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python script to generate .pdf and .gerber files from a kicad project
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MIT License | |
Copyright (c) [spuder] 2022 | |
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. |
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''' | |
Heavily borrowed from this location: https://github.com/blairbonnett-mirrors/kicad/blob/master/demos/python_scripts_examples/plot_board.py | |
Parameters | |
Takes 2 parameters | |
1. Path to kicad file | |
2. Location of where to save pdfs | |
A python script example to create various plot files from a board: | |
Fab files | |
Doc files | |
Gerber files | |
Important note: | |
this python script does not plot frame references. | |
the reason is it is not yet possible from a python script because plotting | |
plot frame references needs loading the corresponding page layout file | |
(.wks file) or the default template. | |
This info (the page layout template) is not stored in the board, and therefore | |
not available. | |
Do not try to change SetPlotFrameRef(False) to SetPlotFrameRef(true) | |
the result is the pcbnew lib will crash if you try to plot | |
the unknown frame references template. | |
Usage | |
There are 4 main lines that generate a file. e.g.. | |
pctl.SetLayer(F_SilkS) | |
pctl.OpenPlotfile("Silk", PLOT_FORMAT_PDF, "Assembly guide") | |
pctl.PlotLayer() | |
pctl.ClosePlot() | |
The first line takes the F.Silks layer | |
The second line takes 3 parameters (file-name-append, file type, unknown) | |
The third line actually plots the layer | |
The forth line reads the temp file and writes it out to a pdf | |
You can write to the following formats | |
PLOT_FORMAT_SVG | |
PLOT_FORMAT_PDF | |
PLOT_FORMAT_GERBER | |
''' | |
#!/usr/bin/env python | |
import sys | |
from pcbnew import * | |
filename=sys.argv[1] #e.g left-main/left-main.kicad_pcb | |
board = LoadBoard(filename) | |
pctl = PLOT_CONTROLLER(board) | |
popt = pctl.GetPlotOptions() | |
# popt.SetOutputDirectory("plot/") | |
popt.SetOutputDirectory(sys.argv[2]) | |
# Set some important plot options: | |
popt.SetPlotFrameRef(False) | |
popt.SetLineWidth(FromMM(0.35)) | |
popt.SetAutoScale(False) | |
popt.SetScale(1) | |
popt.SetMirror(False) | |
popt.SetUseGerberAttributes(True) | |
popt.SetExcludeEdgeLayer(False); | |
popt.SetScale(1) | |
popt.SetUseAuxOrigin(True) | |
# This by gerbers only (also the name is truly horrid!) | |
popt.SetSubtractMaskFromSilk(False) | |
pctl.SetLayer(F_SilkS) | |
pctl.OpenPlotfile("Silk", PLOT_FORMAT_PDF, "Assembly guide") | |
pctl.PlotLayer() | |
######################### | |
#### CuBottom.gbr #### | |
#### CuTop.gbr #### | |
#### EdgeCuts.gbr #### | |
#### MaskBottom.gbr #### | |
#### MaskTop.gbr #### | |
#### PasteBottom.gbr #### | |
#### PasteTop.gbr #### | |
#### SilkBottom.gbr #### | |
#### SilkTop.gbr #### | |
######################### | |
# Once the defaults are set it become pretty easy... | |
# I have a Turing-complete programming language here: I'll use it... | |
# param 0 is a string added to the file base name to identify the drawing | |
# param 1 is the layer ID | |
plot_plan = [ | |
( "CuTop", F_Cu, "Top layer" ), | |
( "CuBottom", B_Cu, "Bottom layer" ), | |
( "PasteBottom", B_Paste, "Paste Bottom" ), | |
( "PasteTop", F_Paste, "Paste top" ), | |
( "SilkTop", F_SilkS, "Silk top" ), | |
( "SilkBottom", B_SilkS, "Silk top" ), | |
( "MaskTop", F_Mask, "Mask top" ), | |
( "MaskBottom", B_Mask, "Mask bottom" ), | |
( "EdgeCuts", Edge_Cuts, "Edges" ), | |
] | |
for layer_info in plot_plan: | |
pctl.SetLayer(layer_info[1]) | |
pctl.OpenPlotfile(layer_info[0], PLOT_FORMAT_PDF, layer_info[2]) | |
pctl.PlotLayer() | |
###################### | |
#### AssyTop.pdf ##### | |
###################### | |
# Our fabricators want two additional gerbers: | |
# An assembly with no silk trim and all and only the references | |
# (you'll see that even holes have designators, obviously) | |
popt.SetSubtractMaskFromSilk(False) | |
popt.SetPlotReference(True) | |
popt.SetPlotValue(False) | |
popt.SetPlotInvisibleText(True) | |
pctl.SetLayer(F_SilkS) | |
pctl.OpenPlotfile("AssyTop", PLOT_FORMAT_PDF, "Assembly top") | |
pctl.PlotLayer() | |
############################### | |
#### AssyOutlinesTop.pdf ##### | |
############################### | |
