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https://github.com/adamws/kicad-kbplacer

KiCad plugin for automatic keyboard's key placement and routing
https://github.com/adamws/kicad-kbplacer

action-plugin keyboard kicad kicad-plugin mechanical-keyboard pcbnew

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KiCad plugin for automatic keyboard's key placement and routing

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README 

        
# ![icon](resources/icon-github.png) kicad-kbplacer



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KiCad plugin for mechanical keyboard design. It features automatic key placement and routing

based on popular layout descriptions from [keyboard-layout-editor](http://www.keyboard-layout-editor.com/)

and [ergogen](https://github.com/ergogen/ergogen).



**Table of Contents**

- [Motivation](#motivation)

- [Features](#features)

- [Installation](#installation)

  - [As KiCad plugin](#installation-as-kicad-plugin)

  - [As python package](#installation-as-python-package)

- [Use from KiCad](#how-to-use-from-kicad)

  - [Options overview](#options-overview)

  - [Diode placement and routing](#diode-placement-and-routing)

  - [Track templating](#track-templating)

  - [Additional elements placement](#additional-elements-placement)

  - [Building board outline](#building-board-outline)

  - [Run without layout](#run-without-layout)

- [Use from CLI or from another tools](#how-to-use-from-cli-or-another-tools)

  - [Run as a script](#run-as-a-script)

  - [Use in python projects](#use-in-python-projects)

- [Demo keyboard project](#demo-keyboard-project)

- [Troubleshooting](#troubleshooting)

  - [Plugin does not load](#plugin-does-not-load)

  - [Plugin misbehaves or crashes](#plugin-misbehaves-or-crashes)





## Motivation



All PCB's for mechanical keyboards shares common properties which creates great

opportunity for scripting. Although this project does not aim to provide

complete automatic PCB generation tool it speeds up development process

by reducing tedious element placement and routing tasks.





## Features



- Automatic keys and diodes placement

- Track routing and track template replication

- Support for KLE, [VIA](https://www.caniusevia.com/docs/layouts), [QMK](https://docs.qmk.fm/reference_info_json#layouts) and [ergogen](https://github.com/ergogen/ergogen) inputs

- User selectable diode position in relation to key position

- Configurable additional elements placement

- Board outline generation



> [!WARNING]

> Ergogen support is new experimental feature and it has not been tested extensively



![demo](resources/demo.gif)



Some examples can be found in [examples](./examples) directory.



**See also:**



:link: [Keyboard PCB design with ergogen and kbplacer](https://adamws.github.io/keyboard-pcb-design-with-ergogen-and-kbplacer/)





## Installation





### As KiCad plugin



To install release version of this plugin, use KiCad's `Plugin and Content Manager`

and select `Keyboard footprints placer` from official plugin repository.



![pcm](resources/pcm.png)



To install development version, see how to use [custom plugin repository](./docs/custom_repository.md).

Custom repository is automatically updated with latest `master` branch builds

and it is available [here](https://adamws.github.io/kicad-kbplacer).



For development activities, it is recommended to checkout this repository and copy (or link)

content of `kbplacer` directory to one of the KiCad's plugin search paths.

For more details see [this](https://dev-docs.kicad.org/en/apis-and-binding/pcbnew/) guide.



After installation, plugin can be started by clicking plugin icon on the toolbar:



![plugin-icon-on-toolbar](resources/plugin-icon-on-toolbar.png)



or selecting it from `Tools -> External Plugins` menu.

For more details about plugin usage see [Use from KiCad](#how-to-use-from-kicad) section.





### As python package



The `kbplacer` can be installed with pip:



```shell

pip install kbplacer

```



When installed this way, it **can't** be launched from KiCad as KiCad plugin.

This option exist for usage via command line interface or for integrating with

another tools.



Command line interface provides more options but generally it is recommended for

more advanced users. For example it allows to create PCBs without schematic,

which is non-typical KiCad workflow.

For details see [Use from CLI or from another tools](#how-to-use-from-cli-or-another-tools) section.



> [!IMPORTANT]

> Most of the `kbplacer` python package functionalities depends on `pcbnew` package

> which is distributed as part of KiCad installation.

> This means, that on Windows it is **required** to use python bundled with KiCad.

> On Linux, `pcbnew` package should be available globally (this can be verified by

> running `python -c "import pcbnew; print(pcbnew.Version())"`) so it may not work

> inside isolated environment. To install inside virtual environment created with `venv`

> it is required to use `--system-site-package` option when creating this environment.



> [!NOTE]

> Both installation methods can be used simultaneously. When installed as KiCad plugin,

> some scripting capabilities are still available, but in order to use `kbplacer`

> in another python scripts, installing as python package is required.





