fab/m1/: quick and dirty adaptation of prettygerbv and drl2gerber to M1

2024-11-16 20:07:31 +02:00 · 2011-06-10 10:24:53 -03:00 · 2011-06-10 10:24:53 -03:00 · 2a6496d3ed
commit 2a6496d3ed
parent 0de3b96170
4 changed files with 247 additions and 0 deletions
--- a/fab/m1/Makefile
+++ b/fab/m1/Makefile
@ -0,0 +1,18 @@
 D=rc3_gerber
 all:		front.png back.png
 drill.pho:
 		tr -d '\015' <$(D)/drl00.drl | ./drl2gerber >$@
 front.png:	drill.pho
 		cd $(D) && ../prettygerbv -d ../drill.pho foo front ../$@
 back.png:	drill.pho
 		cd $(D) && ../prettygerbv -d ../drill.pho foo back ../$@
 conn.png:		drill.pho
 		cd $(D) && ../prettygerbv -d ../drill.pho foo conn ../$@
 clean:
 		rm -f drill.pho	front.png back.png conn.png
--- a/fab/m1/README
+++ b/fab/m1/README
@ -0,0 +1,3 @@
 wget http://downloads.qi-hardware.com/hardware/milkymist_one/gerber/rc3/rc3_gerber.tar.bz2
 tar xfj rc3_gerber.tar.bz2
 make
--- a/fab/m1/drl2gerber
+++ b/fab/m1/drl2gerber
@ -0,0 +1,74 @@
 #!/usr/bin/perl
 #
 # drl2gerber - Convert a KiCAD-generated Excellon drill file to Gerber
 #
 # Written 2011 by Werner Almesberger
 # Copyright 2011 Werner Almesberger
 #
 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 2 of the License, or
 # (at your option) any later version.
 #
 print "G04 MACHINE-GENERATED FROM DRILL FILE*\n" || die;
 print "G01*\n" || die;		# linear Interpolation
 print "G70*\n" || die;		# inch units
 print "G90*\n" || die;		# absolute Mode
 print "%MOIN*%*\n" || die;	# inches, RS274X-style
 print "%FSLAX34Y34*%\n" || die;	# format
 $x0 = 7300;
 $y0 = 268910;
 sub u()
 {
 	my $f = 1000000;
 	$_[0] =~ /^(-?)(\d+)$/;
 	my $s = 0;
 	for (split("", $2)) {
 		$s += $_*$f;
 		$f /= 10;
 	}
 	return $1 eq "-" ? -$s : $s;
 }
 while (<>) {
 	chop;
 	if (/^T(\d+)C/) {
 		print "%ADD", $1+10, "C,$'*%\n" || die;
 		print "G54D", $1+10, "*\n" || die;
 		$faux_g85 = 0;
 			# we dont' seem to have easily machine-readable
 			# information in Altium's Excellon to tell what should
 			# be a hole and what should be a slot
 		undef $last;
 		next;
 	}
 	if (/^T(\d+)$/) {
 		print "G54D", $1+10, "*\n" || die;
 		next;
 	}
 	if (/^X([-0-9.]+)Y([-0-9.]+)$/) {
 		my $c = sprintf("X%dY%d", &u($1)+$x0, &u($2)+$y0);
 		if ($faux_g85) {
 			print "${last}D02*\n${c}D01*\n" if defined $last;
 			$last = $c;
 		} else {
 			print "${c}D03*\n" || die;
 		}
 		next;
 	}
 	if (/^X([-0-9.]+)Y([-0-9.]+)G85X([-0-9.]+)Y([-0-9.]+)$/) {
 		printf("X%dY%dD02*\nX%dY%dD01*\n",
 		    &u($1)+$x0, &u($2)+$y0, &u($3)+$x0, &u($4)+$y0) || die;
 		next;
 	}
 }
 print "M02*\n" || die;
