:1));
}
// ===== EXAMPLES ===== //
// 3x3 even spaced grid
/*
gridfinityInit(3, 3, height(6), 0, 42) {
cutEqual(n_divx = 3, n_divy = 3, style_tab = 0, scoop_weight = 0);
}
gridfinityBase(3, 3, 42, 0, 0, 1);
*/
// Compartments can be placed anywhere (this includes non-integer positions like 1/2 or 1/3). The grid is defined as (0,0) being the bottom left corner of the bin, with each unit being 1 base long. Each cut() module is a compartment, with the first four values defining the area that should be made into a compartment (X coord, Y coord, width, and height). These values should all be positive. t is the tab style of the compartment (0:full, 1:auto, 2:left, 3:center, 4:right, 5:none). s is a toggle for the bottom scoop.
/*
gridfinityInit(3, 3, height(6), 0, 42) {
cut(x=0, y=0, w=1.5, h=0.5, t=5, s=0);
cut(0, 0.5, 1.5, 0.5, 5, 0);
cut(0, 1, 1.5, 0.5, 5, 0);
cut(0,1.5,0.5,1.5,5,0);
cut(0.5,1.5,0.5,1.5,5,0);
cut(1,1.5,0.5,1.5,5,0);
cut(1.5, 0, 1.5, 5/3, 2);
cut(1.5, 5/3, 1.5, 4/3, 4);
}
gridfinityBase(3, 3, 42, 0, 0, 1);
*/
// Compartments can overlap! This allows for weirdly shaped compartments, such as this "2" bin.
/*
gridfinityInit(3, 3, height(6), 0, 42) {
cut(0,2,2,1,5,0);
cut(1,0,1,3,5);
cut(1,0,2,1,5);
cut(0,0,1,2);
cut(2,1,1,2);
}
gridfinityBase(3, 3, 42, 0, 0, 1);
*/
// Areas without a compartment are solid material, where you can put your own cutout shapes. using the cut_move() function, you can select an area, and any child shapes will be moved from the origin to the center of that area, and subtracted from the block. For example, a pattern of three cylinderical holes.
/*
gridfinityInit(3, 3, height(6), 0, 42) {
cut(x=0, y=0, w=2, h=3);
cut(x=0, y=0, w=3, h=1, t=5);
cut_move(x=2, y=1, w=1, h=2)
pattern_linear(x=1, y=3, sx=42/2)
cylinder(r=5, h=1000, center=true);
}
gridfinityBase(3, 3, 42, 0, 0, 1);
*/
// You can use loops as well as the bin dimensions to make different parametric functions, such as this one, which divides the box into columns, with a small 1x1 top compartment and a long vertical compartment below
/*
gx = 3;
gy = 3;
gridfinityInit(gx, gy, height(6), 0, 42) {
for(i=[0:gx-1]) {
cut(i,0,1,gx-1);
cut(i,gx-1,1,1);
}
}
gridfinityBase(gx, gy, 42, 0, 0, 1);
*/
// Pyramid scheme bin
/*
gx = 4.5;
gy = 4;
gridfinityInit(gx, gy, height(6), 0, 42) {
for (i = [0:gx-1])
for (j = [0:i])
cut(j*gx/(i+1),gy-i-1,gx/(i+1),1,0);
}
gridfinityBase(gx, gy, 42, 0, 0, 1);
*/

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@ -1,100 +0,0 @@
include <gridfinity-rebuilt-utility.scad>
// ===== INFORMATION ===== //
/*
IMPORTANT: rendering will be better for analyzing the model if fast-csg is enabled. As of writing, this feature is only available in the development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins. Enable it in Edit > Preferences > Features > fast-csg
https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
// ===== PARAMETERS ===== //
/* [Setup Parameters] */
$fa = 8;
$fs = 0.25;
/* [General Settings] */
// number of bases along x-axis
gridx = 3;
// number of bases along y-axis
gridy = 3;
// bin height. See bin height information and "gridz_define" below.
gridz = 6;
// base unit
length = 42;
/* [Compartments] */
// number of X Divisions
divx = 2;
// number of y Divisions
divy = 2;
/* [Toggles] */
// snap gridz height to nearest 7mm increment
enable_zsnap = false;
// how should the top lip act
style_lip = 0; //[0: Regular lip, 1:remove lip subtractively, 2: remove lip and retain height]
/* [Other] */
// determine what the variable "gridz" applies to based on your use case
gridz_define = 0; // [0:gridz is the height of bins in units of 7mm increments - Zack's method,1:gridz is the internal height in millimeters, 2:gridz is the overall external height of the bin in millimeters]
// the type of tabs
style_tab = 1; //[0:Full,1:Auto,2:Left,3:Center,4:Right,5:None]
/* [Base] */
style_hole = 0; // [0:no holes, 1:magnet holes only, 2: magnet and screw holes - no printable slit, 3: magnet and screw holes - printable slit]
// only cut magnet/screw holes at the corners of the bin to save uneccesary print time
style_corners = false;
// number of divisions per 1 unit of base along the X axis. (default 1, only use integers. 0 means automatically guess the right division)
div_base_x = 0;
// number of divisions per 1 unit of base along the Y axis. (default 1, only use integers. 0 means automatically guess the right division)
div_base_y = 0;
// thickness of bottom layer
bottom_layer = 1;
// ===== IMPLEMENTATION ===== //
// Input all the cutter types in here
color("tomato")
gridfinityLite(gridx, gridy, gridz, gridz_define, style_lip, enable_zsnap, length, div_base_x, div_base_y, style_hole) {
cutEqual(n_divx = divx, n_divy = divy, style_tab = style_tab, scoop_weight = 0);
}
// ===== CONSTRUCTION ===== //
module gridfinityLite(gridx, gridy, gridz, gridz_define, style_lip, enable_zsnap, length, div_base_x, div_base_y, style_hole) {
sh = style_hole*(style_corners?p_corn:1);
difference() {
union() {
gridfinityInit(gridx, gridy, height(gridz, gridz_define, style_lip, enable_zsnap), 0, length)
children();
gridfinityBase(gridx, gridy, length, div_base_x, div_base_y, sh);
}
difference() {
union() {
intersection() {
difference() {
gridfinityBase(gridx, gridy, length, div_base_x, div_base_y, sh, -d_wall*2, false);
translate([-gridx*length/2,-gridy*length/2,2*h_base])
cube([gridx*length,gridy*length,1000]);
}
translate([0,0,-1])
rounded_rectangle(gridx*length-0.5005-d_wall*2, gridy*length-0.5005-d_wall*2, 1000, r_f2);
translate([0,0,bottom_layer])
rounded_rectangle(gridx*1000, gridy*1000, 1000, r_f2);
}
translate([0,0,h_base+d_clear])
rounded_rectangle(gridx*length-0.5005-d_wall*2, gridy*length-0.5005-d_wall*2, h_base, r_f2);
}
translate([0,0,-4*h_base])
gridfinityInit(gridx, gridy, height(20,0), 0, length)
children();
}
}
}

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@ -1,454 +0,0 @@
// UTILITY FILE, DO NOT EDIT
// EDIT OTHER FILES IN REPO FOR RESULTS
include <gridfinity-constants.scad>
// ===== User Modules ===== //
// functions to convert gridz values to mm values
function hf (z, d, l) = ((d==0)?z*7:(d==1)?h_bot+z+h_base:z-((l==1)?h_lip:0))+(l==2?h_lip:0);
function height (z,d=0,l=0,s=true) = (s?((abs(hf(z,d,l))%7==0)?hf(z,d,l):hf(z,d,l)+7-abs(hf(z,d,l))%7):hf(z,d,l))-h_base;
// Creates equally divided cutters for the bin
//
// n_divx: number of x compartments (ideally, coprime w/ gridx)
// n_divy: number of y compartments (ideally, coprime w/ gridy)
// set n_div values to 0 for a solid bin
// style_tab: tab style for all compartments. see cut()
// scoop_weight: scoop toggle for all compartments. see cut()
module cutEqual(n_divx=1, n_divy=1, style_tab=1, scoop_weight=1) {
for (i = [1:n_divx])
for (j = [1:n_divy])
cut((i-1)*$gxx/n_divx,(j-1)*$gyy/n_divy, $gxx/n_divx, $gyy/n_divy, style_tab, scoop_weight);
}
// initialize gridfinity
module gridfinityInit(gx, gy, h, h0 = 0, l) {
$gxx = gx;
$gyy = gy;
$dh = h;
$dh0 = h0;
color("tomato") {
difference() {
color("firebrick")
block_bottom(h0==0?$dh-0.1:h0, gx, gy, l);
children();
}
color("royalblue")
block_wall(gx, gy, l) {
if (style_lip == 0) profile_wall();
else profile_wall2();
}
}
}
// Function to include in the custom() module to individually slice bins
// Will try to clamp values to fit inside the provided base size
//
// x: start coord. x=1 is the left side of the bin.
