Merge branch 'new-extra-perimeters'

lib/Slic3r/Layer/Region.pm

@@ -216,7 +216,7 @@ sub make_perimeters {
         my @gaps = ();
         
         # generate perimeters inwards (loop 0 is the external one)
-        my $loop_number = $Slic3r::Config->perimeters + ($surface->additional_inner_perimeters || 0);
+        my $loop_number = $Slic3r::Config->perimeters + ($surface->extra_perimeters || 0);
         push @perimeters, [] if $loop_number > 0;
         
         # do one more loop (<= instead of <) so that we can detect gaps even after the desired

lib/Slic3r/Print/Object.pm

@@ -4,7 +4,7 @@ use Moo;
 use List::Util qw(min sum first);
 use Slic3r::ExtrusionPath ':roles';
 use Slic3r::Geometry qw(Z PI scale unscale deg2rad rad2deg scaled_epsilon);
-use Slic3r::Geometry::Clipper qw(diff_ex intersection_ex union_ex);
+use Slic3r::Geometry::Clipper qw(diff_ex intersection_ex union_ex offset);
 use Slic3r::Surface ':types';
 
 has 'print'             => (is => 'ro', weak_ref => 1, required => 1);
@@ -236,40 +236,43 @@ sub make_perimeters {
                 
                 my $overlap = $perimeter_spacing;  # one perimeter
                 
-                # compute the polygon used to trigger the additional perimeters: the hole represents
+                my $diff = diff_ex(
-                # the required overlap, while the contour represents how different should the slices be 
+                    [ offset([ map @{$_->expolygon}, @{$layerm->slices} ], -($Slic3r::Config->perimeters * $perimeter_spacing)) ],
-                # (thus how horizontal should the slope be) before extra perimeters are not generated, and
+                    [ offset([ map @{$_->expolygon}, @{$upper_layerm->slices} ], -$overlap) ],
-                # normal solid infill is used
-                my $upper = diff_ex(
-                    [ map @$_, map $_->expolygon->offset_ex($overlap), @{$upper_layerm->slices} ],
-                    [ map @$_, map $_->expolygon->offset_ex(-$overlap), @{$upper_layerm->slices} ],
                 );
-                next if !@$upper;
+                next if !@$diff;
+                # if we need more perimeters, $diff should contain a narrow region that we can collapse
+                
+                $diff = diff_ex(
+                    [ map @$_, @$diff ],
+                    [ offset(
+                        [ offset([ map @$_, @$diff ], -$perimeter_spacing) ],
+                        +$perimeter_spacing
+                    ) ],
+                );
+                next if !@$diff;
+                # diff contains the collapsed area
                 
                 foreach my $slice (@{$layerm->slices}) {
-                    my $hypothetical_perimeter_num = $Slic3r::Config->perimeters + 1;
+                    my $extra_perimeters = 0;
                     CYCLE: while (1) {
                         # compute polygons representing the thickness of the hypotetical new internal perimeter
                         # of our slice
-                        my $hypothetical_perimeter;
+                        $extra_perimeters++;
-                        {
+                        my $hypothetical_perimeter = diff_ex(
-                            my $outer = [ map @$_, $slice->expolygon->offset_ex(- ($hypothetical_perimeter_num-1) * $perimeter_spacing - scaled_epsilon) ];
+                            [ offset($slice->expolygon, -($perimeter_spacing * ($Slic3r::Config->perimeters + $extra_perimeters-1))) ],
-                            last CYCLE if !@$outer;
+                            [ offset($slice->expolygon, -($perimeter_spacing * ($Slic3r::Config->perimeters + $extra_perimeters))) ],
-                            my $inner = [ map @$_, $slice->expolygon->offset_ex(- $hypothetical_perimeter_num * $perimeter_spacing) ];
+                        );
-                            last CYCLE if !@$inner;
+                        last CYCLE if !@$hypothetical_perimeter;  # no extra perimeter is possible
-                            $hypothetical_perimeter = diff_ex($outer, $inner);
-                        }
-                        last CYCLE if !@$hypothetical_perimeter;
                         
