our $facesf;
our %vxname2pos; # $vxname2pos{VXNAME} = Math::GSL::Vector
our %bb; # $r{Bounding...}[0..3] = points
+our $maxpaper = 'a3';
+my $a1sfactor = 1/sqrt(8);
sub TAU { M_PI * 2.0; }
sub MM2PT { 72.0 / 25.4; }
our $a4_w = 595;
our $a4_h = 842;
our $a3_h = 1190;
+our $a1_w = 1684;
+our $a1_h = 2384;
our $max_printeredge = 5.50 * MM2PT;
-
+our $a1m_pasteedge = 3.5 * MM2PT; # along each edge
+our $preamble_from_boundings = '';
+our $top_adjuncts_dy_from_boundings = 0;
+our $bottom_adjuncts_dy_from_boundings = 0;
# ----- region names from plag, incl. reverse mapping -----
sub prs2r ($) {
# bodgery for the sea and land
- return 'NZ' if m/ \| / && !grep { !m{^(?:NZ|L2?)$} } split / \| /, $_[0];
+ return $c{Sea} if m/ \| / && !grep { !m{^$c{OuterfaceRe}$} } split / \| /, $_[0];
$prs2region{$_[0]} // confess "@_ ?"
}
sub prs2rr ($) { $region{prs2r($_[0])} }
my @edges;
my $process_rr = sub {
my $last_ai;
- if ($rr->{Name} eq 'NZ') {
- # We combined L and NZ; now we must split them again
- # in fact, we just throw away L and L2 entirely.
- # Here, when processing NZ, we keep only vertices that
- # are part of NZ.
+ if ($rr->{Name} eq $c{Sea}) {
+ # We combined land and sea; now we must split them again
+ # in fact, we just throw away all L entirely.
+ # Here, when processing sea, we keep only vertices that
+ # are part of the sea.
@edges = grep {
my $evxname = $_->{VxName};
my @eregions = split / \| ?/, $evxname;
- grep { $_ eq 'NZ' } @eregions
+ grep { $_ eq $c{Sea} } @eregions
} @edges;
}
$rr->{Polygon} = [ @edges ];
- if ($rr->{Name} ne 'NZ') {
+ if ($rr->{Name} ne $c{Sea}) {
for my $ei (0..$#edges) {
if (!defined $last_ai) {
my $ai;
}
$process_rr->();
- $region{$_}{Special} = 1 foreach qw(NZ L L2);
+ $region{$_}{Special} = 1 foreach @{ $c{SpecialRegions} };
}
#----- geometry mangling -----
my $transform = Math::GSL::Matrix->new(2,2);
$transform->set_row(0, [ $c, -$s ]);
$transform->set_row(1, [ $s, $c ]);
- print STDERR "rotate was=",prvec($dir)," theta=$theta",
- " rotateby=$rotateby s=$s c=$c\n";
+ # print STDERR "rotate was=",prvec($dir)," theta=$theta",
+ # " rotateby=$rotateby s=$s c=$c\n";
my @lims;
foreach my $topend (qw(0 1)) {
my $v = $topend ? -$GSL_DBL_MAX : $GSL_DBL_MAX;
}
}
});
- print STDERR "lims ",prvec($lims[0])," .. ",prvec($lims[1]),"\n";
+ #print STDERR "lims ",prvec($lims[0])," .. ",prvec($lims[1]),"\n";
my $translate = -$lims[0];
- print STDERR "translate ",prvec($translate),"\n";
+ #print STDERR "translate ",prvec($translate),"\n";
my $scale = $c{GraphScale} * MM2PT;
for_each_pos(sub {
my ($pr) = @_;
