e65ab90c16
for islands with another islands in their holes. Improvement of chaining of infill lines for 3D honeycomb, Gyroid and Honeycomb infill: New TSP chaining algorithm is used.
251 lines
7.3 KiB
C++
251 lines
7.3 KiB
C++
#include "BoundingBox.hpp"
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#include "Polyline.hpp"
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#include "ExPolygon.hpp"
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#include "ExPolygonCollection.hpp"
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#include "Line.hpp"
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#include "Polygon.hpp"
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#include <iostream>
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#include <utility>
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namespace Slic3r {
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Polyline::operator Polylines() const
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{
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Polylines polylines;
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polylines.push_back(*this);
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return polylines;
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}
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Polyline::operator Line() const
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{
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if (this->points.size() > 2)
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throw std::invalid_argument("Can't convert polyline with more than two points to a line");
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return Line(this->points.front(), this->points.back());
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}
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Point
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Polyline::leftmost_point() const
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{
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Point p = this->points.front();
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for (Points::const_iterator it = this->points.begin() + 1; it != this->points.end(); ++it) {
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if ((*it)(0) < p(0)) p = *it;
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}
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return p;
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}
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Lines
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Polyline::lines() const
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{
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Lines lines;
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if (this->points.size() >= 2) {
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lines.reserve(this->points.size() - 1);
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for (Points::const_iterator it = this->points.begin(); it != this->points.end()-1; ++it) {
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lines.push_back(Line(*it, *(it + 1)));
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}
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}
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return lines;
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}
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// removes the given distance from the end of the polyline
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void Polyline::clip_end(double distance)
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{
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while (distance > 0) {
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Vec2d last_point = this->last_point().cast<double>();
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this->points.pop_back();
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if (this->points.empty())
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break;
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Vec2d v = this->last_point().cast<double>() - last_point;
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double lsqr = v.squaredNorm();
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if (lsqr > distance * distance) {
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this->points.emplace_back((last_point + v * (distance / sqrt(lsqr))).cast<coord_t>());
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return;
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}
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distance -= sqrt(lsqr);
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}
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}
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// removes the given distance from the start of the polyline
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void Polyline::clip_start(double distance)
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{
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this->reverse();
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this->clip_end(distance);
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if (this->points.size() >= 2)
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this->reverse();
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}
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void Polyline::extend_end(double distance)
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{
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// relocate last point by extending the last segment by the specified length
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Vec2d v = (this->points.back() - *(this->points.end() - 2)).cast<double>().normalized();
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this->points.back() += (v * distance).cast<coord_t>();
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}
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void Polyline::extend_start(double distance)
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{
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// relocate first point by extending the first segment by the specified length
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Vec2d v = (this->points.front() - this->points[1]).cast<double>().normalized();
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this->points.front() += (v * distance).cast<coord_t>();
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}
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/* this method returns a collection of points picked on the polygon contour
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so that they are evenly spaced according to the input distance */
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Points Polyline::equally_spaced_points(double distance) const
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{
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Points points;
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points.emplace_back(this->first_point());
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double len = 0;
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for (Points::const_iterator it = this->points.begin() + 1; it != this->points.end(); ++it) {
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Vec2d p1 = (it-1)->cast<double>();
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Vec2d v = it->cast<double>() - p1;
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double segment_length = v.norm();
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len += segment_length;
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if (len < distance)
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continue;
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if (len == distance) {
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points.emplace_back(*it);
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len = 0;
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continue;
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}
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double take = segment_length - (len - distance); // how much we take of this segment
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points.emplace_back((p1 + v * (take / v.norm())).cast<coord_t>());
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-- it;
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len = - take;
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}
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return points;
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}
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void Polyline::simplify(double tolerance)
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{
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this->points = MultiPoint::_douglas_peucker(this->points, tolerance);
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}
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/* This method simplifies all *lines* contained in the supplied area */
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template <class T>