## Use from KiCad



This is _traditional_ way of using this tool. Before it can be used on `kicad_pcb` project

file, user needs to create it and populate with footprints. In typical KiCad workflow

this is started by creating schematic. When PCB file is ready, user can start `kbplacer`

plugin in GUI mode from KiCad and run it with selected options.

To use this tool in this way, it needs to be installed following [plugin installation guide](#as-kicad-plugin).



- Create switch matrix schematic which meets following requirements:

  - Each switch has connected diode

    - Diodes can be connected in either direction. Track router attempts to connect

      closest (to each other) pads of switch and diode as long as both have same `netname`,

      i.e. are connected on the schematic

    - Each switch can have multiple diodes

  - Symbols are ordered by Y position.

      - :warning: This annotation scheme might not work well for certain 'ergo' layouts.

      - Annotation order is ignored when using layout with mapping to matrix defined

        (see [VIA](https://www.caniusevia.com/docs/layouts#switch-matrix-co-ordinates)

        specification).



    To learn more see [annotation guide](./docs/annotation_guide.md).



  ![schematic-example](resources/schematic-example.png)



- Create new PCB and load netlist

- Obtain json layout file from [keyboard-layout-editor](http://www.keyboard-layout-editor.com/) or

  convert [ergogen](https://github.com/ergogen/ergogen) points file to json



  

  keyboard-layout-editor details



    ![kle-download](resources/kle-download.png)



    Plugin supports internal [kle-serial](https://github.com/ijprest/kle-serial) layout files

    and [via](https://www.caniusevia.com/docs/layouts) files.

    Detection of layout format will be done automatically.

    Conversion between layout downloaded from keyboard-layout-editor and its internal form

    can be done with [https://adamws.github.io/kle-serial](https://adamws.github.io/kle-serial/)

    or [keyboard-tools.xyz/kle-converter](http://keyboard-tools.xyz/kle-converter)



    > [!NOTE]

    > When using `via` layouts, switch matrix **must** be annotated according to `via` rules.

    > If layout supports [multiple layout of keys](https://www.caniusevia.com/docs/layouts#layout-options)

    > only the default one will be used by `kicad-kbplacer`.



  



  

  ergogen details



    - open your design in https://ergogen.cache.works/ and download `points.yaml`



      ![ergogen-points](resources/ergogen-points.png)



    - convert `yaml` to `json` (this operation is not integrated with `kicad-kbplacer` source

      because it would require installation of third-party `pyyaml` package and there is no

      good way to manage plugin dependencies yet)

      - you can use online converter, for example https://jsonformatter.org/yaml-to-json

    - converted file should be automatically recognized in next steps



  



- Run `kicad-kbplacer` plugin

- Select json layout file and plugin options and click OK.



  ![plugin-gui](resources/plugin-gui.png)



It is possible to run this plugin from command line. Everything which can be done via GUI can

be also achieved using command line.

Execute following command (in the directory where plugin is installed) to get more details:



```

python -m com_github_adamws_kicad-kbplacer --help

```



> [!IMPORTANT]

> On windows, use python bundled with KiCad





### Options overview



  

    Section

    Label

    Description

  

  

    Switch settings

    Keyboard layout file

    

      Layout file path. Supports keyboard-layout-editor

      json layouts in both raw and internal form, via

      and qmk json layouts and ergogen

      canonical yaml points files converted to json.

      Can be empty to run without switch footprints placement.

    

  

  

    Step X / Step Y

    

      Distance (in millimeters) of 1U between two switches in X and Y directions.

    

  

  

    Footprint Annotation

    

      The switch footprint annotation format with single replacement field {}

      which will get replaced with incremented footprint number.

      This string is internally used by python's str.format function.

    

  

  

    Orientation

    

      Angle (in degrees) of switch footprints.

    

  

  

    Side

    

      Selects Front or Back side of the board.

    

  

  

    Switch diodes settings

    Allow autoplacement

    

      Enables automatic diodes positioning. When turned on, each diode will be placed

      next to the switch footprint with common net, according to the position

      settings. When disabled, diodes will not be moved.

      If any switch has more than one diode, then Default and Custom

      position options are not supported.

    

  

  

    Route with switches

    

      Enables automatic routing of switch-diode pairs. If user manually route first pair,

      then it replicates the connection for remaining pairs. If not, uses automatic

      internal router. When automatic router used, attempts to connect only two closest

      pads of the same net.

    

  

  

    Footprint annotation

    

      The diode annotation format. Same rules as for switch footprint annotation applies.

    

  

  

    Position

    

      Diode position option with three possible choices:


Default - positions diodes to default position


Custom - positions diodes based on user defined values


Relative - uses first switch-diode pair to get relative position

      between them and uses that as reference position for remaining pairs


Preset - uses provided kicad_pcb template

      file to get relative position and tracks for replication for all

      switch-diode pairs

    

  

  

    Offset X/Y

    

      Distance (in millimeters) from the center of switch footprint to the center of diode footprint.