$mid = ($lims[1] - $lims[0]) * 0.5;
}
-sub adjust_nz() {
- my $poly = $region{NZ}{Polygon};
+sub adjust_sea() {
+ # Adjusts the top and bottom edges of the sea
+ my $poly = $region{$c{Sea}}{Polygon};
my %occurs;
foreach my $v (@$poly) {
$occurs{$v->{VxName}}++
}
foreach my $v (@$poly) {
- $v->{NZ_Occurs} = $occurs{$v->{VxName}};
+ $v->{SeaOccurs} = $occurs{$v->{VxName}};
}
- print STDERR " nz ".(scalar @$poly)."\n";
+ #print STDERR " sea ".(scalar @$poly)."\n";
my $occurs_m = sub {
my ($ei) = @_;
- $poly->[($ei+@$poly) % @$poly]{NZ_Occurs} > 1
+ $poly->[($ei+@$poly) % @$poly]{SeaOccurs} > 1
};
for my $ei (0..$#$poly) {
next if $occurs_m->($ei);
next unless $occurs_m->($ei-1);
next unless $occurs_m->($ei+1);
- print STDERR " nz would adjust $poly->[$ei]{VxName}\n";
+ #print STDERR " sea would adjust $poly->[$ei]{VxName}\n";
# adjust coord outwards
}
for my $ei (0..$#$poly) {
next unless $occurs_m->($ei);
- print STDERR " nz occurs_m $ei $poly->[$ei]{VxName}\n";
+ #print STDERR " sea occurs_m $ei $poly->[$ei]{VxName}\n";
next unless $occurs_m->($ei-1);
- my $dleft = mkvec(-1000,0);
+ my $dleft = &mkvec(@{ $c{PA}{OuterCoastDelta} });
foreach my $which (0,-1) {
my $ej = ($ei + $which + @$poly) % @$poly;
my $ek = ($ei + +1 + 3*$which + @$poly) % @$poly;
my $posj = \ $poly->[$ej]{Pos};
my $posk = \ $poly->[$ek]{Pos};
my $dout = $$posk - $$posj;
- print STDERR " nz adj j=$ej ",prvec($$posj)," $poly->[$ej]{VxName}\n";
- print STDERR " nz adj k=$ek ",prvec($$posk)," $poly->[$ek]{VxName}\n";
- if ($poly->[$ej]{VxName} =~ /Noorderzijlvest/) {
- print STDERR " nz adj extra\n";
- $$posk = $$posj + 10 * mkvec(100,-50);
+ #print STDERR " sea adj j=$ej ",prvec($$posj)," $poly->[$ej]{VxName}\n";
+ #print STDERR " sea adj k=$ek ",prvec($$posk)," $poly->[$ek]{VxName}\n";
+ foreach my $paocv (@{ $c{PA_Outercoast_Vertices} }) {
+ if ($poly->[$ej]{VxName} =~ m{$paocv->{Re}}) {
+ #print STDERR " sea adj extra\n";
+ $$posk = $$posj + 10 * &mkvec(@{ $paocv->{PA} });
+ }
}
$$posj = $$posj + $dleft + $dout*10;
$$posk = $$posk + $dout*10;
sub computeboundings() {
$bb{Entire} = [ 0,0, $a4_h, $a4_w + $a3_h ];
- $bb{PageB} = [ 0,0, $a4_h, $a4_w ];
- my $page2minprintable = sub {
- my (@p) = @{ $_[0] };
- [ $p[0] + $max_printeredge,
- $p[1] + $max_printeredge,
- $p[2] - $max_printeredge,
- $p[3] - $max_printeredge ];
+ my $submargins = sub {
+ my ($margin, $pr) = @_;
+ my @p = @$pr;
+ [ $p[0] + $margin,
+ $p[1] + $margin,
+ $p[2] - $margin,
+ $p[3] - $margin ];
+ };
+ my $somepage = sub {
+ my $id = shift @_;
+ print STDERR "defining page Page$id\n";
+ $bb{"Page$id"} = [ @_ ];
