fixed ExPolygons dealocation while using EdgeGrid
fixed warnings in Bicubic.h file
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965803822e
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156a60017d
@ -750,7 +750,7 @@ void debug_export_points(const std::vector<std::vector<SeamPlacerImpl::SeamCandi
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for (size_t layer_idx = 0; layer_idx < object_perimter_points.size(); ++layer_idx) {
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for (size_t layer_idx = 0; layer_idx < object_perimter_points.size(); ++layer_idx) {
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std::string angles_file_name = debug_out_path(
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std::string angles_file_name = debug_out_path(
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(object_name + "_angles_" + std::to_string(layer_idx) + ".svg").c_str());
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(object_name + "_angles_" + std::to_string(layer_idx) + ".svg").c_str());
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SVG angles_svg { angles_file_name, bounding_box };
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SVG angles_svg {angles_file_name, bounding_box};
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float min_vis = 0;
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float min_vis = 0;
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float max_vis = min_vis;
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float max_vis = min_vis;
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@ -772,13 +772,13 @@ void debug_export_points(const std::vector<std::vector<SeamPlacerImpl::SeamCandi
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std::string visiblity_file_name = debug_out_path(
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std::string visiblity_file_name = debug_out_path(
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(object_name + "_visibility_" + std::to_string(layer_idx) + ".svg").c_str());
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(object_name + "_visibility_" + std::to_string(layer_idx) + ".svg").c_str());
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SVG visibility_svg { visiblity_file_name, bounding_box };
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SVG visibility_svg {visiblity_file_name, bounding_box};
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std::string weights_file_name = debug_out_path(
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std::string weights_file_name = debug_out_path(
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(object_name + "_weight_" + std::to_string(layer_idx) + ".svg").c_str());
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(object_name + "_weight_" + std::to_string(layer_idx) + ".svg").c_str());
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SVG weight_svg { weights_file_name, bounding_box };
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SVG weight_svg {weights_file_name, bounding_box};
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std::string overhangs_file_name = debug_out_path(
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std::string overhangs_file_name = debug_out_path(
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(object_name + "_overhang_" + std::to_string(layer_idx) + ".svg").c_str());
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(object_name + "_overhang_" + std::to_string(layer_idx) + ".svg").c_str());
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SVG overhangs_svg { overhangs_file_name, bounding_box };
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SVG overhangs_svg {overhangs_file_name, bounding_box};
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for (const SeamCandidate &point : object_perimter_points[layer_idx]) {
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for (const SeamCandidate &point : object_perimter_points[layer_idx]) {
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Vec3i color = value_rgbi(min_vis, max_vis, point.visibility);
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Vec3i color = value_rgbi(min_vis, max_vis, point.visibility);
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@ -903,18 +903,26 @@ void pick_random_seam_point(std::vector<SeamCandidate> &perimeter_points, size_t
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}
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}
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EdgeGrid::Grid compute_layer_merged_edge_grid(const Layer *layer) {
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struct EdgeGridWrapper {
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explicit EdgeGridWrapper(ExPolygons ex_polys) :
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ex_polys(ex_polys) {
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grid.create(this->ex_polys, distance_field_resolution);
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grid.calculate_sdf();
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}
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const coord_t distance_field_resolution = coord_t(scale_(1.) + 0.5);
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EdgeGrid::Grid grid;
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ExPolygons ex_polys;
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}
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;
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EdgeGridWrapper compute_layer_merged_edge_grid(const Layer *layer) {
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static const float eps = float(scale_(layer->object()->config().slice_closing_radius.value));
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static const float eps = float(scale_(layer->object()->config().slice_closing_radius.value));
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// merge with offset
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// merge with offset
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ExPolygons merged = layer->merged(eps);
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ExPolygons merged = layer->merged(eps);
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// ofsset back
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// ofsset back
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ExPolygons layer_outline = offset_ex(merged, -eps);
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ExPolygons layer_outline = offset_ex(merged, -eps);
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return EdgeGridWrapper(layer_outline);
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const coord_t distance_field_resolution = coord_t(scale_(1.) + 0.5);
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EdgeGrid::Grid result { };
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result.create(layer_outline, distance_field_resolution);
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result.calculate_sdf();
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return result;
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}
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}
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} // namespace SeamPlacerImpl
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} // namespace SeamPlacerImpl
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@ -971,9 +979,9 @@ void SeamPlacer::calculate_overhangs_and_layer_embedding(const PrintObject *po)
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tbb::parallel_for(tbb::blocked_range<size_t>(0, m_perimeter_points_per_object[po].size()),
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tbb::parallel_for(tbb::blocked_range<size_t>(0, m_perimeter_points_per_object[po].size()),
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[&](tbb::blocked_range<size_t> r) {
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[&](tbb::blocked_range<size_t> r) {
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std::unique_ptr<EdgeGrid::Grid> prev_layer_grid;
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std::unique_ptr<EdgeGridWrapper> prev_layer_grid;
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if (r.begin() > 0) { // previous layer exists
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if (r.begin() > 0) { // previous layer exists
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prev_layer_grid = std::make_unique<EdgeGrid::Grid>(
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prev_layer_grid = std::make_unique<EdgeGridWrapper>(
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compute_layer_merged_edge_grid(po->layers()[r.begin() - 1]));
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compute_layer_merged_edge_grid(po->layers()[r.begin() - 1]));
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}
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}
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@ -981,21 +989,22 @@ void SeamPlacer::calculate_overhangs_and_layer_embedding(const PrintObject *po)
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bool layer_has_multiple_loops =
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bool layer_has_multiple_loops =
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m_perimeter_points_per_object[po][layer_idx][0].perimeter->end_index
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m_perimeter_points_per_object[po][layer_idx][0].perimeter->end_index
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< m_perimeter_points_per_object[po][layer_idx].size() - 1;
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< m_perimeter_points_per_object[po][layer_idx].size() - 1;
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std::unique_ptr<EdgeGrid::Grid> current_layer_grid = std::make_unique<EdgeGrid::Grid>(