// y: start coord. y=1 is the bottom side of the bin.
// w: width of compartment, in # of bases covered
// h: height of compartment, in # of basese covered
// t: tab style of this specific compartment.
// alignment only matters if the compartment size is larger than d_tabw
// 0:full, 1:auto, 2:left, 3:center, 4:right, 5:none
// Automatic alignment will use left tabs for bins on the left edge, right tabs for bins on the right edge, and center tabs everywhere else.
// s: toggle the rounded back corner that allows for easy removal
module cut(x=0, y=0, w=1, h=1, t=1, s=1) {
translate([0,0,-$dh-h_base])
cut_move(x,y,w,h)
block_cutter(clp(x,0,$gxx), clp(y,0,$gyy), clp(w,0,$gxx-x), clp(h,0,$gyy-y), t, s);
}
// Translates an object from the origin point to the center of the requested compartment block, can be used to add custom cuts in the bin
// See cut() module for parameter descriptions
module cut_move(x, y, w, h) {
translate([0,0,$dh0==0?$dh+h_base:$dh0+h_base])
cut_move_unsafe(clp(x,0,$gxx), clp(y,0,$gyy), clp(w,0,$gxx-x), clp(h,0,$gyy-y))
children();
}
// ===== Modules ===== //
module profile_base() {
polygon([
[0,0],
[0,h_base],
[r_base,h_base],
[r_base-r_c2,h_base-r_c2],
[r_base-r_c2,r_c1],
[r_base-r_c2-r_c1,0]
]);
}
module gridfinityBase(gx, gy, l, dx, dy, style_hole, off=0, final_cut=true) {
dbnxt = [for (i=[1:5]) if (abs(gx*i)%1 < 0.001 || abs(gx*i)%1 > 0.999) i];
dbnyt = [for (i=[1:5]) if (abs(gy*i)%1 < 0.001 || abs(gy*i)%1 > 0.999) i];
dbnx = 1/(dx==0 ? len(dbnxt) > 0 ? dbnxt[0] : 1 : round(dx));
dbny = 1/(dy==0 ? len(dbnyt) > 0 ? dbnyt[0] : 1 : round(dy));
xx = gx*l-0.5;
yy = gy*l-0.5;
if (final_cut)
translate([0,0,h_base])
rounded_rectangle(xx+0.002, yy+0.002, h_bot/1.5, r_fo1/2+0.001);
intersection(){
if (final_cut)
translate([0,0,-1])
rounded_rectangle(xx+0.005, yy+0.005, h_base+h_bot/2*10, r_fo1/2+0.001);
pattern_linear(gx/dbnx, gy/dbny, dbnx*l, dbny*l)
block_base(gx, gy, l, dbnx, dbny, style_hole, off);
}
}
module block_base(gx, gy, l, dbnx, dbny, style_hole, off) {
render(convexity = 2)
difference() {
block_base_solid(dbnx, dbny, l, off);
if (style_hole > 0)
if (style_hole % p_corn < 0.001)
pattern_linear(2, 2, (gx-1)*length+d_hole, (gy-1)*length+d_hole)
block_base_hole(style_hole / p_corn, off);
else
pattern_circular(abs(d_hole)<0.001?1:4)
translate([d_hole/2, d_hole/2, 0])
block_base_hole(style_hole, off);
}
}
module block_base_solid(dbnx, dbny, l, o) {
xx = dbnx*l-0.05;
yy = dbny*l-0.05;
oo = (o/2)*(sqrt(2)-1);
translate([0,0,h_base])
mirror([0,0,1])
union() {
hull() {
rounded_rectangle(xx-2*r_c2-2*r_c1+o, yy-2*r_c2-2*r_c1+o, h_base+oo, r_fo3/2);
rounded_rectangle(xx-2*r_c2+o, yy-2*r_c2+o, h_base-r_c1+oo, r_fo2/2);
}
translate([0,0,oo])
hull() {
rounded_rectangle(xx-2*r_c2+o, yy-2*r_c2+o, r_c2, r_fo2/2);
mirror([0,0,1])
rounded_rectangle(xx+o, yy+o, h_bot/2+abs(10*o), r_fo1/2);
}
}
}
module block_base_hole(style_hole, o=0) {
r1 = r_hole1-o/2;
r2 = r_hole2-o/2;
union() {
difference() {
cylinder(h = 2*(h_hole-o+(style_hole==3?h_slit:0)), r=r2, center=true);
if (style_hole==3)
copy_mirror([0,1,0])
translate([-1.5*r2,r1+0.1,h_hole-o])
cube([r2*3,r2*3, 10]);
}
if (style_hole > 1)
cylinder(h = 2*h_base-o, r = r1, center=true);
}
}
module profile_wall_sub_sub() {
polygon([
[0,0],
[d_wall/2,0],
[d_wall/2,$dh-1.2-d_wall2+d_wall/2],
[d_wall2-d_clear,$dh-1.2],
[d_wall2-d_clear,$dh+h_base],
[0,$dh+h_base]
]);
}
module profile_wall_sub() {
difference() {
profile_wall_sub_sub();
color("red")
offset(delta = d_clear)
translate([r_base-d_clear,$dh,0])
mirror([1,0,0])
profile_base();
square([d_wall,0]);
}
}
module profile_wall() {
translate([r_base,0,0])
mirror([1,0,0])
difference() {
profile_wall_sub();
difference() {
translate([0, $dh+h_base-d_clear*sqrt(2), 0])
circle(r_base/2);
offset(r = r_f1)
offset(delta = -r_f1)
profile_wall_sub();
}
// remove any negtive geometry in edge cases
mirror([0,1,0])
square(100*length);
}
}
// lipless profile
module profile_wall2() {
translate([r_base,0,0])
mirror([1,0,0])
square([d_wall,$dh]);
}
module block_wall(gx, gy, l) {
translate([0,0,h_base])
sweep_rounded(gx*l-2*r_base-0.5-0.001, gy*l-2*r_base-0.5-0.001)
children();
}
module block_bottom( h = 2.2, gx, gy, l ) {
translate([0,0,h_base+0.1])
rounded_rectangle(gx*l-0.5-d_wall/4, gy*l-0.5-d_wall/4, h, r_base+0.01);
}
module cut_move_unsafe(x, y, w, h) {
xx = ($gxx*length+d_magic);
yy = ($gyy*length+d_magic);
translate([(x)*xx/$gxx,(y)*yy/$gyy,0])
translate([(-xx+d_div)/2,(-yy+d_div)/2,0])
translate([(w*xx/$gxx-d_div)/2,(h*yy/$gyy-d_div)/2,0])
children();
}
module block_cutter(x,y,w,h,t,s) {
v_len_tab = d_tabh;
v_len_lip = d_wall2-d_wall+1.2;
v_cut_tab = d_tabh - (2*r_f1)/tan(a_tab);
v_cut_lip = d_wall2-d_wall-d_clear;
v_ang_tab = a_tab;
v_ang_lip = 45;
ycutfirst = y == 0 && style_lip == 0;
ycutlast = abs(y+h-$gyy)<0.001 && style_lip == 0;
xcutfirst = x == 0 && style_lip == 0;
xcutlast = abs(x+w-$gxx)<0.001 && style_lip == 0;
zsmall = ($dh+h_base)/7 < 3;
ylen = h*($gyy*length+d_magic)/$gyy-d_div;
xlen = w*($gxx*length+d_magic)/$gxx-d_div;
height = $dh;
extent = (abs(s) > 0 && ycutfirst ? d_wall2-d_wall-d_clear : 0);
tab = (zsmall || t == 5) ? (ycutlast?v_len_lip:0) : v_len_tab;
ang = (zsmall || t == 5) ? (ycutlast?v_ang_lip:0) : v_ang_tab;
cut = (zsmall || t == 5) ? (ycutlast?v_cut_lip:0) : v_cut_tab;