+ $bb{"Printable$id"} = $submargins->($max_printeredge, $bb{"Page$id"});
+ };
+ my $pageb_a4 = sub {
+ $somepage->('B', 0,0, $a4_h, $a4_w );
};
- $bb{PrintableB} = $page2minprintable->($bb{PageB});
- my $mt_offset = $bb{PrintableB}[3] - $max_printeredge;
- $bb{PageMT} = [ 0, $mt_offset, $a4_h, $mt_offset + $a3_h ];
- $bb{PrintableMT} = $page2minprintable->($bb{PageMT});
- $bb{PrintableAll} = [
- @{ $bb{PrintableB} }[0..1],
- @{ $bb{PrintableMT} }[2..3],
- ];
+ if ($maxpaper eq 'a3') {
+ $pageb_a4->();
+ my $mt_offset = $bb{PrintableB}[3] - $max_printeredge;
+ $somepage->('MT', 0, $mt_offset, $a4_h, $mt_offset + $a3_h );
+ $bb{PrintableAll} = [
+ @{ $bb{PrintableB} }[0..1],
+ @{ $bb{PrintableMT} }[2..3],
+ ];
+ } elsif ($maxpaper eq 'a4') {
+ $pageb_a4->();
+ my $m_offset = $bb{PrintableB}[3] - $max_printeredge;
+ $somepage->('M', 0, $m_offset, $a4_h, $m_offset + $a4_w );
+ my $t_offset = $bb{PrintableM}[3] - $max_printeredge;
+ $somepage->('T', 0, $t_offset, $a4_h, $t_offset + $a4_w );
+ $bb{PrintableAll} = [
+ @{ $bb{PrintableB} }[0..1],
+ @{ $bb{PrintableT} }[2..3],
+ ];
+ } elsif ($maxpaper =~ m/^a1/) {
+ my $offx = ($a1_w - $bb{Entire}[2] * (1 + $a1sfactor)) / 3;
+ my $offy = 0.5*($a1_h - $bb{Entire}[3]);
+ $somepage->('P', -$offx,-$offy, $a1_w-$offx, $a1_h-$offy);
+ my $hairs = 30 * MM2PT;
+ my $hairsw = $bb{Entire}[2];
+ my $hairsh = $bb{Entire}[3];
+ my $surround = 5 * MM2PT;
+ my $surroundw = $bb{Entire}[2] + $surround*2;
+ my $surroundh = $bb{Entire}[3] + $surround*2;
+ my @hrect = @{ $bb{Entire} };
+ if ($maxpaper eq 'a1m') {
+ @hrect = @{ $submargins->($a1m_pasteedge, \@hrect) };
+ $bb{Cutout} = \@hrect;
+ }
+ my $w_stroke = $xopts =~ m/W/ ?
+ ' gsave 3 setlinewidth stroke grestore '
+ : '';
+ $preamble_from_boundings = <<END;
+ 1 setlinewidth
+ 0 setgray
+ /a1hairs {
+ newpath moveto
+ $hairs 0 rmoveto
+ $hairs -2 mul 0 rlineto
+ $hairs $hairs rmoveto
+ 0 $hairs -2 mul rlineto
+ stroke
+ } def
+ $hrect[0] $hrect[1] a1hairs
+ $hrect[0] $hrect[3] a1hairs
+ $hrect[2] $hrect[3] a1hairs
+ $hrect[2] $hrect[1] a1hairs
+ newpath
+ -$surround -$surround moveto
+ $surroundw 0 rlineto
+ 0 $surroundh rlineto
+ -$surroundw 0 rlineto
+ closepath $w_stroke clip
+END
+ $top_adjuncts_dy_from_boundings = 35;
+ $bottom_adjuncts_dy_from_boundings = -7;
+ } else {
+ confess;
+ }
}
sub showboundings () {
return unless $xopts =~ m/B/;
- o(" grestore gsave\n");
+ o(" gsave\n");
+ my $bb = $bb{$bounding};
+ o(" $bb->[0] neg $bb->[1] neg translate\n");
my $i = 0;
my $on = 2;
my $off = 9;
o(" closepath stroke\n");
$i++;
}
+ o(" grestore");
}
