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Save urish/9c5b4aea6362da086541be14acdf0f72 to your computer and use it in GitHub Desktop.
| #!/usr/bin/env python3 | |
| # coding=utf8 | |
| # | |
| # Simple script to scale a KiCad footprint | |
| # Usage: | |
| # python kicad-resize-footprint.py <input.kicad_mod> <output.kicad_mod> <scale> | |
| # | |
| # Where scale is how much to scale (1 = 100%) | |
| # | |
| # Copyright (C) 2020, Uri Shaked. | |
| import sys | |
| import re | |
| scale = float(sys.argv[3]) | |
| def scalexy(val): | |
| x = float(val.group(1)) * scale | |
| y = float(val.group(2)) * scale | |
| return '(xy {} {})'.format(x, y) | |
| with open(sys.argv[1], 'r') as in_file, open(sys.argv[2], 'w', newline='') as out_file: | |
| for line in in_file: | |
| line = re.sub(r'\(xy ([0-9-.]+) ([0-9-.]+)\)', scalexy, line) | |
| out_file.write(line) |
But! How to use it?
Hi @mohammadsdtmnd,
I created a web application implementing this script using Streamlit. You can use it by going to the following URL:
https://inputblackboxoutput-kicad-footprint-resizer-app-bj5g74.streamlitapp.com/
Have fun!
Hi @mohammadsdtmnd,
I created a web application implementing this script using Streamlit. You can use it by going to the following URL: https://inputblackboxoutput-kicad-footprint-resizer-app-bj5g74.streamlitapp.com/
Have fun!
I tried the python script and the web version. Neither make a single line change. I am giving it a schematic file straight from KiCad's default files. I'll repeat just in-case. NEITHER the web version or the python version work for a default KiCad .kicad_mod footprint. If you want to know, it was a DIP-28 footprint. I tried an SSOP-28 as well which had the same result.
the kicad files don't seem to use "xy" before the coords, so I made some light changes that worked for me (start, end, width, size). Wasn't elegant, but it did the trick for me.
I looked into the .kicad_mod files. Apparently the script provided above can only resize footprints generated by the image converter tool in KiCAD. I did not notice it till now since I mostly used this tool only for custom image footprints generated by the latter mentioned tool.
The following script will most likely rescale all footprints
import sys
import re
def scale_start(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(start {x} {y})'
def scale_mid(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(mid {x} {y})'
def scale_center(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(center {x} {y})'
def scale_end(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(end {x} {y})'
def scale_width(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(width {x} {y})'
def scale_size(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(size {x} {y})'
def scale_xy(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(xy {x} {y})'
def scale_at(val):
x = float(val.group(1)) * scale
y = float(val.group(2)) * scale
return f'(at {x} {y}'
def scale_drill(val):
x = float(val.group(1)) * scale
return f'(drill {x})'
def scale_width(val):
x = float(val.group(1)) * scale
return f'(width {x})'
def scale_thickness(val):
x = float(val.group(1)) * scale
return f'(thickness {x})'
def process_line(line):
line = re.sub(r'\(start ([0-9-.]+) ([0-9-.]+)\)', scale_start, line)
line = re.sub(r'\(mid ([0-9-.]+) ([0-9-.]+)\)', scale_mid, line)
line = re.sub(r'\(center ([0-9-.]+) ([0-9-.]+)\)', scale_center, line)
line = re.sub(r'\(end ([0-9-.]+) ([0-9-.]+)\)', scale_end, line)
line = re.sub(r'\(width ([0-9-.]+) ([0-9-.]+)\)', scale_width, line)
line = re.sub(r'\(size ([0-9-.]+) ([0-9-.]+)\)', scale_size, line)
line = re.sub(r'\(xy ([0-9-.]+) ([0-9-.]+)\)', scale_xy, line)
line = re.sub(r'\(at ([0-9-.]+) ([0-9-.]+)', scale_at, line)
line = re.sub(r'\(drill ([0-9-.]+)\)', scale_drill, line)
line = re.sub(r'\(width ([0-9-.]+)\)', scale_width, line)
line = re.sub(r'\(thickness ([0-9-.]+)\)', scale_thickness, line)
return line
if __name__ == "__main__":
scale = float(sys.argv[3])
with open(sys.argv[1], 'r') as in_file, open(sys.argv[2], 'w', newline='') as out_file:
for line in in_file:
out_file.write(process_line(line))PS: Thanks @ThisIsRobokitty for finding out the issue and recommending the solution
I have also modified the Streamlit web application hosted at the following URL:
Thanks for the amazing script!
Saved me the troubles of redesigning symbols for a very small PCB