use Data::Dump qw(dump);
use Getopt::Long;
-my $opt_svg = $ENV{SVG} || 0;
-my $opt_alt = $ENV{ALT} || 0;
-my $opt_invert = $ENV{INVERT} = 0;
-my $opt_vertical = $ENV{VERTICAL} = 0;
-my $opt_kernel = $ENV{kernel} = 1;
+my $opt_svg = 0;
+my $opt_alt = 0;
+my $opt_invert = 0;
+my $opt_vertical = 0;
+my $opt_horizontal = 0;
+my $opt_edge = 0;
+my $opt_middle = 0;
+my $opt_zebra = 0;
+my $opt_lines = 0;
+my $opt_read = '';
GetOptions(
'svg!' => \$opt_svg,
'alt!' => \$opt_alt,
'invert!' => \$opt_invert,
- 'vertical!' => \$opt_vertical,
- 'kernel!' => \$opt_kernel,
+ 'vertical-flip!' => \$opt_vertical,
+ 'horizontal-flip!' => \$opt_horizontal,
+ 'edge-pins!' => \$opt_edge,
+ 'middle-pins!' => \$opt_middle,
+ 'zebra!' => \$opt_zebra,
+ 'lines!' => \$opt_lines,
+ 'read=s' => \$opt_read,
);
# svg font hints
my $font_w = 1.67; # < 2.54, font is not perfect square
my $font_b = 2.10; # font baseline position
+$opt_read .= '/' unless $opt_read =~ m/\/$/;
+
sub slurp {
- open(my $fh, '<', shift);
+ open(my $fh, '<', $opt_read . shift);
local $/ = undef;
<$fh>;
}
} else {
$include = 0;
}
- } elsif ( m/^#\s+/ ) {
- $include = 1;
} elsif ( $include ) {
push @{ $pins->{$1} }, $line_i while ( m/\t(\w+\d+)/g );
die "add pin definition for # $model" unless $pins;
+shift(@lines) while ( ! $lines[0] ); # remove empty at beginning
+pop(@lines) while ( ! $lines[-1] ); # remove empty at end
+
warn "# pins ",dump($pins);
my $pin_function;
+my $device;
-open(my $fh, '<', '/sys/kernel/debug/pinctrl/pinctrl-handles');
+open(my $fh, '<', $opt_read . '/sys/kernel/debug/pinctrl/pinctrl-handles');
while(<$fh>) {
chomp;
- if ( m/group: (\w+\d+)\s.+function: (\S+)/ ) {
+ if ( m/device: (\S+)/ ) {
+ $device = $1;
+ $device =~ s/^[0-9a-f]*\.//; # remove hex address
+ } elsif ( m/group: (\w+\d+)\s.+function: (\S+)/ ) {
my ($pin, $function) = ($1,$2);
- $pin_function->{$pin} = $function;
-
- next unless $opt_kernel;
+ $pin_function->{$pin} = "$device $function";
if ( $pins->{$pin} ) {
foreach my $line ( @{$pins->{$pin}} ) {
-warn "XXX $pin $line";
my $t = $lines[$line];
if ( $opt_svg ) {
- $t =~ s/$pin/[$function]/;
+ $t =~ s/$pin/[$device $function]/;
} else {
- $t =~ s/$pin/$pin [$function]/ || die "can't find $pin in [$t]";
+ $t =~ s/$pin/$pin [$device $function]/ || die "can't find $pin in [$t]";
}
$lines[$line] = $t;
warn "# $line: $lines[$line]\n";
push @line_parts, [ $line ] unless $opt_svg;
next;
}
- $line =~ s/(\[uart\d)(\]\s[^\t]*(rx|tx))/$1 $3$2/gi;
- $line =~ s/(\[i2c\d)(\]\s[^\t]*(sck|sda))/$1 $3$2/gi;
- $line =~ s/(\[spi\d)(\]\s[^\t]*(miso|mosi|clk|cs))/$1 $3$2/gi;
+ $line =~ s/(\[(?:uart|serial))([^\t]*\]\s[^\t]*(rx|tx)d?)/$1 $3$2/gi;
+ $line =~ s/(\[i2c)([^\t]*\]\s[^\t]*(scl?k?|sda))/$1 $3$2/gi;
+ $line =~ s/(\[spi)([^\t]*\]\s[^\t]*(miso|mosi|s?clk|c[se]\d*))/$1 $3$2/gi;
$line =~ s/\s*\([^\)]+\)//g if ! $opt_alt;
+ # shorten duplicate kernel device/function
+ $line =~ s/\[serial (\w+) (uart\d+)\]/[$2 $1]/g;