sub o_amble (@) {
$t =~ s/^\&+/ '%' x length $& /mge;
o($t);
}
-
+
sub preamble() {
my $bb = $bb{$bounding}; confess $bounding unless $bb;
my $sz = [ $bb->[2] - $bb->[0], $bb->[3] - $bb->[1] ];
o_amble(<<END);
&!PS-Adobe-3.0
-&&BoundingBox @$bb
+&&BoundingBox 0 0 @$sz
&&Pages: 1
&&EndComments
&&BeginProlog
&&EndProlog
&&BeginSetup
<< /PageSize [ @$sz ] >> setpagedevice
+/all {
+ gsave
+ $bb->[0] neg $bb->[1] neg translate
+ $preamble_from_boundings
+ board
+ grestore
+ showboundings
+} def
+/showboundings {
+END
+ showboundings();
+ o_amble(<<END);
+} def
/board {
gsave
+ % adjustment to actual image placement within prinable areas etc.:
34 -15 translate
END
- # xxx split into pages
+ if ($maxpaper eq 'a4') {
+ o("0 -17 translate\n");
+ }
}
sub postamble () {
o_amble(<<END);
grestore
-} bind def
+} def % board
&&EndSetup
&&Page: 1
&&BeginPageSetup
/pgsave save def
&&EndPageSetup
-board
+all
+END
+ if ($maxpaper =~ m/^a1/) {
+ o(<<END);
+ $a1_w 0 translate
+ $a1sfactor dup scale
+ $a1_w neg 0 translate
+ 1 1 3 { pop all 0 $a1_h 0.8 mul translate } for
+END
+ }
+ o_amble(<<END);
pgsave restore
showpage
&&EOF
END
}
-sub pscolour ($;$) {
- my ($spec, $adj1) = @_;
+sub pscolour ($$$$) {
+ my ($colourname, $cmykix,$rgbmul,$rgbadd) = @_;
+ my $spec = $c{Colours}{$colourname};
confess unless defined $spec;
- my $le = (length $spec)/3;
- my $re = ("(.{$le})") x 3;
- my @rgb = $spec =~ m/^$re$/; @rgb or confess "$re ?";
- @rgb = map { hex($_) / (16**$le -1) } @rgb;
- $adj1 //= sub { };
- $adj1->(@rgb);
+
+ # check that we have only one lighter/darker retain value for each one
+ our %colour_occurred;
+ $colour_occurred{$colourname}{$cmykix}{$rgbmul,$rgbadd} = 1;
+ keys %{ $colour_occurred{$colourname}{$cmykix} } == 1 or confess;
+
+ my @r;
+ my $rw;
+ if ($spec =~ m/^[0-9a-f]+$/) {
+ my $le = (length $spec)/3;
+ my $re = ("(.{$le})") x 3;
+ my @rgb = $spec =~ m/^$re$/; @rgb or confess "$re ?";
+ @rgb = map { hex($_) / (16**$le -1) } @rgb;
+ foreach (@rgb) { $_ *= $rgbmul; $_ += $rgbadd; }
+ @r = @rgb;
+ $rw = 'setrgbcolor';
+ } elsif ($spec =~ m/[CMYK]/) {
+ my @specs = split /\//, $spec;
+ if ($cmykix==1 && @specs==1) {
+ $spec = $specs[0];
+ } else {
+ $spec = $specs[$cmykix];
+ confess unless defined $spec;
+ }
+ my %cmyk;
+ foreach (split /(?=[A-Z])/, $spec) {
+ m/^([CMYK])([0-7](?:\.\d*)?|8)_?$/ or confess $_.' ?';
+ confess if defined $cmyk{$1};
+ $cmyk{$1} = $2 / 8.;
+ #print STDERR " CMYK $1 $2\n";
+ }
+ @r = map { $cmyk{$_} // 0 } qw(C M Y K);
+ $rw = 'setcmykcolor';
+ } else {
+ confess $spec.' ?';
+ }
my $r = join ' ',