style = (t > 1 && t < 5) ? t-3 : (x == 0 ? -1 : xcutlast ? 1 : 0);
translate([0,ylen/2,h_base+h_bot])
rotate([90,0,-90]) {
if (!zsmall && xlen - d_tabw > 4*r_f2 && t != 0) {
fillet_cutter(3,"bisque")
difference() {
transform_tab(style, xlen, ((xcutfirst&&style==-1)||(xcutlast&&style==1))?v_cut_lip:0)
translate([ycutlast?v_cut_lip:0,0])
profile_cutter(height-h_bot, ylen/2, s);
if (xcutfirst)
translate([0,0,(xlen/2-r_f2)-v_cut_lip])
cube([ylen,height,v_cut_lip*2]);
if (xcutlast)
translate([0,0,-(xlen/2-r_f2)-v_cut_lip])
cube([ylen,height,v_cut_lip*2]);
}
if (t != 0 && t != 5)
fillet_cutter(2,"indigo")
difference() {
transform_tab(style, xlen, ((xcutfirst&&style==-1)||(xcutlast&&style==1))?v_cut_lip:0)
difference() {
intersection() {
profile_cutter(height-h_bot, ylen-extent, s);
profile_cutter_tab(height-h_bot, v_len_tab, v_ang_tab);
}
if (ycutlast) profile_cutter_tab(height-h_bot, v_len_lip, 45);
}
if (xcutfirst)
translate([ylen/2,0,xlen/2])
rotate([0,90,0])
transform_main(2*ylen)
profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
if (xcutlast)
translate([ylen/2,0,-xlen/2])
rotate([0,-90,0])
transform_main(2*ylen)
profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
}
}
fillet_cutter(1,"seagreen")
translate([0,0,xcutlast?v_cut_lip/2:0])
translate([0,0,xcutfirst?-v_cut_lip/2:0])
transform_main(xlen-(xcutfirst?v_cut_lip:0)-(xcutlast?v_cut_lip:0))
translate([cut,0])
profile_cutter(height-h_bot, ylen-extent-cut-(!s&&ycutfirst?v_cut_lip:0), s);
fillet_cutter(0,"hotpink")
difference() {
transform_main(xlen)
difference() {
profile_cutter(height-h_bot, ylen-extent, s);
if (!((zsmall || t == 5) && !ycutlast))
profile_cutter_tab(height-h_bot, tab, ang);
if (!(abs(s) > 0)&& y == 0)
translate([ylen-extent,0,0])
mirror([1,0,0])
profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
}
if (xcutfirst)
color("indigo")
translate([ylen/2+0.001,0,xlen/2+0.001])
rotate([0,90,0])
transform_main(2*ylen)
profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
if (xcutlast)
color("indigo")
translate([ylen/2+0.001,0,-xlen/2+0.001])
rotate([0,-90,0])
transform_main(2*ylen)
profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
}
}
}
module transform_main(xlen) {
translate([0,0,-(xlen-2*r_f2)/2])
linear_extrude(xlen-2*r_f2)
children();
}
module transform_tab(type, xlen, cut) {
mirror([0,0,type==1?1:0])
copy_mirror([0,0,-(abs(type)-1)])
translate([0,0,-(xlen)/2])
translate([0,0,r_f2])
linear_extrude((xlen-d_tabw-abs(cut))/(1-(abs(type)-1))-2*r_f2)
children();
}
module fillet_cutter(t = 0, c = "goldenrod") {
color(c)
minkowski() {
children();
sphere(r = r_f2-t/1000);
}
}
module profile_cutter(h, l, s) {
scoop = max(s*$dh/2-r_f2,0);
translate([r_f2,r_f2])
hull() {
if (l-scoop-2*r_f2 > 0)
square(0.1);
if (scoop < h) {
translate([l-2*r_f2,h-r_f2/2])
mirror([1,1])
square(0.1);
translate([0,h-r_f2/2])
mirror([0,1])
square(0.1);
}
difference() {
translate([l-scoop-2*r_f2, scoop])
if (scoop != 0) {
intersection() {
circle(scoop);
mirror([0,1]) square(2*scoop);
}
} else mirror([1,0]) square(0.1);
translate([l-scoop-2*r_f2,-1])
square([-(l-scoop-2*r_f2),2*h]);
translate([0,h])
square([2*l,scoop]);
}
}
}
module profile_cutter_tab(h, tab, ang) {
if (tab > 0)
color("blue")
offset(delta = r_f2)
polygon([[0,h],[tab,h],[0,h-tab*tan(ang)]]);
}
// ==== Utilities =====
function clp(x,a,b) = min(max(x,a),b);
module rounded_rectangle(length, width, height, rad) {
linear_extrude(height)
offset(rad)
offset(-rad)
square([length,width], center = true);
}
module rounded_square(length, height, rad) {
rounded_rectangle(length, length, height, rad);
}
module copy_mirror(vec=[0,1,0]) {
children();
if (vec != [0,0,0])
mirror(vec)
children();
}
module pattern_linear(x = 1, y = 1, sx = 0, sy = 0) {
yy = sy <= 0 ? sx : sy;
translate([-(x-1)*sx/2,-(y-1)*yy/2,0])
for (i = [1:ceil(x)])
for (j = [1:ceil(y)])
translate([(i-1)*sx,(j-1)*yy,0])
children();
}
module pattern_circular(n=2) {
for (i = [1:n])
rotate(i*360/n)
children();
}
module sweep_rounded(w=10, h=10) {
union() pattern_circular(2) {
copy_mirror([1,0,0])
translate([w/2,h/2,0])
rotate_extrude(angle = 90, convexity = 4)
children();
translate([w/2,0,0])
rotate([90,0,0])
linear_extrude(height = h, center = true)
children();
rotate([0,0,90])
translate([h/2,0,0])
rotate([90,0,0])
linear_extrude(height = w, center = true)
children();
}
}

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@ -1,556 +0,0 @@
include <gridfinity-rebuilt-utility.scad>
// ===== INFORMATION ===== //
/*
IMPORTANT: rendering will be better for analyzing the model if fast-csg is enabled. As of writing, this feature is only available in the development builds and not the official release of OpenSCAD, but it makes rendering only take a couple seconds, even for comically large bins. Enable it in Edit > Preferences > Features > fast-csg
https://github.com/kennetek/gridfinity-rebuilt-openscad
*/
// ===== PARAMETERS ===== //
/* [Special Variables] */
$fa = 8;
$fs = 0.25;
/* [Bin or Base] */
type = 0; // [0:bin, 1:base]
/* [Printer Settings] */
// extrusion width (walls will be twice this size)
nozzle = 0.6;
// slicer layer size
layer = 0.35;
// number of base layers on build plate
bottom_layer = 3;
/* [General Settings] */
// number of bases along x-axis
gridx = 1;
// number of bases along y-axis
gridy = 1;
// bin height. See bin height information and "gridz_define" below.