+ $line =~ s/\[(\w+) (\w+) \1(\d+)\]/[$1$3 $2]/g;
+
my @v = split(/\s*\t+\s*/,$line,4);
+ @v = ( $v[2], $v[3], $v[0], $v[1] ) if $opt_horizontal;
+
push @line_parts, [ @v ];
foreach my $i ( 0 .. 3 ) {
next unless exists $v[$i];
#print "$_\n" foreach @lines;
-my $fmt = "%$max_len[0]s %-$max_len[1]s %$max_len[2]s %-$max_len[3]s\n";
-
-my $x = 30.00; # mm
-my $y = 30.00; # mm
+my $x = 20.00; # mm
+my $y = 20.00; # mm
if ( $opt_svg ) {
print qq{<?xml version="1.0" encoding="UTF-8" standalone="no"?>
vcc => [ '#ff0000', '#ffff00' ],
gnd => [ '#000000', '#00ffff' ],
i2c => [ '#008800', '#ffcccc' ],
- uart => [ '#000088', '#ccffcc' ],
+ serial=>[ '#000088', '#ccffcc' ],
spi => [ '#880000', '#ccccff' ],
};
return qq{ style="fill:$bg"};
}
- if ( $name =~ m/(VCC|3V3|3.3V)/i ) {
+ if ( $name =~ m/(VCC|3V3|3.3V|5v)/i ) {
my ($fg,$bg) = @{ $cols->{vcc} };
rect $x,$y,$col,$bg;
return qq{ style="fill:$fg"};
- } elsif ( $name =~ m/(G(ND|Round)|VSS)/i ) {
+ } elsif ( $name =~ m/(G(ND|Round)|VSS|0v)/i ) {
my ($fg,$bg) = @{ $cols->{gnd} };
rect $x,$y,$col,$bg;
return qq{ style="fill:$fg"};
- } elsif ( $name =~ m/\[(\w+)\d/ ) { # kernel
+ } elsif ( $name =~ m/\[(\w+)/ ) { # kernel
my $dev = $1;
- if ( my ($fg,$bg) = @{ $cols->{$dev} } ) {
- rect $x,$y,$col,$bg;
- return qq{ style="fill:$fg"};
- }
+ my ($fg,$bg) = @{ $cols->{txt} };
+ ($fg,$bg) = @{ $cols->{$dev} } if exists $cols->{$dev};
+ rect $x,$y,$col,$bg;
+ return qq{ style="fill:$fg"};
} else {
my ( $fg, $bg ) = @{ $cols->{txt} };
rect $x,$y,$col,$bg;
my @cols_order = ( 0,1,2,3 );
my @cols_align = ( '','-','','-' ); # sprintf prefix
-@cols_order = ( 0,1,3,2 ); # pins outside on the right
-@cols_align = ( '','-','-','' );
+my @cols_shuffle = @cols_order;
+
+if ( $opt_edge ) {
+ # pins outside on the right
+ @cols_shuffle = ( 0,1,3,2 ) if $opt_edge;
+ @cols_align = ( '-','-','','' );
+} elsif ( $opt_middle ) {
+ # pins in middle
+ @cols_shuffle = ( 1,0,2,3 );
+ @cols_align = ( '','','-','-' );
+}
+
+sub cols_shuffle {
+ my ( $what, $order ) = @_;
+ my $new = [];
+ foreach my $i ( 0 .. $#$what ) {
+ $new->[$i] = $what->[ $order->[$i] ];
+ }
+ warn "# cols_shuffle what=",dump($what)," order=",dump($order)," new=",dump($new);
+ return @$new;
+}
+
+@cols_order = cols_shuffle( \@cols_order, \@cols_shuffle );
+@max_len = cols_shuffle( \@max_len, \@cols_shuffle );
+
+warn "# cols_order = ",dump( \@cols_order );
+warn "# cols_align = ",dump( \@cols_align );
+
+my $fmt = "%$cols_align[0]$max_len[0]s %$cols_align[1]$max_len[1]s %$cols_align[2]$max_len[2]s %$cols_align[3]$max_len[3]s\n";
# cut marks
$max_x += $max_len[$_] * $font_w foreach ( 0 .. 3 );
cut_mark $max_x, $y;
+sub line {
+ my ($x,$y,$max_x) = @_;
+ push @cut_marks, sprintf($line_fmt, $x, $y-$font_b, $max_x, $y-$font_b);
+}
+
+
my $last_cut_mark = 0;
foreach my $i ( 0 .. $#line_parts ) {
cut_mark $x, $y;
cut_mark $max_x, $y;
$last_cut_mark = 1;
+ line $x, $y, $max_x if $opt_lines;