- (map { sprintf "%.6f ", $_ } @rgb
+ (map { sprintf "%.6f ", $_ } @r
),
- 'setrgbcolor';
+ $rw;
return $r;
}
sub lighterpscolour ($$) {
my ($colourname, $retain) = @_;
- pscolour($c{Colours}{$colourname},
- sub { $_ = 1.0 - $retain * (1.0 - $_) foreach @_ })
+ #print STDERR "COLOUR LIGHTER $retain $colourname\n";
+ pscolour($colourname, 0, $retain, 1-$retain);
}
sub darkerpscolour ($$) {
my ($colourname, $retain) = @_;
- pscolour($c{Colours}{$colourname},
- sub { $_ = $retain * $_ foreach @_ })
+ #print STDERR "COLOUR DARKER $retain $colourname\n";
+ pscolour($colourname, 2, $retain, 0);
}
sub facepscolour ($) {
my ($colourname) = @_;
- $xopts =~ m/W/ ? '1 setgray' : lighterpscolour($colourname, 0.75);
+ $xopts =~ m/W/ ? '1 setgray' :
+ $colourname =~ m/land/ ? miscpscolour($colourname)
+ : lighterpscolour($colourname, 0.75);
}
sub miscpscolour ($) {
my ($colourname) = @_;
- pscolour($c{Colours}{$colourname});
+ #print STDERR "COLOUR MISC $colourname\n";
+ pscolour($colourname, 1, 1,0);
}
-sub cubeedgepscolour () { '0 setgray ' }
sub seatrackedgepscolour () { darkerpscolour('cube', 0.25) }
-# xxx ^ combine these - which one ?
sub fill_faces() {
o("clippath ", facepscolour('land'), " fill\n");
}
}
-sub afsluitdijk() {
- my ($adj) = grep { $_->{Name} eq 'NZ' } @{ $region{'ZZ'}{Adj} };
+sub dashedwithhs ($$$) {
+ my ($inner, $comment, $colour) = @_;
+ my ($adj) = grep { $_->{Name} eq $c{Sea} } @{ $region{$inner}{Adj} };
my $dash = 20;
my (@pos) = adj_ends($adj);
my $mid = 0.5 * ($pos[0] + $pos[1]);
my $r = 0.5 * ($pos[1] - $pos[0])->norm();
- o(sprintf <<'END', facepscolour('sea'), psvec($mid), $r);
- %% Afsluitdijk
+ o(sprintf <<'END', $comment, facepscolour('sea'), psvec($mid), $r);
+ %% %s
%s %s %s 0 360 arc closepath fill
END
some_edge_faces(()); # just sets the colour
stroke
[] 0 setdash
END
- one_hs('purple', $mid);
+ one_hs($colour, $mid);
+}
+
+sub dashedwithhses() {
+ dashedwithhs(
+ $_->{Inner},
+ $_->{Comment},
+ $_->{Colour}
+ ) foreach @{ $c{DashedHs} };
}
sub edge_faces() {
- some_edge_faces($region{'NZ'});
- afsluitdijk();
+ some_edge_faces($region{$c{Sea}});
+ dashedwithhses();
some_edge_faces(grep {
- $_->{Name} !~ m{^(?:L2?|NZ|ZZ)$}
+ my $n = $_->{Name};
+ $n !~ m{^$c{OuterfaceRe}$} &&
+ !grep { $n eq $_->{Inner} } @{ $c{DashedHs} }
} values %region);
}
next if $rr->{Name} =~ m/^L\d?$/;
my $words = $rr->{DisplayName};
my $pos;
- if ($rr->{Name} eq 'NZ') {
+ if ($rr->{Name} eq $c{Sea}) {
$pos = mkvec(90, 1280);
} else {
$pos = $rr->{Centre} + mkvec( 0, 0.5 * $sz * @$words );
}
if ($hs{$rr->{Name}}) {
- print STDERR "adjust hs $rr->{Name}\n";
