use List::Util;
use POSIX;
use File::Temp ();
+use Data::Dumper;
sub TAU () { M_PI * 2; }
our $fa = 10;
-our @triangles;
+our $triangles;
+our $output;
sub shift_arg () {
die unless @ARGV;
scalar shift @ARGV;
}
-sub subdivide_triangle ($$) {
- my ($t, $fn) = @_;
- my @mids;
+#no warnings qw(recursion);
+
+sub maybe_subdivide_triangle ($$$$) {
+ my ($t, $ok, $changed, $edge_need_subdivide_fn) = @_;
+
+ printf STDERR
+ "%11.6f,%11.6f,%11.6f / ".
+ "%11.6f,%11.6f,%11.6f / ".
+ "%11.6f,%11.6f,%11.6f ",
+ $t->[0][0], $t->[0][1], $t->[0][2],
+ $t->[1][0], $t->[1][1], $t->[1][2],
+ $t->[2][0], $t->[2][1], $t->[2][2];
+
foreach my $ix (0..2) {
my $jx = ($ix+1) % 3;
- my @midp;
- foreach my $ci (0..2) {
- push @midp, 0.5 * ($t->[$ix][$ci] + $t->[$jx][$ci]);
+ my $kx = ($ix+2) % 3;
+ if ($edge_need_subdivide_fn->($t->[$ix], $t->[$jx])) {
+ printf STDERR
+ " S i=%d j=%d k=%d \n",
+ $ix, $jx, $kx;
+ my @midp;
+ foreach my $ci (0..2) {
+ push @midp, 0.5 * ($t->[$ix][$ci] + $t->[$jx][$ci]);
+ }
+ # triangle i-j-k, splitting edge i-m
+ # gives i-m-k, k-m-j
+ push @$changed,
+ [ $t->[$ix], \@midp, $t->[$kx] ],
+ [ $t->[$kx], \@midp, $t->[$jx] ];
+ return;
}
- push @mids, @midp;
}
- foreach my $ix (0..2) {
- my $kx = ($ix+2) % 3;
- $fn->([ $t->[$ix], $mids[$ix], $t->[$kx] ]);
+ push @$ok, $t;
+ printf STDERR "OK nok=%d nchanged=%d\n",
+ (scalar @$ok), (scalar @$changed);
+}
+
+sub maybe_subdivide ($) {
+ my ($edge_need_subdivide_fn) = @_;
+
+ my @small_enough = ();
+ while (my $t = shift @$triangles) {
+ maybe_subdivide_triangle $t, \@small_enough, $triangles,
+ $edge_need_subdivide_fn;
}
- $fn->(\@mids);
+
+ $triangles = \@small_enough;
+}
+
+sub append_triangle ($) {
+ my ($t) = @_;
+ push @$output, $t;
+}
+
+#---------- set-fa ----------
+
+sub op__set_fa () {
+ $fa = shift_arg;
}
#---------- project-cylinder ----------
our $project_cylinder_radius;
our $project_cylinder_max_d_theta;
+sub project_cylinder_edge_need_subdivide ($$) {
+ my @thetas = map { $_->[0] / $project_cylinder_radius } @_;
+ return abs($thetas[0] - $thetas[1]) > $project_cylinder_max_d_theta;
+}
+
sub project_cylinder_tri {
my ($t) = @_;
- my $radius = $project_cylinder_radius;
+ #print STDERR 'PROJECT', Dumper($t);
- my @thetas = map { $_->[0] / $radius } @$t;
-
- foreach my $ix (0..2) {
- if (abs($thetas[$ix] - $thetas[($ix+1)%3])
- > $project_cylinder_max_d_theta) {
- subdivide_triangle $t, \&project_cylinder_tri;
- return;
- }
- }
+ my $radius = $project_cylinder_radius;
my @ot;
- foreach my $p ($t) {
+ foreach my $p (@$t) {
my ($x,$y,$z) = @$p;
my $r = $radius - $y;
my $theta = $x / $radius;
-$r * cos($theta),
$z ];
}
- push @triangles, \@ot;
+ append_triangle \@ot;
}
sub op__project_cylinder () {
$project_cylinder_radius = shift_arg;
$project_cylinder_max_d_theta = $fa * TAU/360;
- my @input = (@triangles);
- @triangles = ();
-
- project_cylinder_tri $_ foreach @input;
+ maybe_subdivide \&project_cylinder_edge_need_subdivide;
+
+ $output = [];
+ foreach my $t (@$triangles) {
+ project_cylinder_tri $t;
+ }
+ $triangles = $output;
}
#---------- main program ----------
push @$triangle, \@xyz;
} elsif (m/^endloop/) {
die unless @$triangle == 3;
- push @triangles, $triangle;
+ push @$triangles, $triangle;
undef $triangle;
} elsif (m/^(?:solid|facet\s+normal|endfacet|endsolid)\s/) {
} else {
print "solid distort-stl\n";
-foreach my $t (@triangles) {
+foreach my $t (@$triangles) {
print " facet normal 0 0 0\n";
print " outer loop\n";
- print " vertex";
- printf " %.18g", $_ foreach @$t;
- print "\n";
+ die unless @$t==3;
+ foreach my $p (@$t) {
+ die unless @$p==3;
+ print " vertex";
+ printf " %.18g", $_ foreach @$p;
+ print "\n";
+ }
print " endloop\n";
print " endfacet\n";
}