$y += 15; # make spacing between pinouts
}
} elsif ( $last_cut_mark ) {
#warn "CUTMARK no magic";
}
+ line $x, $y, $max_x if $opt_lines && exists $line->[1];
+
my ($fg,$bg) = @{ $cols->{txt} };
my $tspan = qq{<tspan x="$x" y="$y" style="line-height:2.54;fill:$fg;stroke:none;">\n};
my $x_pos = $x;
- foreach my $i ( @cols_order ) {
- next unless $line->[$i];
+ foreach my $i ( 0 .. $#cols_order ) {
+ my $order = $cols_order[$i];
+ next unless $line->[$order];
my $text_anchor = 'middle';
my $x2 = $x_pos + ( $max_len[$i] * $font_w ) / 2;
- $tspan .= qq{<tspan x="$x2" text-anchor="$text_anchor"}.svg_style($line->[$i],$x_pos,$y,$i).sprintf( '>%' . $cols_align[$i] . $max_len[$i] . 's</tspan>', $line->[$i]);
+ $tspan .= qq{<tspan x="$x2" text-anchor="$text_anchor"}.svg_style($line->[$order],$x_pos,$y,$i).sprintf( '>%' . $cols_align[$i] . $max_len[$i] . 's</tspan>', $line->[$order]);
$x_pos += $max_len[$i] * $font_w;
}
push @later,sprintf $tspan, @$line;
$y += 2.54;
- # swap pin colors for line stripes
- swap_cols $_ foreach qw( pins txt );
+ # swap pin colors for line stripe
+ if ( $opt_zebra ) {
+ swap_cols $_ foreach qw( pins txt );
+ }
} else {
print $line->[0], "\n";
} else {
push @$line, '' while ($#$line < 3); # fill-in single row header
- printf $fmt, @$line;
+ printf $fmt, map { $line->[$_] } @cols_order;
}
}
}
if ( $opt_svg ) {
+ cut_mark $x,$y;
+ cut_mark $max_x,$y;
+ line $x, $y, $max_x if $opt_lines;
+
print qq{
<text
id="text4506"
}
__DATA__
-# Cubietech Cubieboard2
+# Cubietech Cubieboard
## U14 (Next to SATA connector)
### SPI0
48 PI13 (SPI0-MISO/UART6-RX/EINT25) 47 PI11 (SPI0-CLK/UART5-RX/EINT23)
4 PD1 (LCDD1/LVDS0N0) 3 PD2 (LCDD2/LVDS0P1)
2 Ground 1 PD0 (LCDD0/LVDSP0)
-# Cubietech Cubieboard2
## U15 (Between Ethernet port and USB ports)
### CSI1/TS
1 VCC-5V 2 PH15 (CSI1-PWR/EINT15)
4 PI21 UART7_RX 3 PH5
2 3V3 1 SATA-5V
-# Raspberry Pi 3 Model B Rev 1.2
+# Raspberry Pi
1 3.3v 2 5v
3 gpio2 (SDA.1) 4 5v
5 gpio3 (SCL.1) 6 0v
-7 gpio4 (GPIO. 7) 8 gpio14 (TxD)
+7 gpio4 (WPi 7) 8 gpio14 (TxD)
9 0v 10 gpio15 (RxD)
-11 gpio17 (GPIO. 0) 12 gpio18 (GPIO. 1)
-13 gpio27 (GPIO. 2) 14 0v
-15 gpio22 (GPIO. 3) 16 gpio23 (GPIO. 4)
-17 3.3v 18 gpio24 (GPIO. 5)
+11 gpio17 (WPi 0) 12 gpio18 (WPi 1)
+13 gpio27 (WPi 2) 14 0v
+15 gpio22 (WPi 3) 16 gpio23 (WPi 4)
+17 3.3v 18 gpio24 (WPi 5)
19 gpio10 (MOSI) 20 0v
-21 gpio9 (MISO) 22 gpio25 (GPIO. 6)
+21 gpio9 (MISO) 22 gpio25 (WPi 6)
23 gpio11 (SCLK) 24 gpio8 (CE0)
25 0v 26 gpio7 (CE1)
+# Raspberry Pi 3 Model B Rev 1.2
27 gpio0 (SDA.0) 28 gpio1 (SCL.0)
-29 gpio5 (GPIO.21) 30 0v
-31 gpio6 (GPIO.22) 32 gpio12 (GPIO.26)
-33 gpio13 (GPIO.23) 34 0v
-35 gpio19 (GPIO.24) 36 gpio16 (GPIO.27)
-37 gpio26 (GPIO.25) 38 gpio20 (GPIO.28)
-39 0v 40 gpio21 (GPIO.29)
+29 gpio5 (WPi 21) 30 0v
+31 gpio6 (WPi 22) 32 gpio12 (WPi 26)
+33 gpio13 (WPi 23) 34 0v
+35 gpio19 (WPi 24) 36 gpio16 (WPi 27)
+37 gpio26 (WPi 25) 38 gpio20 (WPi 28)
+39 0v 40 gpio21 (WPi 29)
+