      Accepts floating values with . (dot) decimal separator.

      Applicable only for Custom position option.

    

  

  

    Orientation

    

      Angle (in degrees) of diode footprint. If switch is rotated it will be automatically

      adjusted to match switch rotation

      Applicable only for Custom position option.

    

  

  

    Side

    

      Selects Front or Back side of the board.

      Applicable only for Custom position option.

    

  

  

    Load from/Save to

    

      The preset kicad_pcb file path to use when position option is equal Preset

      or optional file path to store current position and tracks when position option

      is equal Relative.

    

  

  

    Additional elements settings

    -

    

      This is equivalent of Switch diodes settings section with these exceptions:

      1) It is possible to add/subtract elements from the list using +/- buttons

      2) Allow autoplacement option is missing, footprints which should not be moved

      should not be added to the list

      3) Footprints from this sections are not routed

    

  

  

    Other settings

    Route rows and columns

    

      Enables/disables automatic routing of keyboard switch matrix.

      Works by finding all pads with nets matching COL(\d+) and

      ROW(\d+) regular expressions (ignoring case) and connecting them

      using simplified internal router. Configuration of row/column naming scheme

      is not yet supported.

    

  

  

    Controller template circuit file

    

      Path to kicad_pcb template file which can be used for placing/routing

      repetitive parts of the PCBs. It is expected that user creates own templates.

      This is optional and not very well documented process.

    

  

  

    Build board outline

    

      Enables/disables board outline creation based on selected footprints (if any)

      or all switch footprints.

      Using selected footprints is supported only for KiCad 7 or above.

    

  

  

    Outline delta

    

      The amount (in millimeters) to inflate/deflate generated outline shape.

    

  





### Diode placement and routing



By default diodes are placed like shown below. This placement may not work for all switch and diode

footprints combinations.



Before | After

--- | ---

![default-before](resources/default-before.png) | ![default-after](resources/default-after.png)



To use custom diode position there are two available options. Either select `Custom` in `Position` dropdown

and define `X/Y offset`, `Orientation` and `Front` or `Back` side:



  ![custom-position-example](resources/custom-position-example.png)



or manually place `D1` diode to desired position in relation to first switch and run plugin with

`Relative` `Position` option selected.



  ![current-relative-position-example](resources/current-relative-position-example.png)



Remaining switch-diode pairs will be placed same as the first one.

To save current template, set `Save to` path. This can be later re-used with `Preset` `Position` option.



Before | After

--- | ---

![custom-before](resources/custom-before.png) | ![custom-after](resources/custom-after.png)



Some custom diodes positions may be to difficult for router algorithm.

In the above example it managed to connect diodes to switches but failed to connect diodes together.



Switch-to-diode routing is not done with proper auto-routing algorithm and it is very limited.

It attempts to create track in the shortest way (using 45° angles) and doesn't look for other options

if there is a collision, leaving elements unconnected.





### Track templating



If first switch-diode pair is routed before plugin execution, as shown below, `kicad-kbplacer` instead of

using it's built in routing algorithm, will copy user's track. This allow to circumvent plugin's router

limitations. This is applicable only for `Relative` `Position` option or when diode placement disabled

(with `Allow autoplacement` unticked). The latter is suited mostly for routing boards generated with

`ergogen`. When using `Relative Position` and `Save to` path defined, tracks will be stored in template.

Then it can be re-used when using `Preset` `Position` option.



Before | After

--- | ---

![custom-with-track-before](resources/custom-with-track-before.png) | ![custom-with-track-after](resources/custom-with-track-after.png)



> [!NOTE]

> Track templating is recommended for more complicated switch footprints, for example reversible kailh.

> When switch footprint has multiple pads with the same net name, automatic router would try to connect

> only the two closest pads between diode and switch.



Below [example](./examples/2x3-rotations-custom-diode-with-track-and-complex-footprint) shows more complicated custom diode position with track template pre-routed by the user.

Manual work needs to be done only for first switch-diode pair, plugin will replicate layout for the

remaining pairs:



![track-template-comples](resources/track-template-complex.png)



> [!WARNING]

> All footprints for diodes and switches **must** have same pad layouts, otherwise connection replication

> may yield unexpected results





### Additional elements placement



In case additional elements need to be automatically placed next to corresponding switches (for example

stabilizer footprints if not integral part of switch footprint, or RGB LEDs), define entries

in `Additional elements settings` section. It behaves very similarly to switch diodes options with few exceptions:



- corresponding switch is matched based on annotation number and not net code

- there is no default position defined

- there is no track routing





### Building board outline



The `kicad-kbplacer` plugin is capable of generating board edges around selected footprints

or all switches footprints (matched using `Switch Settings - Annotation Footprint` value).

It uses convex hull algorithm to calculate outline and allows to specify additional

increase/decrease amount by `Outline delta` value.