# And a gerber with only the component outlines (really!) | |
popt.SetPlotReference(False) | |
popt.SetPlotInvisibleText(False) | |
pctl.SetLayer(F_SilkS) | |
pctl.OpenPlotfile("AssyOutlinesTop", PLOT_FORMAT_PDF, "Assembly outline top") | |
pctl.PlotLayer() | |
###################### | |
#### Layout.pdf ##### | |
###################### | |
# The same could be done for the bottom side, if there were components | |
popt.SetUseAuxOrigin(False) | |
## For documentation we also want a general layout PDF | |
## I usually use a shell script to merge the ps files and then distill the result | |
## Now I can do it with a control file. As a bonus I can have references in a | |
## different colour, too. | |
popt.SetPlotReference(True) | |
popt.SetPlotValue(True) | |
popt.SetPlotInvisibleText(False) | |
# Remember that the frame is always in color 0 (BLACK) and should be requested | |
# before opening the plot | |
popt.SetPlotFrameRef(False) | |
pctl.SetLayer(Dwgs_User) | |
pctl.OpenPlotfile("Layout", PLOT_FORMAT_PDF, "General layout") | |
pctl.PlotLayer() | |
# Do the PCB edges in yellow | |
popt.SetColor(YELLOW) | |
pctl.SetLayer(Edge_Cuts) | |
pctl.PlotLayer() | |
## Comments in, uhmm... green | |
popt.SetColor(GREEN) | |
pctl.SetLayer(Cmts_User) | |
pctl.PlotLayer() | |
# Bottom mask as lines only, in red | |
#popt.SetMode(LINE) | |
popt.SetColor(RED) | |
pctl.SetLayer(B_Mask) | |
pctl.PlotLayer() | |
# Top mask as lines only, in blue | |
popt.SetColor(BLUE) | |
pctl.SetLayer(F_Mask) | |
pctl.PlotLayer() | |
# Top paste in light blue, filled | |
popt.SetColor(BLUE) | |
#popt.SetMode(FILLED) | |
pctl.SetLayer(F_Paste) | |
pctl.PlotLayer() | |
# Top Silk in cyan, filled, references in dark cyan | |
popt.SetReferenceColor(DARKCYAN) | |
popt.SetColor(CYAN) | |
pctl.SetLayer(F_SilkS) | |
pctl.PlotLayer() | |
######################## | |
#### Assembly.svg ##### | |
######################## | |
popt.SetTextMode(PLOTTEXTMODE_STROKE) | |
pctl.SetLayer(F_Mask) | |
pctl.OpenPlotfile("Assembly", PLOT_FORMAT_PDF, "Master Assembly") | |
pctl.SetColorMode(True) | |
# We want *everything* | |
popt.SetPlotReference(True) | |
popt.SetPlotValue(True) | |
popt.SetPlotInvisibleText(True) | |
# Remember than the DXF driver assigns colours to layers. This means that | |
# we will be able to turn references on and off simply using their layers | |
# Also most of the layer are now plotted in 'line' mode, because DXF handles | |
# fill mode almost like sketch mode (this is to keep compatibility with | |
# most CAD programs; most of the advanced primitive attributes required are | |
# handled only by recent autocads...); also the entry level cads (qcad | |
# and derivatives) simply don't handle polyline widths... | |
# | |
# Here I'm using numbers for colors and layers, I'm too lazy too look them up:P | |
popt.SetReferenceColor(19) | |
popt.SetValueColor(21) | |
popt.SetColor(0) | |
#popt.SetMode(LINE) | |
pctl.SetLayer(B_SilkS) | |
pctl.PlotLayer() | |
popt.SetColor(14) | |
pctl.SetLayer(F_SilkS) | |
pctl.PlotLayer() | |
popt.SetColor(2) | |
pctl.SetLayer(B_Mask) | |
pctl.PlotLayer() | |
popt.SetColor(4) | |
pctl.SetLayer(F_Mask) | |
pctl.PlotLayer() | |
popt.SetColor(1) | |
pctl.SetLayer(B_Paste) | |
pctl.PlotLayer() | |
popt.SetColor(9) | |
pctl.SetLayer(F_Paste) | |
pctl.PlotLayer() | |
popt.SetColor(3) | |
pctl.SetLayer(Edge_Cuts) | |
pctl.PlotLayer() | |
# Export the copper layers too... exporting one of them in filled mode with | |
# drill marks will put the marks in the WHITE later (since it tries to blank | |
# the pads...); these will be obviously great reference points for snap | |
# and stuff in the cad. A pctl function to only plot them would be | |
# better anyway... | |
popt.SetColor(17) | |
#popt.SetMode(FILLED) | |
popt.SetDrillMarksType(PCB_PLOT_PARAMS.FULL_DRILL_SHAPE) | |
pctl.SetLayer(B_Cu) | |
pctl.PlotLayer() | |
popt.SetColor(20) | |
popt.SetDrillMarksType(PCB_PLOT_PARAMS.NO_DRILL_SHAPE) | |
pctl.SetLayer(F_Cu) | |
pctl.PlotLayer() | |
# At the end you have to close the last plot, otherwise you don't know when | |
# the object will be recycled! | |
pctl.ClosePlot() | |
# We have just generated 21 plotfiles with a single script |
Can you add drill and XY file output too?
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@MarcelMG Ive added a license. Hope it works for you.