+ #print STDERR "adjust hs $rr->{Name}\n";
$pos -= mkvec(0, -$hs_sz*
( $rr->{Colour} eq 'green' ? 0.25 : 0.65 ));
my $hspos = $pos - mkvec(0, $sz * @$words + $hs_sz/2 + $hs_lw
$pos += $sz * &mkvec(@$adjust);
}
my $w = $rr->{Water};
- $w = 2 if $rr->{Special} || $rr->{Name} eq 'ZZ';
+ $w = 2 if $rr->{Name} eq $c{Sea};
if ($w) {
- print STDERR " water $w in $rr->{Name}\n";
+ #print STDERR " water $w in $rr->{Name}\n";
my $down = water_cubes_sz(2) - water_cubes_sz(1) + $cube_gap;
$pos -= mkvec(0, -0.5 * $down);
my $cube_y = -($sz * @$words);
- if ($rr->{Name} eq 'Wieringermeer') {
+ if (grep { $_ eq $rr->{Name} } @{ $c{CubeAbove} }) {
$pos -= mkvec(0,+$sz);
$cube_y = 0;
$down = 0;
o(" ", psvec($pos), " translate\n");
o(" 0 ", $cube_y, " translate\n");
o(" ", -0.5 * water_cubes_sz($w)," ", -$down, " translate\n");
- water_cubes($w);
+ water_cubes($w, miscpscolour('edge'));
o(" grestore\n");
}
o(" /words {\n");
($cube_sz + $cube_lw) * $n + ($cube_gap * ($n-1));
}
-sub water_cubes($){
- my ($n) = @_;
+sub water_cubes($$){
+ my ($n, $edgecolour) = @_;
my $s = $cube_sz;
for my $i (0..$n-1) {
o(" newpath ", $i * ($cube_sz + $cube_lw + $cube_gap)," 0 moveto\n");
o(" 0 $s rlineto\n");
o(" -$s 0 rlineto closepath\n");
o(" gsave ", miscpscolour('cube'), " fill grestore\n");
- o(" gsave ", cubeedgepscolour(), $cube_lw,
+ o(" gsave ", $edgecolour, " ", $cube_lw,
" setlinewidth stroke grestore \n");
}
}
o(" 200 0 translate deck1path\n");
o(" } bind def");
o(" $lw setlinewidth ",miscpscolour('playerdeck'),"\n");
- o(" gsave 401 44 translate deckpairpathx stroke grestore");
+ o(" gsave 401 44 $bottom_adjuncts_dy_from_boundings add translate");
+ o(" deckpairpathx stroke grestore");
o(" $lw setlinewidth ",miscpscolour('dykefail'),"\n");
- o(" gsave 242 1363 translate 90 rotate deckpairpathx stroke grestore");
+ o(" gsave 242 1363 $top_adjuncts_dy_from_boundings add translate ");
+ o(" 90 rotate deckpairpathx stroke grestore");
}
sub sea_track(){
$linecolour);
}
my $last = 0;
+ my $cubeedgecolour = seatrackedgepscolour();
for my $i (0..$#pos) {
my $differs = $track->[$i] != $last;
$last = $track->[$i];
(-$dy * 0.5 - 0.5 * (water_cubes_sz(2))),
" translate\n");
my $bottom = int(($track->[$i+1] + 1) / 2);
- water_cubes($bottom);
+ water_cubes($bottom, $cubeedgecolour);
my $new_n = $track->[$i+1] - $bottom;
o(" ", 0.5 * (water_cubes_sz($bottom) - water_cubes_sz($new_n)),
" ", (water_cubes_sz(2)-water_cubes_sz(1)), " translate\n");
- water_cubes($new_n);
+ water_cubes($new_n, $cubeedgecolour);
o(" grestore\n");
}
o(" grestore\n");
my $t_sz = $symbol_sz * 1.0;