gridz = 6;
// base unit
length = 42;
// number of compartments along x-axis
n_divx = 2;
/* [Toggles] */
// toggle holes on the base for magnet
enable_holes = true;
// round up the bin height to match the closest 7mm unit
enable_zsnap = false;
// toggle the lip on the top of the bin that allows stacking
enable_lip = true;
// chamfer inside bin for easy part removal
enable_scoop_chamfer = true;
// funnel-like features on the back of tabs for fingers to grab
enable_funnel = true;
// front inset (added for strength when there is a scoop)
enable_inset = true;
// "pinches" the top lip of the bin, for added strength
enable_pinch = true;
/* [Styles] */
// determine what the variable "gridz" applies to based on your use case
gridz_define = 0; // [0:gridz is the height of bins in units of 7mm increments - Zack's method,1:gridz is the internal height in millimeters, 2:gridz is the overall external height of the bin in millimeters]
// how tabs are implemented
style_tab = 0; // [0:continuous, 1:broken, 2:auto, 3:right, 4:center, 5:left, 6:none]
// where to put X cutouts for attaching bases
// selecting none will also disable crosses on bases
style_base = 0; // [0:all, 1:corners, 2:edges, 3:auto, 4:none]
// tab angle
a_tab = 40;
// ===== IMPLEMENTATION ===== //
color("tomato")
if (type != 0) gridfinityBaseVase(); // Generate a single base
else gridfinityVase(); // Generate the bin
// ===== CONSTRUCTION ===== //
d_bottom = layer*(max(bottom_layer,1));
x_l = length/2;
dht = (gridz_define==0)?gridz*7 : (gridz_define==1)?h_bot+gridz+h_base : gridz-(enable_lip?3.8:0);
d_height = (enable_zsnap?((abs(dht)%7==0)?dht:dht+7-abs(dht)%7):dht)-h_base;
f2c = sqrt(2)*(sqrt(2)-1); // fillet to chamfer ratio
me = ((gridx*length-0.5)/n_divx)-nozzle*4-r_fo1-12.7-4;
m = min(d_tabw/1.8 + max(0,me), d_tabw/1.25);
d_ramp = f2c*(length*((d_height-2)/7+1)/12-r_f2)+d_wall2;
d_edge = ((gridx*length-0.5)/n_divx-d_tabw-r_fo1)/2;
n_st = gridz <= 3 ? 6 : d_edge < 2 && style_tab != 0 && style_tab != 6 ? 1 : style_tab == 1 && n_divx <= 1? 0 : style_tab;
n_x = (n_st==0?1:n_divx);
spacing = (gridx*length-0.5)/(n_divx);
shift = n_st==3?-1:n_st==5?1:0;
shiftauto = function (a,b) n_st!=2?0:a==1?-1:a==b?1:0;
xAll = function (a,b) true;
xCorner = function(a,b) (a==1||a==gridx)&&(b==1||b==gridy);
xEdge = function(a,b) (a==1)||(a==gridx)||(b==1)||(b==gridy);
xAuto = function(a,b) xCorner(a,b) || (a%2==1 && b%2 == 1);
xNone = function(a,b) false;
xFunc = [xAll, xCorner, xEdge, xAuto, xNone];
module gridfinityVase() {
$dh = d_height;
difference() {
union() {
difference() {
block_vase_base();
if (n_st != 6)
transform_style()
transform_vtab_base((n_st<2?gridx*length/n_x-0.5-r_fo1:d_tabw)-nozzle*4)
block_tab_base(-nozzle*sqrt(2));
}
if (enable_scoop_chamfer)
intersection() {
block_vase();
translate([0,gridy*length/2-0.25-d_wall2/2,d_height/2+0.1])
cube([gridx*length,d_wall2,d_height-0.2],center=true);
}
if (enable_funnel && gridz > 3)
pattern_linear((n_st==0?n_divx>1?n_divx:gridx:1), 1, (gridx*length-r_fo1)/(n_st==0?n_divx>1?n_divx:gridx:1))
transform_funnel()
block_funnel_outside();
if (n_divx > 1)
pattern_linear(n_divx-1,1,(gridx*length-0.5)/(n_divx))
block_divider();
if (n_divx < 1)
pattern_linear(n_st == 0 ? n_divx>1 ? n_divx-1 : gridx-1 : 1, 1, (gridx*length-r_fo1)/((n_divx>1 ? n_divx : gridx)))
block_tabsupport();
}
if (enable_funnel && gridz > 3)
pattern_linear((n_st==0?n_divx>1?n_divx:gridx:1), 1, (gridx*length-r_fo1)/(n_st==0?n_divx>1?n_divx:gridx:1))
transform_funnel()
block_funnel_inside();
if (!enable_lip)
translate([0,0,1.5*d_height])
cube([gridx*length,gridy*length,d_height], center=true);
block_x();
block_inset();
if (enable_pinch)
block_pinch();
if (bottom_layer <= 0)
translate([0,0,-50+layer+0.01])
cube([gridx*length*10,gridy*length*10,100], center=true);
}
}
module gridfinityBaseVase() {
difference() {
union() {
difference() {
intersection() {
block_base_blank(0);
translate([0,0,-h_base-1])
rounded_rectangle(length-0.5-0.005, length-0.5-0.005, h_base*10, r_fo1/2+0.001);
}
translate([0,0,0.01])
difference() {
block_base_blank(nozzle*4);
translate([0,0,-h_base])
cube([length*2,length*2,d_bottom*2],center=true);
}
// magic slice
rotate([0,0,90])
translate([0,0,-h_base+d_bottom+0.01])
cube([0.001,length*gridx,d_height+d_bottom*2]);
}
pattern_circular(4)
intersection() {
rotate([0,0,45])
translate([-nozzle,3,-h_base+d_bottom+0.01])
cube([nozzle*2,length*gridx,d_height+d_bottom*2]);
block_base_blank(nozzle*4-0.1);
}
if (enable_holes)
pattern_circular(4)
block_magnet_blank(nozzle);
}
if (enable_holes)
pattern_circular(4)
block_magnet_blank(0, false);
translate([0,0,h_base/2])
cube([length*2, length*2, h_base], center = true);
}
if (style_base != 4)
linear_extrude(d_bottom)
profile_x(0.1);
}
module block_magnet_blank(o = 0, half = true) {
translate([d_hole/2,d_hole/2,-h_base+0.1])
difference() {
hull() {
cylinder(r = r_hole2+o, h = h_hole*2, center = true);
cylinder(r = (r_hole2+o)-(h_base+0.1-h_hole), h = (h_base+0.1)*2, center = true);
}
if (half)
mirror([0,0,1])
cylinder(r=(r_hole2+o)*2, h = (h_base+0.1)*4);
}
}
module block_base_blank(o = 0) {
mirror([0,0,1]) {
hull() {
rounded_square(length-o-0.05-2*r_c2-2*r_c1, h_base, r_fo3/2);
rounded_square(length-o-0.05-2*r_c2, h_base-r_c1, r_fo2/2);
}
hull() {
rounded_square(length-o-0.05-2*r_c2, r_c2, r_fo2/2);
mirror([0,0,1])
rounded_square(length-o-0.05, d_bottom, r_fo1/2);
}
}
}
module block_pinch() {
