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-rw-r--r--src/vec_core.cpp96
1 files changed, 85 insertions, 11 deletions
diff --git a/src/vec_core.cpp b/src/vec_core.cpp
index 81a2a96..9d2909f 100644
--- a/src/vec_core.cpp
+++ b/src/vec_core.cpp
@@ -21,6 +21,7 @@
#include <iostream>
#include <algorithm>
#include <vector>
+#include <regex>
#include <opencv2/opencv.hpp>
#include "svg_import_util.h"
#include "vec_core.h"
@@ -36,7 +37,7 @@ ImageVectorizer *gerbolyze::makeVectorizer(const std::string &name) {
else if (name == "hex-grid")
return new VoronoiVectorizer(HEXGRID, /* relax */ false);
else if (name == "square-grid")
- return new VoronoiVectorizer(SQUAREGRID, /* relax */ true);
+ return new VoronoiVectorizer(SQUAREGRID, /* relax */ false);
else if (name == "binary-contours")
return new OpenCVContoursVectorizer();
else if (name == "dev-null")
@@ -189,6 +190,15 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
apply_cairo_transform_from_svg(cr, node.attribute("transform").value());
cairo_translate(cr, x, y);
+ double orig_rows = img.rows;
+ double orig_cols = img.cols;
+ double scale_x = (double)width / orig_cols;
+ double scale_y = (double)height / orig_rows;
+ double off_x = 0;
+ double off_y = 0;
+ handle_aspect_ratio(node.attribute("preserveAspectRatio").value(),
+ scale_x, scale_y, off_x, off_y, orig_cols, orig_rows);
+
/* Adjust minimum feature size given in mm and translate into px document units in our local coordinate system. */
double f_x = min_feature_size_px, f_y = 0;
cairo_device_to_user_distance(cr, &f_x, &f_y);
@@ -202,7 +212,7 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
grayscale interpolation. Larger values -> better grayscale resolution,
larger cells. */
double center_distance = min_feature_size_px * 2.0 * (1.0 / (1.0-grayscale_overhead));
- vector<d2p> *grid_centers = get_sampler(m_grid_type)(width, height, center_distance);
+ vector<d2p> *grid_centers = get_sampler(m_grid_type)(scale_x * orig_cols, scale_y*orig_rows, center_distance);
//vector<d2p> *grid_centers = sample_poisson_disc(width, height, min_feature_size_px * 2.0 * 2.0);
//vector<d2p> *grid_centers = sample_hexgrid(width, height, center_distance);
//vector<d2p> *grid_centers = sample_squaregrid(width, height, center_distance);
@@ -232,7 +242,9 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
/* Calculate voronoi diagram for the grid generated above. */
jcv_diagram diagram;
memset(&diagram, 0, sizeof(jcv_diagram));
- jcv_rect rect {{0.0, 0.0}, {width, height}};
+ cerr << "adjusted scale " << scale_x << " " << scale_y << endl;
+ cerr << "voronoi clip rect " << (scale_x * orig_cols) << " " << (scale_y * orig_rows) << endl;
+ jcv_rect rect {{0.0, 0.0}, {scale_x * orig_cols, scale_y * orig_rows}};
jcv_point *pts = reinterpret_cast<jcv_point *>(grid_centers->data()); /* hackety hack */
jcv_diagram_generate(grid_centers->size(), pts, &rect, 0, &diagram);
/* Relax points, i.e. wiggle them around a little bit to equalize differences between cell sizes a little bit. */
@@ -255,8 +267,8 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
const jcv_point center = sites[i].p;
double pxd = (double)blurred.at<unsigned char>(
- (int)round(center.y / height * blurred.rows),
- (int)round(center.x / width * blurred.cols)) / 255.0;
+ (int)round(center.y / (scale_y * orig_rows / blurred.rows)),
+ (int)round(center.x / (scale_x * orig_cols / blurred.cols))) / 255.0;
/* FIXME: This is a workaround for a memory corruption bug that happens with the square-grid setting. When using
* square-grid on a fairly small test image, sometimes sites[i].index will be out of bounds here.