my $t_at = sub {
my ($ang) = @_;
- print STDERR "ANG $ang\n";
+ #print STDERR "ANG $ang\n";
map { $t_sz * 0.5 * $_ } cos($ang), sin($ang);
};
my @t0 = $t_at->((TAU) * 0.25 );
o(" } bind def\n");
foreach my $rr (values %region) {
next if $rr->{Special};
- next if $rr->{Name} eq 'ZZ';
+ next if grep { $_->{Inner} eq $rr->{Name} } @{ $c{DashedHs} };
next if $rr->{Colour} eq 'high';
foreach my $adj (@{ $rr->{Adj} }) {
my $neigh = $adj->{Name};
my $demo_w = $demo_x0 + $dyke_l * 0.60;
o(" % HS I $colour\n");
o(" gsave\n");
- o(" 550 1705 translate\n");
+ o(" 550 1705 $top_adjuncts_dy_from_boundings add translate\n");
o(" ", ($xi*$interval), " ", (($yi-1)*$interval), " translate\n");
if ($fn) {
- o(" gsave");
+ o(" gsave\n");
o(" $demo_h setlinewidth 0 0 moveto $demo_w 0 rlineto\n");
o(" ", facepscolour($colour), " stroke grestore\n");
}
one_hs($colour, mkvec(0,0));
if ($fn) {
- o(" /words {");
- o(" 2 copy moveto ($text) show");
- o(" 2 copy moveto 0 -$text_sz rmoveto ($text2) show");
- o(" } bind def");
+ o(" /words {\n");
+ o(" 2 copy moveto ($text) show\n");
+ o(" 2 copy moveto 0 -$text_sz rmoveto ($text2) show\n");
+ o(" } bind def\n");
o(" gsave ".($hs_sz * 0.8)." $cube_gap translate wordsshow grestore\n");
o(" $demo_x0 ",($hs_sz * -0.25)," translate\n");
$fn->();
hs_initial_1('green', 1,0, 'up to 6', 'fewer', sub {
o(" ",(water_cubes_sz(1))," 0 translate\n");
o(" 0 ",(-water_cubes_sz(1) * 0.3)," translate\n");
- water_cubes(1);
+ water_cubes(1, miscpscolour('edge'));
});
hs_initial_1('yellow', 1,1, 'up to 4', '', sub {
o(" newpath dykepath\n");
sub play_hint () {
my $sz = 20;
- o(" gsave ",miscpscolour('hinttext')," 260 1715 translate");
- o(" /Helvetica-Bold findfont $sz scalefont setfont");
+ o(" gsave ",miscpscolour('hinttext'),
+ " 260 1715 $top_adjuncts_dy_from_boundings add translate\n");
+ o(" /Helvetica-Bold findfont $sz scalefont setfont\n");
my @t = split /\n/, $c{PlayHint};
foreach my $i (0..$#t) {
my $t = $t[$i];
$t =~ s/[\\()]/\\$&/g;
- o(" 0 ",(-$i * $sz)," moveto ($t) show");
+ o(" 0 ",(-$i * $sz)," moveto ($t) show\n");
}
o(" grestore");
}
$xopts = shift @ARGV if $ARGV[0] =~ s/^-X//;
$bounding = $1 if $xopts =~ s/b(\w+)//;
+$maxpaper = $1 if $xopts =~ s/p(\w+)//;
+$maxpaper =~ m/^a[134]$|^a1m$/ or confess;
($facesf, @ARGV) = @ARGV or die;
parse_input_graph();
read_faces();
calculate_centres();
transform_coordinates();
-adjust_nz();
+adjust_sea();
computeboundings();
preamble();
sea_track();
hs_initial();
play_hint();
-showboundings();
postamble();
print STDERR Dumper(\%region) if $ENV{'GENERATE_BOARD_DUP'};