sweep_rounded(gridx*length-2*r_base-0.5-0.001, gridy*length-2*r_base-0.5-0.001)
translate([r_base,0,0])
mirror([1,0,0])
translate([0,-(-d_height-h_base/2+r_c1),0])
copy_mirror([0,1,0])
difference() {
offset(delta = -nozzle*sqrt(2))
translate([0,-d_height-h_base/2+r_c1,0])
union() {
profile_wall_sub();
mirror([1,0,0])
square([10,d_height+h_base]);
}
translate([0,-50,0])
square([100,100], center = true);
translate([d_wall2-nozzle*2-d_clear*2,0,0])
square(r_c2*2);
}
}
module block_tabsupport() {
intersection() {
translate([0,0,0.1])
block_vase(d_height*4);
cube([nozzle*2, gridy*length, d_height*3], center=true);
transform_vtab_base(gridx*length*2)
block_tab_base(-nozzle*sqrt(2));
}
}
module block_divider() {
difference() {
intersection() {
translate([0,0,0.1])
block_vase();
cube([nozzle*2, gridy*length, d_height*2], center=true);
}
if (n_st == 0) block_tab(0.1);
else block_divider_edgecut();
// cut divider clearance on negative Y side
translate([-gridx*length/2,-(gridy*length/2-0.25),0])
cube([gridx*length,nozzle*2+0.1,d_height*2]);
// cut divider clearance on positive Y side
mirror([0,1,0])
if (enable_scoop_chamfer)
translate([-gridx*length/2,-(gridy*length/2-0.25),0])
cube([gridx*length,d_wall2+0.1,d_height*2]);
else block_divider_edgecut();
// cut divider to have clearance with scoop
if (enable_scoop_chamfer)
transform_scoop()
offset(delta = 0.1)
polygon([
[0,0],
[d_ramp,d_ramp],
[d_ramp,d_ramp+nozzle/sqrt(2)],
[-nozzle/sqrt(2),0]
]);
}
// divider slices
difference() {
for (i = [0:(d_height-d_bottom)/(layer)]) {
if (2*i*layer < d_height-layer/2-d_bottom-0.1)
mirror([0,1,0])
translate([0,(gridy*length/2-0.25-nozzle)/2,layer/2+d_bottom+2*i*layer])
cube([nozzle*2-0.01,gridy*length/2-0.25-nozzle,layer],center=true);
if ((2*i+1)*layer < d_height-layer/2-d_bottom-0.1)
translate([0,(gridy*length/2-0.25-nozzle)/2,layer/2+d_bottom+(2*i+1)*layer])
cube([nozzle*2-0.01,gridy*length/2-0.25-nozzle,layer],center=true);
}
// divider slices cut to tabs
if (n_st == 0)
transform_style()
transform_vtab_base((n_st<2?gridx*length/n_x-0.5-r_fo1:d_tabw)-nozzle*4)
block_tab_base(-nozzle*sqrt(2));
}
}
module block_divider_edgecut() {
translate([-50,-gridy*length/2+0.25,0])
rotate([90,0,90])
linear_extrude(100)
offset(delta = 0.1)
profile_wall_sub();
}
module transform_funnel() {
if (me > 6 && enable_funnel && gridz > 3 && n_st != 6)
transform_style()
render()
children();
}
module block_funnel_inside() {
intersection() {
block_tabscoop(m-nozzle*3*sqrt(2), 0.003, nozzle*2, 0.01);
block_tab(0.1);
}
}
module block_funnel_outside() {
intersection() {
difference() {
block_tabscoop(m, 0, 0, 0);
block_tabscoop(m-nozzle*4*sqrt(2), 0.003, nozzle*2, -1);
}
block_tab(-nozzle*sqrt(2)/2);
}
}
module block_vase_base() {
difference() {
// base
translate([0,0,-h_base]) {
translate([0,0,-0.1])
color("firebrick")
block_bottom(d_bottom, gridx, gridy, length);
color("royalblue")
block_wall(gridx, gridy, length) {
if (enable_lip) profile_wall();
else profile_wall2();
}
}
// magic slice
rotate([0,0,90])
mirror([0,1,0])
translate([0,0,d_bottom+0.001])
cube([0.001,length*gridx,d_height+d_bottom*2]);
}
// scoop piece
if (enable_scoop_chamfer)
transform_scoop()
polygon([
[0,0],
[d_ramp,d_ramp],
[d_ramp,d_ramp+0.6/sqrt(2)],
[-0.6/sqrt(2),0]
]);
// outside tab cutter
if (n_st != 6)
translate([-(n_x-1)*spacing/2,0,0])
for (i = [1:n_x])
translate([(i-1)*spacing,0,0])
translate([shiftauto(i,n_x)*d_edge + shift*d_edge,0,0])
intersection() {
block_vase();
transform_vtab_base(n_st<2?gridx*length/n_x-0.5-r_fo1:d_tabw)
profile_tab();
}
}
module profile_wall_sub_sub() {
polygon([
[0,0],
[nozzle*2,0],
[nozzle*2,d_height-1.2-d_wall2+nozzle*2],
[d_wall2-d_clear,d_height-1.2],
[d_wall2-d_clear,d_height+h_base],
[0,d_height+h_base]
]);
}
module block_inset() {
ixx = (gridx*length-0.5)/2;
iyy = d_height/1.875;
izz = sqrt(ixx^2+iyy^2)*tan(40);
if (enable_scoop_chamfer && enable_inset)
difference() {
intersection() {
rotate([0,90,0])
translate([-iyy,0,0])
block_inset_sub(iyy, gridx*length, 45);
rotate([0,90,0])
translate([-iyy,0,0])
rotate([0,90,0])
block_inset_sub(ixx, d_height*2, 45);
}
mirror([0,1,0])
translate([-gridx*length/2,-(gridy*length-0.5)/2+d_wall2-2*nozzle,0])
cube([gridx*length,izz,d_height*2]);
}
}
module block_inset_sub(x, y, ang) {
translate([0,(gridy*length-0.5)/2+r_fo1/2,0])
mirror([0,1,0])
linear_extrude(y,center=true)
polygon([[-x,0],[x,0],[0,x*tan(ang)]]);
}
module transform_style() {
translate([-(n_x-1)*spacing/2,0,0])
for (i = [1:n_x])
translate([(i-1)*spacing,0,0])
translate([shiftauto(i,n_x)*d_edge + shift*d_edge,0,0])
children();
}
module block_flushscoop() {
translate([0,gridy*length/2-d_wall2-nozzle/2-1,d_height/2])
linear_extrude(d_height)
union() {
copy_mirror([1,0,0])
polygon([[0,0],[gridx*length/2-r_fo1/2,0],[gridx*length/2-r_fo1/2,1],[gridx*length/2-r_fo1/2-r_c1*5,d_wall2-nozzle*2+1],[0,d_wall2-nozzle*2+1]]);
}
transform_scoop()
polygon([[0,0],[d_ramp,0],[d_ramp,d_ramp]]);
}
module profile_tab() {
union() {
copy_mirror([0,1,0])
polygon([[0,0],[d_tabh*cos(a_tab),0],[d_tabh*cos(a_tab),d_tabh*sin(a_tab)]]);
}
}
module profile_tabscoop(m) {
polyhedron([[m/2,0,0],[0,-m,0],[-m/2,0,0],[0,0,m]], [[0,2,1],[1,2,3],[0,1,3],[0,3,2]]);
}
module block_tabscoop(a=m, b=0, c=0, d=-1) {
translate([0,d_tabh*cos(a_tab)-length*gridy/2+0.25+b,0])
difference() {
translate([0,0,-d_tabh*sin(a_tab)*2+d_height+2.1])
profile_tabscoop(a);
translate([-gridx*length/2,-m,-m])
cube([gridx*length,m-d_tabh*cos(a_tab)+0.005+c,d_height*20]);
