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223 lines
4.0 KiB
Perl
Executable File
223 lines
4.0 KiB
Perl
Executable File
#!/usr/bin/perl
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require "parser.pl";
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require "misc.pl";
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$H = 50; # character height
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$W = $H*0.9; # character width
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$L = $H+20; # line skip
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sub normalize
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{
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my @t = @_;
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# convert from (x0, y0, w, h) to (x0, y0, x1, y1)
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$t[2] += $t[0];
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$t[3] = $t[1]-$t[3];
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return ($t[0], $t[3], $t[2], $t[1]);
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}
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#
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# 2x2 matrix inversion
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# http://en.wikipedia.org/wiki/Invertible_matrix#Inversion_of_2.C3.972_matrices
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#
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sub invert
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{
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my @m = @_;
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my $f = 1/($m[0]*$m[3]-$m[1]*$m[2]);
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return ($f*$m[3], -$f*$m[1], -$f*$m[2], $f*$m[0]);
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}
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sub block
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{
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my @t = &normalize(@_);
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push(@block, [ @t ]);
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$wnl .= "Wire Notes Line\n\t$t[0] $t[1] $t[2] $t[3]\n";
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}
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sub pass
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{
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my @t = &normalize(@_);
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for (@block) {
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my @b = @{ $_ };
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next if $t[0] > $b[2];
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next if $t[2] < $b[0];
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next if $t[1] > $b[3];
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next if $t[3] < $b[1];
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return 0;
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}
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return 1;
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}
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sub put
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{
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local ($x0, $y0, $ref, @s) = @_;
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my $h = @s*$L;
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my $w = 0;
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for (@s) {
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my $t = $W*length $_;
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$w = $t if $t > $w;
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}
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my $a = 270;
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my $r = 100;
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my $x, $y;
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my $ym = $y0-$h+$H/2;
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for ($i = 0; $i != 128; $i++) {
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$x = int($x0+$r*cos($a/180*3.14159));
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$y = int($ym+$r*sin($a/180*3.14159));
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last if &pass($x, $y, $w, $h);
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$a += 22.5;
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$r += $L/8;
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}
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warn "no place found for \"$s[0]\"" if $i == 128;
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my @m = &invert( @{ $m{$ref} });
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&block($x, $y+$H/2, $w, $h);
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my $n = 10;
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for my $s (reverse @s) {
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my $dx = $x-$x0;
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my $dy = $y-$y0;
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my $sx = $x0+$dx*$m[0]+$dy*$m[1];
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my $sy = $y0+$dx*$m[2]+$dy*$m[3];
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($hv, $hj, $vj) = ("H", "L", "C") if $m[0] == 1;
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($hv, $hj, $vj) = ("H", "R", "C") if $m[0] == -1;
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($hv, $hj, $vj) = ("V", "C", "B") if $m[1] == 1;
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($hv, $hj, $vj) = ("V", "C", "T") if $m[1] == -1;
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$s =~ s/~/-/g;
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print "F $n \"$s\" $hv $sx $sy $H 0000 $hj ${vj}NN\n";
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$y -= $L;
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$n++;
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}
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}
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sub dsc_parts
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{
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local ($ref) = @_;
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my @p = @{ $parts{$ref} };
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my @f = ();
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while (@p) {
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my @id = splice(@p, 0, 2);
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my $id = "$id[0] $id[1]";
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my $dsc = &dsc_find($id);
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push(@f, &dsc) if defined $dsc;
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}
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return @f;
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}
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sub dsc_order
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{
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local ($ref) = @_;
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my @f = ();
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for my $id (keys %order) {
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my @p = @{ $order{$id} };
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for (splice(@p, 3)) {
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push(@f, &dsc_find($id)) if $_ eq $ref;
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}
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}
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return @f;
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}
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sub usage
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{
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print STDERR "usage: $0 [-s/from/to/ ...] ...\n";
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exit(1);
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}
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while ($ARGV[0] =~ /^-s/) {
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&usage unless &dsc_xlat_arg($');
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shift @ARGV;
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}
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&usage if $ARGV[0] =~ /^-./;
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&parse;
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#
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# pass 1: find the orientation of all parts
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#
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for (@eeschema) {
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$ref = $1 if /^L \S+ (\S+)/;
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undef $ref if /^\$EndComp/;
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next unless /^\s+(-?[01])\s+(-?[01])\s+(-?[01])\s+(-?[01])\s*$/;
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my @m = split(/\s+/);
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shift @m;
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$m{$ref} = [ @m ];
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}
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#
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# pass 2: block the spaces occupied by fields
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#
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for (@eeschema) {
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$ref = $1 if /^L \S+ (\S+)/;
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if (/^P (\d+) (\d+)/) {
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$x0 = $1;
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$y0 = $2;
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}
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next unless /^F /;
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die "$_" unless
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/^F \d+ "([^"]*)" ([HV]) (\d+) (\d+) (\d+) +(\d+) ([LC]) (C)/;
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($s, $hv, $x, $y, $size, $flag, $hj, $vj) =
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($1, $2, $3, $4, $5, $6, $7, $8);
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$dx = $x-$x0;
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$dy = $y-$y0;
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$x = $x0+$dx*$m{$ref}[0]+$dy*$m{$ref}[1];
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$y = $y0+$dx*$m{$ref}[2]+$dy*$m{$ref}[3];
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next if $flag != 0;
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$w = $size*0.8*length $s;
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# we don't need to consider H/V
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&block($hj eq "L" ? $x : $x-$w/2, $y+$size/2, $w, $size);
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}
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#
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# pass 3:
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#
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for (@eeschema) {
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undef @f if /^\$Comp/;
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if (/^L \S+ (\S+)/) {
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$ref = $1;
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push(@f, &dsc_order($ref)) if %order;
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push(@f, &dsc_parts($ref)) if %parts;
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}
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if (/^P (\d+) (\d+)/) {
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$x = $1;
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$y = $2;
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}
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if (/^\s+/) {
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my %seen;
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my @u = ();
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for (@f) {
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next if $seen{$_};
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push(@u, $_);
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$seen{$_} = 1;
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}
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undef @f;
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# $m{$ref}[0] == 1 OK
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# $m{$ref}[0] == -1 OK
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# $m{$ref}[1] == 1 OK
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# $m{$ref}[1] == -1 OK (small deviations found)
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&put($x, $y, $ref, @u) if 1 || $m{$ref}[1] == -1;
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}
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if (/\$EndSCHEMATC/) {
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# uncomment for debugging
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# print $wnl;
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}
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print "$_\n";
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}
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