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-rw-r--r--svg-flatten/src/vec_core.cpp14
1 files changed, 7 insertions, 7 deletions
diff --git a/svg-flatten/src/vec_core.cpp b/svg-flatten/src/vec_core.cpp
index 1b36887..39285f9 100644
--- a/svg-flatten/src/vec_core.cpp
+++ b/svg-flatten/src/vec_core.cpp
@@ -175,7 +175,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
double off_y = 0;
handle_aspect_ratio(node.attribute("preserveAspectRatio").value(),
scale_x, scale_y, off_x, off_y, orig_cols, orig_rows);
- cerr << "aspect " << scale_x << ", " << scale_y << " / " << off_x << ", " << off_y << endl;
+ //cerr << "aspect " << scale_x << ", " << scale_y << " / " << off_x << ", " << off_y << endl;
/* Adjust minimum feature size given in mm and translate into px document units in our local coordinate system. */
min_feature_size_px = img_ctx.mat().doc2phys_dist(min_feature_size_px);
@@ -255,10 +255,10 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
vector<double> adjusted_fill_factors;
adjusted_fill_factors.reserve(32); /* Vector to hold adjusted fill factors for each edge for gap filling */
/* now iterate over all voronoi cells again to generate each cell's scaled polygon halftone blob. */
- cerr << " generating cells " << diagram.numsites << endl;
+ //cerr << " generating cells " << diagram.numsites << endl;
for (int i=0; i<diagram.numsites; i++) {
const jcv_point center = sites[i].p;
- cerr << " site center " << center.x << ", " << center.y << endl;
+ //cerr << " site center " << center.x << ", " << center.y << endl;
double fill_factor_ours = fill_factors[sites[i].index];
/* Do not render halftone blobs that are too small */
@@ -297,7 +297,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
e = e->next;
}
- cerr << " blob: ";
+ //cerr << " blob: ";
/* Now, generate the actual halftone blob polygon */
ClipperLib::Path cell_path;
double last_fill_factor = adjusted_fill_factors.back();
@@ -312,7 +312,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
off_x + center.x + (e->pos[0].x - center.x) * fill_factor,
off_y + center.y + (e->pos[0].y - center.y) * fill_factor
});
- cerr << " - <" << p[0] << ", " << p[1] << ">";
+ //cerr << " - <" << p[0] << ", " << p[1] << ">";
cell_path.push_back({
(ClipperLib::cInt)round(p[0] * clipper_scale),
(ClipperLib::cInt)round(p[1] * clipper_scale)
@@ -324,7 +324,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
off_x + center.x + (e->pos[1].x - center.x) * fill_factor,
off_y + center.y + (e->pos[1].y - center.y) * fill_factor
});
- cerr << " - [" << p[0] << ", " << p[1] << "]";
+ //cerr << " - [" << p[0] << ", " << p[1] << "]";
cell_path.push_back({
(ClipperLib::cInt)round(p[0] * clipper_scale),
(ClipperLib::cInt)round(p[1] * clipper_scale)
@@ -334,7 +334,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(RenderContext &ctx, const pug
last_fill_factor = fill_factor;
e = e->next;
}
- cerr << endl;
+ //cerr << endl;
/* Now, clip the halftone blob generated above against the given clip path. We do this individually for each
* blob since this way is *much* faster than throwing a million blobs at once at poor clipper. */