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void Polyline::simplify_by_visibility(const T &area)
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{
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Points &pp = this->points;
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size_t s = 0;
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bool did_erase = false;
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for (size_t i = s+2; i < pp.size(); i = s + 2) {
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if (area.contains(Line(pp[s], pp[i]))) {
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pp.erase(pp.begin() + s + 1, pp.begin() + i);
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did_erase = true;
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} else {
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++s;
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}
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}
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if (did_erase)
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this->simplify_by_visibility(area);
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}
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template void Polyline::simplify_by_visibility<ExPolygon>(const ExPolygon &area);
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template void Polyline::simplify_by_visibility<ExPolygonCollection>(const ExPolygonCollection &area);
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void Polyline::split_at(const Point &point, Polyline* p1, Polyline* p2) const
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{
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if (this->points.empty()) return;
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// find the line to split at
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size_t line_idx = 0;
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Point p = this->first_point();
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double min = (p - point).cast<double>().norm();
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Lines lines = this->lines();
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for (Lines::const_iterator line = lines.begin(); line != lines.end(); ++line) {
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Point p_tmp = point.projection_onto(*line);
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if ((p_tmp - point).cast<double>().norm() < min) {
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p = p_tmp;
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min = (p - point).cast<double>().norm();
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line_idx = line - lines.begin();
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}
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}
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// create first half
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p1->points.clear();
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for (Lines::const_iterator line = lines.begin(); line != lines.begin() + line_idx + 1; ++line)
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if (line->a != p)
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p1->points.push_back(line->a);
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// we add point instead of p because they might differ because of numerical issues
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// and caller might want to rely on point belonging to result polylines
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p1->points.push_back(point);
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// create second half
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p2->points.clear();
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p2->points.push_back(point);
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for (Lines::const_iterator line = lines.begin() + line_idx; line != lines.end(); ++line) {
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p2->points.push_back(line->b);
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}
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}
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bool Polyline::is_straight() const
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{
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// Check that each segment's direction is equal to the line connecting
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// first point and last point. (Checking each line against the previous
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// one would cause the error to accumulate.)
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double dir = Line(this->first_point(), this->last_point()).direction();
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for (const auto &line: this->lines())
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if (! line.parallel_to(dir))
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return false;
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return true;
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}
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BoundingBox get_extents(const Polyline &polyline)
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{
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return polyline.bounding_box();
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}
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BoundingBox get_extents(const Polylines &polylines)
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{
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BoundingBox bb;
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if (! polylines.empty()) {
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bb = polylines.front().bounding_box();
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for (size_t i = 1; i < polylines.size(); ++ i)
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bb.merge(polylines[i]);
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}
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return bb;
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}
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bool remove_degenerate(Polylines &polylines)
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{
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bool modified = false;
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size_t j = 0;
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for (size_t i = 0; i < polylines.size(); ++ i) {
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if (polylines[i].points.size() >= 2) {
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if (j < i)
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std::swap(polylines[i].points, polylines[j].points);
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++ j;
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} else
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modified = true;
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}
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if (j < polylines.size())
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polylines.erase(polylines.begin() + j, polylines.end());
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return modified;
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}
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ThickLines ThickPolyline::thicklines() const
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{
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ThickLines lines;
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if (this->points.size() >= 2) {
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lines.reserve(this->points.size() - 1);
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for (size_t i = 0; i + 1 < this->points.size(); ++ i)
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lines.emplace_back(this->points[i], this->points[i + 1], this->width[2 * i], this->width[2 * i + 1]);
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}
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return lines;
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}
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Lines3 Polyline3::lines() const
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{
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Lines3 lines;
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if (points.size() >= 2)
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{
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lines.reserve(points.size() - 1);
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for (Points3::const_iterator it = points.begin(); it != points.end() - 1; ++it)
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{
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lines.emplace_back(*it, *(it + 1));
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}
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}
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return lines;
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}
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}
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