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std::unique_ptr<EdgeGridWrapper> current_layer_grid = std::make_unique<EdgeGridWrapper>(
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compute_layer_merged_edge_grid(po->layers()[layer_idx]));
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compute_layer_merged_edge_grid(po->layers()[layer_idx]));
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for (SeamCandidate &perimeter_point : m_perimeter_points_per_object[po][layer_idx]) {
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for (SeamCandidate &perimeter_point : m_perimeter_points_per_object[po][layer_idx]) {
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Point point = Point::new_scale(Vec2f { perimeter_point.position.head<2>() });
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Point point = Point::new_scale(Vec2f { perimeter_point.position.head<2>() });
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if (prev_layer_grid.get() != nullptr) {
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if (prev_layer_grid.get() != nullptr) {
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coordf_t overhang_dist;
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coordf_t overhang_dist;
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prev_layer_grid->signed_distance(point, scaled(perimeter_point.perimeter->flow_width), overhang_dist);
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prev_layer_grid->grid.signed_distance(point, scaled(perimeter_point.perimeter->flow_width),
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overhang_dist);
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perimeter_point.overhang =
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perimeter_point.overhang =
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unscale<float>(overhang_dist) - perimeter_point.perimeter->flow_width;
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unscale<float>(overhang_dist) - perimeter_point.perimeter->flow_width;
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}
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}
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if (layer_has_multiple_loops) { // search for embedded perimeter points (points hidden inside the print ,e.g. multimaterial join, best position for seam)
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if (layer_has_multiple_loops) { // search for embedded perimeter points (points hidden inside the print ,e.g. multimaterial join, best position for seam)
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coordf_t layer_embedded_distance;
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coordf_t layer_embedded_distance;
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current_layer_grid->signed_distance(point, scaled(1.0f),
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current_layer_grid->grid.signed_distance(point, scaled(1.0f),
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layer_embedded_distance);
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layer_embedded_distance);
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perimeter_point.embedded_distance = unscale<float>(layer_embedded_distance);
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perimeter_point.embedded_distance = unscale<float>(layer_embedded_distance);
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}
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}
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@ -78,37 +78,37 @@ struct CubicCatmulRomKernel
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return 0;
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return 0;
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}
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}
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static T a01() {
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static T a01() {
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return (T) -0.5;
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return T( -0.5);
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}
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}
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static T a02() {
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static T a02() {
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return (T) 1.;
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return T( 1.);
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}
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}
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static T a03() {
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static T a03() {
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return (T) -0.5;
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return T( -0.5);
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}
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}
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static T a10() {
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static T a10() {
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return (T) 1.;
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return T( 1.);
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}
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}
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static T a11() {
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static T a11() {
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return 0;
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return 0;
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}
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}
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static T a12() {
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static T a12() {
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return (T) -5. / 2.;
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return T( -5. / 2.);
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}
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}
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static T a13() {
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static T a13() {
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return (T) 3. / 2.;
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return T( 3. / 2.);
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}
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}
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static T a20() {
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static T a20() {
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return 0;
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return 0;
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}
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}
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static T a21() {
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static T a21() {
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return (T) 0.5;
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return T( 0.5);
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}
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}
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static T a22() {
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static T a22() {
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return (T) 2.;
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return T( 2.);
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}
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}
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static T a23() {
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static T a23() {
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return (T) -3. / 2.;
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return T( -3. / 2.);
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}
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}
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static T a30() {
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static T a30() {
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return 0;
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return 0;
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@ -117,10 +117,10 @@ struct CubicCatmulRomKernel
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return 0;
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return 0;
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}
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}
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static T a32() {
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static T a32() {
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return (T) -0.5;
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return T( -0.5);
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}
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}
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static T a33() {
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static T a33() {
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return (T) 0.5;
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return T( 0.5);
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}
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}
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};
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};
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@ -131,40 +131,40 @@ struct CubicBSplineKernel
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typedef T FloatType;
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typedef T FloatType;
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static T a00() {
