Metadata-Version: 2.1
Name: KiKit
Version: 0.4
Summary: Automation for KiCAD boards
Home-page: https://github.com/yaqwsx/KiKit
Author: Jan Mrázek
Author-email: email@honzamrazek.cz
License: UNKNOWN
Description: # KiKit - Automation for KiCAD
        
        KiKit is a Python library and CLI tool to automate several tasks in a standard
        KiCAD workflow like:
        
        - panelization of the boards (see [examples](doc/examples.md))
        - exporting manufacturing data
        - building board presentation pages (see [an example presentation page generated
          by KiKit](https://roboticsbrno.github.io/RB0002-BatteryPack))
        
        ![KiKit Promo](https://github.com/yaqwsx/KiKit/blob/master/doc/resources/promo.jpg?raw=true)
        
        ## Do You Enjoy KiKit?
        
        [![ko-fi](https://www.ko-fi.com/img/githubbutton_sm.svg)](https://ko-fi.com/E1E2181LU)
        
        ## Installation
        
        KiKit is available as a [PyPi package](https://pypi.org/project/KiKit/), therefore, you can install it via pip:
        
        ```
        pip3 install kikit
        ```
        
        ## Why Should I Use It?
        
        Everything KiKit does, can also be done via Pcbnew in KiCAD. However, you have
        to do it manually. One of the common scenarios is the creation of panels. Most
        of the tutorials on the internet guide you to use the "append board"
        functionality of Pcbnew. However, this approach is labour-intensive, error-prone
        and whenever, you change the board, you have to do it again.
        
        With KiKit you just call a CLI command if you have a simple layout (e.g., a
        grid) or write few Python instructions like "place board here", "add bridge
        here", "separate boards via mouse bites/v-cuts" and you are done. The process is
        repeatable and actually much simpler than hand-drawing the panels. KiKit also
        allows you to easily export all the Gerbers in a single step.
        
        You can then write a Makefile and simply call `make` to get all your
        manufacturing data and board presentation pages.
        
        
        See [BatteryPack](https://github.com/RoboticsBrno/RB0002-BatteryPack) as an
        example usage of KiKit. Also see [an example presentation page generated by
        KiKit](https://roboticsbrno.github.io/RB0002-BatteryPack).
        
        ## Feature List
        
        - create panels by appending boards and pieces of substrate (bridges)
        - supports board with arbitrary shapes
        - easily create mouse-bites/V-CUTS
        - compared to hand-creation of panels, your panels will pass DRC (as tracks from
          different instances of the same board have distinct nets when using KiKit)
        - if you have multiple boards in a single file, you can split them
        - automated export of gerber files
        
        ## How To Use It?
        
        Read the [CLI documentation](doc/cli.md) and the [panelize
        documentation](doc/panelization.md). Also don't miss the
        [examples](doc/examples.md).
        
        ## How To Use It CI?
        
        To use KiKit in CI (e.g., Travis) you can use prepared Docker image
        `yaqwsx/kikit`. Also see [example `.travis.yml`](https://github.com/RoboticsBrno/RB0002-BatteryPack/blob/master/.travis.yml).
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