-                        # compute the area of the hypothetical perimeter
+                        # only add the perimeter if there's an intersection with the collapsed area
-                        my $hp_area = sum(map $_->area, @$hypothetical_perimeter);
+                        my $intersection = intersection_ex(
-                        
+                            [ map @$_, @$diff ],
-                        # only add the perimeter if the intersection is at least 20%, otherwise we'd get no benefit
+                            [ map @$_, @$hypothetical_perimeter ],
-                        my $intersection = intersection_ex([ map @$_, @$upper ], [ map @$_, @$hypothetical_perimeter ]);
+                        );
-                        last CYCLE if (sum(map $_->area, @{ $intersection }) // 0) < $hp_area * 0.2;
+                        last CYCLE if !@$intersection;
                         Slic3r::debugf "  adding one more perimeter at layer %d\n", $layer_id;
-                        $slice->additional_inner_perimeters(($slice->additional_inner_perimeters || 0) + 1);
+                        $slice->extra_perimeters($extra_perimeters);
-                        $hypothetical_perimeter_num++;
                     }
                 }
             }

lib/Slic3r/SVG.pm

@@ -7,6 +7,8 @@ use SVG;
 use constant X => 0;
 use constant Y => 1;
 
+our $filltype = 'evenodd';
+
 sub factor {
     return &Slic3r::SCALING_FACTOR * 10;
 }
@@ -36,6 +38,25 @@ sub output {
     
     my $svg = svg();
     
+    foreach my $type (qw(expolygons red_expolygons green_expolygons)) {
+        next if !$things{$type};
+        my ($colour) = $type =~ /^(red|green)_/;
+        my $g = $svg->group(
+            style => {
+                'stroke-width' => 2,
+                'stroke' => $colour || 'black',
+                'fill' => ($type !~ /polygons/ ? 'none' : ($colour || 'grey')),
+                'fill-type' => $filltype,
+            },
+        );
+        foreach my $expolygon (@{$things{$type}}) {
+            my $points = join ' ', map "M $_ z", map join(" ", reverse map $_->[0]*factor() . " " . $_->[1]*factor(), @$_), @$expolygon;
+            $g->path(
+                d => $points,
+            );
+        }
+    }
+    
     foreach my $type (qw(polygons polylines white_polygons green_polygons red_polygons red_polylines)) {
         if ($things{$type}) {
             my $method = $type =~ /polygons/ ? 'polygon' : 'polyline';

lib/Slic3r/Surface.pm

@@ -11,7 +11,7 @@ use constant S_EXPOLYGON    => 0;
 use constant S_SURFACE_TYPE => 1;
 use constant S_DEPTH_LAYERS => 2;
 use constant S_BRIDGE_ANGLE => 3;
-use constant S_ADDITIONAL_INNER_PERIMETERS => 4;
+use constant S_EXTRA_PERIMETERS => 4;
 
 use constant S_TYPE_TOP             => 0;
 use constant S_TYPE_BOTTOM          => 1;
@@ -24,7 +24,7 @@ sub new {
     my %args = @_;
     
     my $self = [
-        map delete $args{$_}, qw(expolygon surface_type depth_layers bridge_angle additional_inner_perimeters),
+        map delete $args{$_}, qw(expolygon surface_type depth_layers bridge_angle extra_perimeters),
     ];
     $self->[S_DEPTH_LAYERS] //= 1; #/
     
@@ -36,7 +36,7 @@ sub expolygon       { $_[0][S_EXPOLYGON] }
 sub surface_type    { $_[0][S_SURFACE_TYPE] = $_[1] if defined $_[1]; $_[0][S_SURFACE_TYPE] }
 sub depth_layers    { $_[0][S_DEPTH_LAYERS] } # this integer represents the thickness of the surface expressed in layers
 sub bridge_angle    { $_[0][S_BRIDGE_ANGLE] = $_[1] if defined $_[1]; $_[0][S_BRIDGE_ANGLE] }
-sub additional_inner_perimeters { $_[0][S_ADDITIONAL_INNER_PERIMETERS] = $_[1] if defined $_[1]; $_[0][S_ADDITIONAL_INNER_PERIMETERS] }
+sub extra_perimeters { $_[0][S_EXTRA_PERIMETERS] = $_[1] if defined $_[1]; $_[0][S_EXTRA_PERIMETERS] }
 
 # delegate handles
 sub encloses_point  { $_[0]->expolygon->encloses_point }