Outline delta 2.0mm | Outline delta -1.0mm

--- | ---

![board-outline-plus2](resources/board-outline-plus2.png) | ![board-outline-minus1](resources/board-outline-minus1.png)



> [!IMPORTANT]

> To build outline using selected footprints, selection must be done before launching plugin

> and KiCad 7 or above must be used





### Run without layout



Creating tracks, placing switch associated elements (like diodes) or building board outline

does not require layout file.

With empty `Keyboard layout file` field, switch placement is simply skipped.

Placing and routing of other elements will use already placed switches as reference points

and won't move them. This might be useful for PCB files generated by other tools,

for example [ergogen](https://github.com/ergogen/ergogen).



This works with custom diode positions and [track templating](#track-templating).





## Use from CLI or from another tools





### Run as a script



The `kbplacer` module might be executed as a script using python's `-m` command line option.



```shell

python -m kbplacer

```



This is command line equivalent of running this tool as KiCad plugin but without GUI interface.

Run it with `--help` option to get more details about options and CLI usage.



#### Layout format conversion script



The `kbplacer` is capable of converting layouts between various formats.

For example, to convert ergogen point file to KLE layout file:



```shell

python -m kbplacer.kle_serial \

  -in tests/data/ergogen-layouts/absolem-simple-points.yaml -inform ERGOGEN_INTERNAL \

  -out $(pwd)/absolem-kle.json -outform KLE_RAW

```



This command generates [this](./tests/data/ergogen-layouts/absolem-simple-reference.json) file

which can be loaded by keyboard-layout-editor website.



In case of VIA-like annotated layouts there is an option to perform 'collapse' operation.



```shell

python -m kbplacer.kle_serial \

  -in tests/data/via-layouts/wt60_d.json -inform KLE_VIA \

  -out $(pwd)/wt60_d-internal-collapsed.json -outform KLE_INTERNAL -collapse

```



    

        Before collapse

        After collapse

    

    

        

        

    



Layout collapsing moves keys to theirs final physical position and removes

duplicates. Key is considered duplicate when there is another key of same

matrix position and size.



#### Extra tools



The `kbplacer` is used by additional tools available in [tools](tools/README.md) directory.



    

        Tool

        Example result

    

    

        layout2image.py - generates KLE-like image for layout

        

    

    

        layout2schematic.py - generates KiCad schematic file with switch matrix

        

    

    

        layout2url.py - small utility to generate KLE url

        

            To open new firefox tab with layout using keyboard-layout-editor run

            python layout2url.py -in kle.json | xargs firefox

            Example result: url

        

    





### Use in python projects



Some `kbplacer` functionality might be reused in another projects.

For example, to parse raw KLE data to it's internal form run:



``` python

from kbplacer.kle_serial import parse_kle

keyboard = parse_kle([["", ""]])

print(f"This keyboard has only {len(keyboard.keys)} keys")

```



The `kbplacer` API is used in following projects:



- [keyboard-pcbs](https://adamws.github.io/keyboard-pcbs/) ([repository](https://github.com/adamws/keyboard-pcbs)) -

benchmark for `kbplacer` - website with collection of pre-generated KiCad projects (both

schematics and PCB files) based on [via](https://github.com/the-via/keyboards) layouts.

Combines usage of `kbplacer` KiCad plugin and accompanying [tools](tools/README.md).

- [keyboard-tools](https://keyboard-tools.xyz/) ([repository](https://github.com/adamws/keyboard-tools)) -

website for generating PCB files from user uploaded layout files, combines `kbplacer` plugin

with [skidl](https://devbisme.github.io/skidl/) and aims to introduce no-schematic workflows

or provide decent starting point for traditional KiCad projects.



Creating keyboard PCB file from scratch (without skidl or using schematic generated with

`layout2schematic` tool) is also possible using `kbplacer` CLI interface although it is

currently considered experimental.





## Demo keyboard project



For example keyboard project see `demo` directory. This project contains 4x4 switch matrix with

layout json files in raw (`kle.json`) and internal (`kle_internal.json`) formats.

It requires [keyswitch-kicad-library](https://github.com/perigoso/keyswitch-kicad-library) to be installed.

Use this project to validate plugin installation.





## Troubleshooting





### Plugin does not load



If plugin does not appear on the `Tools -> External Plugins` menu and its icon is missing on toolbar,

launch python scripting console `Tools -> Scripting Console` and type:



```

import pcbnew; pcbnew.GetWizardsBackTrace()

```



This should return backtrace with an information about the fault. Include this information in bug report.





### Plugin misbehaves or crashes



- Read stacktrace in error pop-up

- See `kbplacer.log` file, created in PCB directory



For bug reports please use [this template](https://github.com/adamws/kicad-kbplacer/issues/new?template=bug_report.md).