if (d >= 0)
translate([0,0,-d_tabh*sin(a_tab)+d_height+m/2+d+2.1])
cube([gridx*length,gridy*length,m],center=true);
}
}
module transform_vtab(a=0,b=1) {
transform_vtab_base(gridx*length/b-0.5-r_fo1+a)
children();
}
module transform_vtab_base(a) {
translate([0,d_tabh*cos(a_tab)-length*gridy/2+0.25,-d_tabh*sin(a_tab)+d_height+2.1])
rotate([90,0,270])
linear_extrude(a, center=true)
children();
}
module block_tab(del, b=1) {
transform_vtab(-nozzle*4, b)
block_tab_base(del);
}
module block_tab_base(del) {
offset(delta = del)
union() {
profile_tab();
translate([d_tabh*cos(a_tab),-d_tabh*sin(a_tab),0])
square([length,d_tabh*sin(a_tab)*2]);
}
}
module transform_scoop() {
intersection() {
block_vase();
translate([0,gridy*length/2-d_ramp,layer*max(bottom_layer*1)])
rotate([90,0,90])
linear_extrude(2*length*gridx,center=true)
children();
}
}
module block_vase(h = d_height*2) {
translate([0,0,-0.1])
rounded_rectangle(gridx*length-0.5-nozzle, gridy*length-0.5-nozzle, h, r_base+0.01-nozzle/2);
}
module profile_x(x_f = 3) {
difference() {
square([x_l,x_l],center=true);
pattern_circular(4)
translate([0,nozzle*sqrt(2),0])
rotate([0,0,45])
translate([x_f,x_f,0])
minkowski() {
square([x_l,x_l]);
circle(x_f);
}
}
}
module block_x() {
translate([-(gridx-1)*length/2,-(gridy-1)*length/2,0])
for (i = [1:gridx])
for (j = [1:gridy])
if (xFunc[style_base](i,j))
translate([(i-1)*length,(j-1)*length,0])
block_x_sub();
}
module block_x_sub() {
linear_extrude(d_bottom*2+0.01,center=true)
offset(0.05)
profile_x();
}

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<!DOCTYPE html>
<html class="writer-html5" lang="en" >
<head>
<meta charset="utf-8" />
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<a href="." class="icon icon-home"> Gridfinity Rebuilt
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<ul class="current">
</ul>
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<li class="toctree-l1"><a class="reference internal" href="bins/">Bins</a>
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<h2 id="introduction">Introduction</h2>
<p>Gridfinity rebuilt aims to remake the brilliant Gridfinity project from <a href="https://www.youtube.com/c/ZackFreedman/about">Zack Freedman</a> in a more robust and open-source way than the original Fusion 360 files. Many major CAD suites struggle with making parametric models constructed from linear patterns, due to changing fillet edges and seams. Thus, a pure mathematical approach using OpenSCAD can allow a single solution for all possible bin variants. </p>
<p>The project has expanded into more eccentric models that use modules from the original generator. This wiki aims to document these modules in great detail. </p>
<p>Models are generated subtractively. First, the solid bin and bases are constructed, and then the compartments and holes are removed. This allows for internal fillets that nearly match the originals. However, they are not exactly perfect. There are some fillets that are too small and too difficult to be worth implementing, as most printers do not have a high enough resolution for it to matter. </p>
<h2 id="getting-started">Getting Started</h2>
<p>For best results, use a version of OpenSCAD with the fast-csg feature. As of writing, this feature is only implemented in the <a href="https://openscad.org/downloads.html">development snapshots</a>. To enable the feature, go to Edit &gt; Preferences &gt; Features &gt; fast-csg. This can speed up rendering from 10 minutes down to a couple of seconds, even for comically large bins. It is not a requirement to use development versions of OpenSCAD. </p>
<p>Most files will come ready-to-run, so parameters can be changed using OpenSCAD's built-in customizer window, and the bins will automatically generate. However, all modules are packed up nicely, so any module can be imported into other files or have more custom modifications beyond tweaking the parameters. </p>
<h2 id="script-structure">Script Structure</h2>
<ul>
<li>Information (Imports / Script Details)</li>
<li>Parameters (Shown in Customizer)</li>
<li>Implementation (Executing the Parameters)</li>
<li>Construction (Script-Specific Modules and Constants)</li>
<li>Examples</li>
</ul>
<p>The two files which do not follow these conventions are <code>gridfinity-rebuilt-utility</code> and <code>gridfinity-rebuilt-constants</code>. These files are not meant to be exposed to the user, except for special requirements that the normal parameters cannot handle. Their respective wiki pages go into more depth. </p>
<p><strong>NOTE: This documentation is a work in progress, just like the rest of the repository, so parts may still be under construction.</strong></p>
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<h1 id="gridfinity-rebuilt-lite">gridfinity-rebuilt-lite</h1>
<p>Generates stock bins, but with a twist: the bases are hollow. This is unable to be implemented directly into <code>gridfinity-rebuilt-bins</code> due to its surprisingly complex construction. It couldn't be a toggle without causing the structure of the script to fundamentally change (and become more complex) so it was moved to a separate file. Notably, there are some parameters missing, as they are incompatible with the lite variation. Additionally, the complex geometry means rendering is fairly slow, and currently causes many CSG errors. </p>
<p><img alt="Bin" src="../images/lite.gif" /></p>