*/
@@ -321,8 +333,8 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
* "step". */
double x = e->pos[0].x;
double y = e->pos[0].y;
- x = center.x + (x - center.x) * fill_factor;
- y = center.y + (y - center.y) * fill_factor;
+ x = off_x + center.x + (x - center.x) * fill_factor;
+ y = off_y + center.y + (y - center.y) * fill_factor;
cairo_user_to_device(cr, &x, &y);
cell_path.push_back({ (ClipperLib::cInt)round(x * clipper_scale), (ClipperLib::cInt)round(y * clipper_scale) });
@@ -331,8 +343,8 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
/* Emit endpoint of current edge */
double x = e->pos[1].x;
double y = e->pos[1].y;
- x = center.x + (x - center.x) * fill_factor;
- y = center.y + (y - center.y) * fill_factor;
+ x = off_x + center.x + (x - center.x) * fill_factor;
+ y = off_y + center.y + (y - center.y) * fill_factor;
cairo_user_to_device(cr, &x, &y);
cell_path.push_back({ (ClipperLib::cInt)round(x * clipper_scale), (ClipperLib::cInt)round(y * clipper_scale) });
@@ -379,6 +391,61 @@ void gerbolyze::VoronoiVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_
cairo_restore(cr);
}
+void gerbolyze::handle_aspect_ratio(string spec, double &scale_x, double &scale_y, double &off_x, double &off_y, double cols, double rows) {
+
+ if (spec.empty()) {
+ spec = "xMidYMid meet";
+ }
+
+ auto idx = spec.find(" ");
+ string par_align = spec;
+ string par_meet = "meet";
+ if (idx != string::npos) {
+ par_align = spec.substr(0, idx);
+ par_meet = spec.substr(idx+1);
+ }
+
+ if (par_align != "none") {
+ double scale = scale_x;
+ if (par_meet == "slice") {
+ scale = std::max(scale_x, scale_y);
+ } else {
+ scale = std::min(scale_x, scale_y);
+ }
+
+ std::regex reg("x(Min|Mid|Max)Y(Min|Mid|Max)");
+ std::smatch match;
+
+ cerr << "data: " <<" "<< scale_x << "/" << scale_y << ": " << scale << endl;
+ off_x = (scale_x - scale) * cols;
+ off_y = (scale_y - scale) * rows;
+ cerr << rows <<","<<cols<<" " << off_x << "," << off_y << endl;
+ if (std::regex_match(par_align, match, reg)) {
+ assert (match.size() == 3);
+ if (match[1].str() == "Min") {
+ off_x = 0;
+ } else if (match[1].str() == "Mid") {
+ off_x *= 0.5;
+ }
+
+ if (match[2].str() == "Min") {
+ off_y = 0;
+ } else if (match[2].str() == "Mid") {
+ off_y *= 0.5;
+ }
+
+ } else {
+ cerr << "Invalid preserveAspectRatio meetOrSlice value \"" << par_align << "\"" << endl;
+ off_x *= 0.5;
+ off_y *= 0.5;
+ }
+
+ scale_x = scale_y = scale;
+ }
+ cerr << "res: "<< off_x << "," << off_y << endl;
+}
+
+
void gerbolyze::OpenCVContoursVectorizer::vectorize_image(cairo_t *cr, const pugi::xml_node &node, ClipperLib::Paths &clip_path, cairo_matrix_t &viewport_matrix, PolygonSink &sink, double min_feature_size_px) {
double x, y, width, height;
parse_img_meta(node, x, y, width, height);
@@ -391,6 +458,13 @@ void gerbolyze::OpenCVContoursVectorizer::vectorize_image(cairo_t *cr, const pug
apply_cairo_transform_from_svg(cr, node.attribute("transform").value());
cairo_translate(cr, x, y);
+ double scale_x = (double)width / (double)img.cols;
+ double scale_y = (double)height / (double)img.rows;
+ double off_x = 0;
+ double off_y = 0;
+ handle_aspect_ratio(node.attribute("preserveAspectRatio").value(),
+ scale_x, scale_y, off_x, off_y, img.cols, img.rows);
+
draw_bg_rect(cr, width, height, clip_path, sink, viewport_matrix);
vector<vector<cv::Point>> contours;
@@ -415,8 +489,8 @@ void gerbolyze::OpenCVContoursVectorizer::vectorize_image(cairo_t *cr, const pug
ClipperLib::Path out;
for (const auto &p : contours[i]) {
- double x = (double)p.x / (double)img.cols * (double)width;
- double y = (double)p.y / (double)img.rows * (double)height;
+ double x = off_x + (double)p.x * scale_x;
+ double y = off_y + (double)p.y * scale_y;
cairo_user_to_device(cr, &x, &y);
out.push_back({ (ClipperLib::cInt)round(x * clipper_scale), (ClipperLib::cInt)round(y * clipper_scale) });
}