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static T a00() {
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return (T) 1. / 6.;
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return T( 1. / 6.);
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}
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}
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static T a01() {
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static T a01() {
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return (T) -3. / 6.;
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return T( -3. / 6.);
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}
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}
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static T a02() {
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static T a02() {
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return (T) 3. / 6.;
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return T( 3. / 6.);
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}
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}
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static T a03() {
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static T a03() {
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return (T) -1. / 6.;
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return T( -1. / 6.);
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}
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}
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static T a10() {
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static T a10() {
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return (T) 4. / 6.;
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return T( 4. / 6.);
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}
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}
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static T a11() {
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static T a11() {
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return 0;
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return 0;
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}
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}
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static T a12() {
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static T a12() {
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return (T) -6. / 6.;
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return T( -6. / 6.);
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}
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}
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static T a13() {
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static T a13() {
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return (T) 3. / 6.;
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return T( 3. / 6.);
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}
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}
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static T a20() {
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static T a20() {
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return (T) 1. / 6.;
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return T( 1. / 6.);
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}
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}
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static T a21() {
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static T a21() {
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return (T) 3. / 6.;
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return T( 3. / 6.);
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}
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}
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static T a22() {
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static T a22() {
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return (T) 3. / 6.;
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return T( 3. / 6.);
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}
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}
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static T a23() {
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static T a23() {
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return (T) -3. / 6.;
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return T( -3. / 6.);
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}
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}
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static T a30() {
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static T a30() {
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return 0;
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return 0;
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@ -176,7 +176,7 @@ struct CubicBSplineKernel
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return 0;
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return 0;
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}
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}
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static T a33() {
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static T a33() {
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return (T) 1. / 6.;
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return T( 1. / 6.);
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}
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}
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};
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};
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@ -241,7 +241,7 @@ static typename KernelWrapper::FloatType cubic_interpolate(const Eigen::ArrayBas
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typedef typename KernelWrapper::FloatType T;
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typedef typename KernelWrapper::FloatType T;
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const int w = int(F.size());
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const int w = int(F.size());
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const int ix = (int) floor(pt);
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const int ix = (int) floor(pt);
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const T s = pt - (T) ix;
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const T s = pt - T( ix);
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if (ix > 1 && ix + 2 < w) {
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if (ix > 1 && ix + 2 < w) {
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// Inside the fully interpolated region.
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// Inside the fully interpolated region.
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@ -262,8 +262,8 @@ static float bicubic_interpolate(const Eigen::MatrixBase<Derived> &F,
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const int h = F.rows();
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const int h = F.rows();
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const int ix = (int) floor(pt[0]);
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const int ix = (int) floor(pt[0]);
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const int iy = (int) floor(pt[1]);
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const int iy = (int) floor(pt[1]);
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const T s = pt[0] - (T) ix;
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const T s = pt[0] - T( ix);
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const T t = pt[1] - (T) iy;
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const T t = pt[1] - T( iy);
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if (ix > 1 && ix + 2 < w && iy > 1 && iy + 2 < h) {
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if (ix > 1 && ix + 2 < w && iy > 1 && iy + 2 < h) {
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// Inside the fully interpolated region.
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// Inside the fully interpolated region.
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@ -274,7 +274,7 @@ static float bicubic_interpolate(const Eigen::MatrixBase<Derived> &F,
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Kernel::interpolate(F(ix - 1, iy + 2), F(ix, iy + 2), F(ix + 1, iy + 2), F(ix + 2, iy + 2), s), t);
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Kernel::interpolate(F(ix - 1, iy + 2), F(ix, iy + 2), F(ix + 1, iy + 2), F(ix + 2, iy + 2), s), t);
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}
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}
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// Transition region. Extend with a constant function.
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// Transition region. Extend with a constant function.
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auto f = [&F, &f, w, h](int x, int y) {
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auto f = [&F, w, h](int x, int y) {
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return F(BicubicInternal::clamp(x, 0, w - 1), BicubicInternal::clamp(y, 0, h - 1));
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return F(BicubicInternal::clamp(x, 0, w - 1), BicubicInternal::clamp(y, 0, h - 1));
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};
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};
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return Kernel::interpolate(
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return Kernel::interpolate(
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