--- a/fab/m1/prettygerbv
+++ b/fab/m1/prettygerbv
@ -0,0 +1,152 @@
 #!/bin/sh
 #
 # prettygerbv - Use gerbv to generate "pretty" views of a PCB
 #
 # Written 2011 by Werner Almesberger
 # Copyright 2011 Werner Almesberger
 #
 # This program is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 2 of the License, or
 # (at your option) any later version.
 #
 COPPER="(cons 'color #(65535 50401 10000))"
 PASTE="(cons 'color #(39083 39083 50000))"
 MASK="(cons 'inverted #t) (cons 'color #(8839 53994 8178))"
 SILK="(cons 'color #(65535 65535 65535))"
 EDGE="(cons 'color #(65535 65535 0))"
 DRILL="(cons 'color #(0 0 40000))"
 FRONT="(cons 'color #(65535 10000 10000))"
 BACK="(cons 'color #(30000 65535 30000))"
 EDGE2="(cons 'color #(30000 40000 65535))"
 L2="(cons 'color #(1000 1000 1000))"
 L3="(cons 'color #(1000 1000 1000))"
 L4="(cons 'color #(1000 1000 1000))"
 L5="(cons 'color #(1000 1000 1000))"
 usage()
 {
 	cat <<EOF 1>&2
 usage: $0 [-d file] project-name view png-file
  view  "front", "back", "conn", "all"
  -d file   also use drill file (converted to Gerber)
 EOF
 	exit 1
 }
 layers_begin()
 {
 	curr_layer=$1
 	echo '(gerbv-file-version! "2.0A")' >_gvp
 }
 layer()
 {
 	file=$1
 	shift
 	[ -e "$file" ] || return
 	cat <<EOF >>_gvp
 (define-layer! $curr_layer (cons 'filename "$file") $*)
 EOF
 	curr_layer=`expr $curr_layer - 1`
 }
 layers_end()
 {
 	echo '(set-render-type! 2)' >>_gvp
 }
 run_gerbv()
 {
 	gerbv -p _gvp --dpi=600 -x png -o "$1"
 }
 front()
 {
 	layers_begin 5
 	layer art01.pho $COPPER
 	[ "$drill" ] && layer $drill $DRILL
 	layer smd0129.pho $PASTE
 	layer sm0125.pho $INV $MASK
 	layer sst0127.pho $SILK
 #	layer $NAME-PCB_Edges.gbr $EDGE
 	layers_end
 	run_gerbv "$1"
 }
 back()
 {
 	layers_begin 5
 	layer art06.pho $COPPER
 	[ "$drill" ] && layer $drill $DRILL
 	layer smd0630.pho $PASTE
 	layer sm0626.pho $INV $MASK
 	layer ssb0628.pho $SILK
 #	layer $NAME-PCB_Edges.gbr $EDGE
 	layers_end
 	run_gerbv _tmp.png
 	convert -flop _tmp.png "$1"
 	rm -f _tmp.png
 }
 conn()
 {
 	layers_begin 6
 	layer art06.pho $BACK
 	layer art05.pho $L5
 	layer art04.pho $L4
 	layer art03.pho $L3
 	layer art02.pho $L2
 	layer art01.pho $FRONT
 #	layer $NAME-PCB_Edges.gbr $EDGE2
 	layers_end
 	run_gerbv "$1"
 }
 all()
 {
 	front _front.png
 	back _back.png
 	conn _conn.png
 	montage -geometry +4+4 _front.png _back.png _conn.png "$1"
 	rm -f _front.png _back.png _conn.png
 }
 drill=
 if [ "$1" = -d ]; then
 	drill=$2
 	shift 2
 fi
 [ "$4" ] && usage
 [ ! "$3" ] && usage
 NAME=$1
 OUT=$3
 case "$2" in
 	front|back|conn) ;;
 	all) ;;
 	*)	usage;;
 esac
 $2 "$OUT"
 #rm -f _gvp