<h2 id="script-parameters">Script Parameters</h2>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the x-axis</td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the y-axis</td>
</tr>
<tr>
<td>gridz</td>
<td>{ n&gt;0 | n∈R }</td>
<td>bin height. See bin height information and "gridz_define" below.</td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
<tr>
<td>divx</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along X</td>
</tr>
<tr>
<td>divy</td>
<td>{ n&gt;0 | n∈Z }</td>
<td>number of compartments along Y</td>
</tr>
<tr>
<td>enable_zsnap</td>
<td>boolean</td>
<td>automatically snap the bin size to the nearest 7mm increment. <br> default: true</td>
</tr>
<tr>
<td>style_lip</td>
<td>{0, 1, 2}</td>
<td>if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height</td>
</tr>
<tr>
<td>gridz_define</td>
<td>{ n&gt;0 | n∈R }</td>
<td>determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters</td>
</tr>
<tr>
<td>style_tab</td>
<td>{ 0, 1, 2, 3, 4, 5 }</td>
<td>how the tabs for labels are generated. <br> • (0) Full tabs across the entire compartment <br> • (1) automatic tabs <br> - left aligned tabs on the left edge<br> - right aligned tabs on right edge<br> - center tabs otherwise <br> • (2) left aligned tabs <br> • (3) center aligned tabs <br> • (4) right aligned tabs <br> • (5) no tabs</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2, 3 }</td>
<td>the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit</td>
</tr>
<tr>
<td>div_base_x</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
<tr>
<td>div_base_y</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
</tbody>
</table>
<p><br></p>
<h2 id="modules">Modules</h2>
<hr />
<h3 id="gridfinitylite">gridfinityLite</h3>
<p>Wrapper function that calls <a href="../bins/#gridfinityInit"><code>gridfinityInit</code></a> and <a href="../bins/#gridfinityBase"><code>gridfinityBase</code></a> functions (hence the sheer quantity of parameters). Like <a href="../bins/#gridfinityInit"><code>gridfinityInit</code></a>, it uses its children as cutters for the compartments. </p>
<p><strong><code>gridfinityLite(gridx, gridy, gridz, gridz_define, enable_lip, enable_zsnap, length, div_base_x, div_base_y, style_hole)</code></strong></p>
<table>
<thead>
<tr>
<th>Parameter</th>
<th>Range</th>
<th>Description</th>
</tr>
</thead>
<tbody>
<tr>
<td>gridx</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the x-axis</td>
</tr>
<tr>
<td>gridy</td>
<td>{ n&gt;0 | n∈R }</td>
<td>number of bases along the y-axis</td>
</tr>
<tr>
<td>gridz</td>
<td>{ n&gt;0 | n∈R }</td>
<td>bin height. See bin height information and "gridz_define" below.</td>
</tr>
<tr>
<td>gridz_define</td>
<td>{ n&gt;0 | n∈R }</td>
<td>determine what the variable "gridz" applies to based on <br> your use case. default: 0. <br> • (0) gridz is the height in # of 7mm increments (Zack) <br> • (1) gridz is the internal height in millimeters <br> • (2) gridz is the overall external height of the bin in millimeters</td>
</tr>
<tr>
<td>style_lip</td>
<td>{0, 1, 2}</td>
<td>if you are not stacking the bin, you can disable the top lip <br> to save space. <br> • (0) Regular lip <br> • (1) Subtract lip to save space <br> • (2) Disable lip while retaining height</td>
</tr>
<tr>
<td>enable_zsnap</td>
<td>boolean</td>
<td>automatically snap the bin size to the nearest 7mm increment. <br> default: true</td>
</tr>
<tr>
<td>length</td>
<td>{ n&gt;0 | n∈R }</td>
<td>length of one unit of the base. <br> default: 42 (The Answer to the Ultimate Question of Life, <br>the Universe, and Everything.)</td>
</tr>
<tr>
<td>div_base_x</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the X axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
<tr>
<td>div_base_y</td>
<td>{ n&gt;=0 | n∈Z }</td>
<td>number of divisions per 1 unit of base along the Y axis. <br>(default 1, only use integers. <br>0 means automatically guess the division)</td>
</tr>
<tr>
<td>style_hole</td>
<td>{ 0, 1, 2, 3 }</td>
<td>the style of holes in the bases <br> • (0) No holes <br> • (1) Magnet holes only <br> • (2) Magnet and screw holes - no printable slit <br> • (3) Magnet and screw holes - with printable slit</td>
</tr>
</tbody>
</table>
<pre><code>// Example: generate a 3x3x6 bin with 2x2 compartments, that is hollow
gridfinityLite(gridx=3, gridy=3, gridz=6, gridz_define=0, enable_lip=true, enable_zsnap=false, length=42, div_base_x=0, div_base_y=0, style_hole=1) {
cutEqual(n_divx=2, n_divy=2, style_tab=1, enable_scoop = false);
}
</code></pre>
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</div>
<div role="main" class="document" itemscope="itemscope" itemtype="http://schema.org/Article">
<div class="section" itemprop="articleBody">
<h1 id="search">Search Results</h1>
<form id="content_search" action="search.html">
<span role="status" aria-live="polite" class="ui-helper-hidden-accessible"></span>
<input name="q" id="mkdocs-search-query" type="text" class="search_input search-query ui-autocomplete-input" placeholder="Search the Docs" autocomplete="off" autofocus title="Type search term here">
</form>
<div id="mkdocs-search-results" class="search-results" data-no-results-text="No results found">
Searching...
</div>
</div>
</div><footer>
<hr/>
<div role="contentinfo">
<!-- Copyright etc -->
</div>
Built with <a href="https://www.mkdocs.org/">MkDocs</a> using a <a href="https://github.com/readthedocs/sphinx_rtd_theme">theme</a> provided by <a href="https://readthedocs.org">Read the Docs</a>.
</footer>
</div>
</div>
</section>
</div>
<div class="rst-versions" role="note" aria-label="Versions">
<span class="rst-current-version" data-toggle="rst-current-version">
</span>
</div>
<script>var base_url = '.';</script>
<script src="./js/theme_extra.js" defer></script>
<script src="./js/theme.js" defer></script>
<script src="./search/main.js" defer></script>
<script defer>
window.onload = function () {
SphinxRtdTheme.Navigation.enable(true);
};
</script>
</body>
</html>

3475
search/lunr.js Executable file

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109
search/main.js Executable file
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function getSearchTermFromLocation() {
var sPageURL = window.location.search.substring(1);
var sURLVariables = sPageURL.split('&');
for (var i = 0; i < sURLVariables.length; i++) {
var sParameterName = sURLVariables[i].split('=');
if (sParameterName[0] == 'q') {
return decodeURIComponent(sParameterName[1].replace(/\+/g, '%20'));
}
}
}
function joinUrl (base, path) {
if (path.substring(0, 1) === "/") {
// path starts with `/`. Thus it is absolute.
return path;
}
if (base.substring(base.length-1) === "/") {
// base ends with `/`
return base + path;
}
return base + "/" + path;
}
function escapeHtml (value) {
return value.replace(/&/g, '&amp;')
.replace(/"/g, '&quot;')
.replace(/</g, '&lt;')
.replace(/>/g, '&gt;');
}
function formatResult (location, title, summary) {
return '<article><h3><a href="' + joinUrl(base_url, location) + '">'+ escapeHtml(title) + '</a></h3><p>' + escapeHtml(summary) +'</p></article>';
}
function displayResults (results) {
var search_results = document.getElementById("mkdocs-search-results");
while (search_results.firstChild) {
search_results.removeChild(search_results.firstChild);
}
if (results.length > 0){
for (var i=0; i < results.length; i++){
var result = results[i];
var html = formatResult(result.location, result.title, result.summary);
search_results.insertAdjacentHTML('beforeend', html);
}
} else {
var noResultsText = search_results.getAttribute('data-no-results-text');
if (!noResultsText) {
noResultsText = "No results found";
}
search_results.insertAdjacentHTML('beforeend', '<p>' + noResultsText + '</p>');
}
}
function doSearch () {
var query = document.getElementById('mkdocs-search-query').value;
if (query.length > min_search_length) {
if (!window.Worker) {
displayResults(search(query));
} else {
searchWorker.postMessage({query: query});
}
} else {
// Clear results for short queries
displayResults([]);
}
}
function initSearch () {
var search_input = document.getElementById('mkdocs-search-query');
if (search_input) {
search_input.addEventListener("keyup", doSearch);
}
var term = getSearchTermFromLocation();
if (term) {
search_input.value = term;
doSearch();
}
}
function onWorkerMessage (e) {
if (e.data.allowSearch) {
initSearch();
} else if (e.data.results) {
var results = e.data.results;
displayResults(results);
} else if (e.data.config) {
min_search_length = e.data.config.min_search_length-1;
}
}
if (!window.Worker) {
console.log('Web Worker API not supported');
// load index in main thread
$.getScript(joinUrl(base_url, "search/worker.js")).done(function () {
console.log('Loaded worker');
init();
window.postMessage = function (msg) {
onWorkerMessage({data: msg});
};
}).fail(function (jqxhr, settings, exception) {
console.error('Could not load worker.js');
});
} else {
// Wrap search in a web worker
var searchWorker = new Worker(joinUrl(base_url, "search/worker.js"));
searchWorker.postMessage({init: true});
searchWorker.onmessage = onWorkerMessage;
}

1
search/search_index.json Executable file

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133
search/worker.js Executable file
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var base_path = 'function' === typeof importScripts ? '.' : '/search/';
var allowSearch = false;
var index;
var documents = {};
var lang = ['en'];
var data;
function getScript(script, callback) {
console.log('Loading script: ' + script);
$.getScript(base_path + script).done(function () {
callback();
}).fail(function (jqxhr, settings, exception) {
console.log('Error: ' + exception);
});
}
function getScriptsInOrder(scripts, callback) {
if (scripts.length === 0) {
callback();
return;
}
getScript(scripts[0], function() {
getScriptsInOrder(scripts.slice(1), callback);
});
}
function loadScripts(urls, callback) {
if( 'function' === typeof importScripts ) {
importScripts.apply(null, urls);
callback();
} else {
getScriptsInOrder(urls, callback);
}
}
function onJSONLoaded () {
data = JSON.parse(this.responseText);
var scriptsToLoad = ['lunr.js'];
if (data.config && data.config.lang && data.config.lang.length) {
lang = data.config.lang;
}
if (lang.length > 1 || lang[0] !== "en") {
scriptsToLoad.push('lunr.stemmer.support.js');
if (lang.length > 1) {
scriptsToLoad.push('lunr.multi.js');
}
if (lang.includes("ja") || lang.includes("jp")) {
scriptsToLoad.push('tinyseg.js');
}
for (var i=0; i < lang.length; i++) {
if (lang[i] != 'en') {
scriptsToLoad.push(['lunr', lang[i], 'js'].join('.'));
}
}
}
loadScripts(scriptsToLoad, onScriptsLoaded);
}
function onScriptsLoaded () {
console.log('All search scripts loaded, building Lunr index...');
if (data.config && data.config.separator && data.config.separator.length) {
lunr.tokenizer.separator = new RegExp(data.config.separator);
}
if (data.index) {
index = lunr.Index.load(data.index);
data.docs.forEach(function (doc) {
documents[doc.location] = doc;
});
console.log('Lunr pre-built index loaded, search ready');
} else {
index = lunr(function () {
if (lang.length === 1 && lang[0] !== "en" && lunr[lang[0]]) {
this.use(lunr[lang[0]]);
} else if (lang.length > 1) {
this.use(lunr.multiLanguage.apply(null, lang)); // spread operator not supported in all browsers: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Spread_operator#Browser_compatibility
}
this.field('title');
this.field('text');
this.ref('location');
for (var i=0; i < data.docs.length; i++) {
var doc = data.docs[i];
this.add(doc);
documents[doc.location] = doc;
}
});
console.log('Lunr index built, search ready');
}
allowSearch = true;
postMessage({config: data.config});
postMessage({allowSearch: allowSearch});
}
function init () {
var oReq = new XMLHttpRequest();
oReq.addEventListener("load", onJSONLoaded);
var index_path = base_path + '/search_index.json';
if( 'function' === typeof importScripts ){
index_path = 'search_index.json';
}
oReq.open("GET", index_path);
oReq.send();
}
function search (query) {
if (!allowSearch) {
console.error('Assets for search still loading');
return;
}
var resultDocuments = [];
var results = index.search(query);
for (var i=0; i < results.length; i++){
var result = results[i];
doc = documents[result.ref];
doc.summary = doc.text.substring(0, 200);
resultDocuments.push(doc);
}
return resultDocuments;
}
if( 'function' === typeof importScripts ) {
onmessage = function (e) {
if (e.data.init) {
init();
} else if (e.data.query) {
postMessage({ results: search(e.data.query) });
} else {
console.error("Worker - Unrecognized message: " + e);
}
};
}

33
sitemap.xml Executable file
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<?xml version="1.0" encoding="UTF-8"?>
<urlset xmlns="http://www.sitemaps.org/schemas/sitemap/0.9">
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
<url>
<loc>None</loc>
<lastmod>2023-02-14</lastmod>
<changefreq>daily</changefreq>
</url>
</urlset>

BIN
sitemap.xml.gz Executable file

Binary file not shown.

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