2013-07-16 19:04:14 +00:00
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#include "Point.hpp"
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2013-11-06 22:08:03 +00:00
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#include "Line.hpp"
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2014-05-21 18:08:21 +00:00
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#include "MultiPoint.hpp"
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2018-05-17 08:37:26 +00:00
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#include "Int128.hpp"
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2020-11-20 14:19:49 +00:00
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#include "BoundingBox.hpp"
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2015-01-03 14:03:53 +00:00
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#include <algorithm>
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2013-07-16 19:04:14 +00:00
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namespace Slic3r {
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2018-08-28 07:03:03 +00:00
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std::vector<Vec3f> transform(const std::vector<Vec3f>& points, const Transform3f& t)
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{
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unsigned int vertices_count = (unsigned int)points.size();
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if (vertices_count == 0)
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return std::vector<Vec3f>();
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unsigned int data_size = 3 * vertices_count * sizeof(float);
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Eigen::MatrixXf src(3, vertices_count);
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::memcpy((void*)src.data(), (const void*)points.data(), data_size);
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Eigen::MatrixXf dst(3, vertices_count);
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dst = t * src.colwise().homogeneous();
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std::vector<Vec3f> ret_points(vertices_count, Vec3f::Zero());
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::memcpy((void*)ret_points.data(), (const void*)dst.data(), data_size);
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return ret_points;
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}
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Pointf3s transform(const Pointf3s& points, const Transform3d& t)
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{
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unsigned int vertices_count = (unsigned int)points.size();
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if (vertices_count == 0)
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return Pointf3s();
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unsigned int data_size = 3 * vertices_count * sizeof(double);
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Eigen::MatrixXd src(3, vertices_count);
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::memcpy((void*)src.data(), (const void*)points.data(), data_size);
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Eigen::MatrixXd dst(3, vertices_count);
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dst = t * src.colwise().homogeneous();
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Pointf3s ret_points(vertices_count, Vec3d::Zero());
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::memcpy((void*)ret_points.data(), (const void*)dst.data(), data_size);
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return ret_points;
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}
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2018-08-14 19:33:41 +00:00
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void Point::rotate(double angle, const Point ¢er)
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2013-07-16 19:04:14 +00:00
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{
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2018-08-17 13:53:43 +00:00
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double cur_x = (double)(*this)(0);
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double cur_y = (double)(*this)(1);
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2018-08-15 11:51:40 +00:00
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double s = ::sin(angle);
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double c = ::cos(angle);
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2018-08-17 13:53:43 +00:00
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double dx = cur_x - (double)center(0);
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double dy = cur_y - (double)center(1);
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(*this)(0) = (coord_t)round( (double)center(0) + c * dx - s * dy );
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(*this)(1) = (coord_t)round( (double)center(1) + c * dy + s * dx );
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2013-07-16 19:04:14 +00:00
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}
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2018-08-14 19:33:41 +00:00
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int Point::nearest_point_index(const Points &points) const
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2013-11-23 20:39:05 +00:00
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{
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2014-04-24 14:40:10 +00:00
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PointConstPtrs p;
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2013-11-23 20:39:05 +00:00
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p.reserve(points.size());
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2014-04-24 14:40:10 +00:00
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for (Points::const_iterator it = points.begin(); it != points.end(); ++it)
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2013-11-23 20:39:05 +00:00
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p.push_back(&*it);
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return this->nearest_point_index(p);
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}
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2017-05-05 07:59:56 +00:00
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int Point::nearest_point_index(const PointConstPtrs &points) const
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2013-08-26 22:52:20 +00:00
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{
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int idx = -1;
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2013-09-17 11:04:36 +00:00
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double distance = -1; // double because long is limited to 2147483647 on some platforms and it's not enough
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2013-08-26 22:52:20 +00:00
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2014-04-24 14:40:10 +00:00
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for (PointConstPtrs::const_iterator it = points.begin(); it != points.end(); ++it) {
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2013-08-26 22:52:20 +00:00
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/* If the X distance of the candidate is > than the total distance of the
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best previous candidate, we know we don't want it */
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2018-08-17 13:53:43 +00:00
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double d = sqr<double>((*this)(0) - (*it)->x());
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2013-08-26 22:52:20 +00:00
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if (distance != -1 && d > distance) continue;
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/* If the Y distance of the candidate is > than the total distance of the
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best previous candidate, we know we don't want it */
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2018-08-17 13:53:43 +00:00
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d += sqr<double>((*this)(1) - (*it)->y());
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2013-08-26 22:52:20 +00:00
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if (distance != -1 && d > distance) continue;
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idx = it - points.begin();
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distance = d;
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if (distance < EPSILON) break;
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}
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return idx;
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}
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2018-08-14 19:33:41 +00:00
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int Point::nearest_point_index(const PointPtrs &points) const
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2013-08-26 22:52:20 +00:00
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{
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2014-04-24 14:40:10 +00:00
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PointConstPtrs p;
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p.reserve(points.size());
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for (PointPtrs::const_iterator it = points.begin(); it != points.end(); ++it)
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p.push_back(*it);
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return this->nearest_point_index(p);
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2013-08-26 22:52:20 +00:00
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}
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2018-08-14 19:33:41 +00:00
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bool Point::nearest_point(const Points &points, Point* point) const
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2013-08-28 18:32:25 +00:00
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{
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2014-09-23 18:19:47 +00:00
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int idx = this->nearest_point_index(points);
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if (idx == -1) return false;
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2015-01-06 19:52:36 +00:00
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*point = points.at(idx);
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return true;
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}
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2013-11-22 20:43:35 +00:00
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/* Three points are a counter-clockwise turn if ccw > 0, clockwise if
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* ccw < 0, and collinear if ccw = 0 because ccw is a determinant that
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* gives the signed area of the triangle formed by p1, p2 and this point.
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2013-12-12 19:19:33 +00:00
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* In other words it is the 2D cross product of p1-p2 and p1-this, i.e.
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* z-component of their 3D cross product.
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* We return double because it must be big enough to hold 2*max(|coordinate|)^2
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2013-11-22 20:43:35 +00:00
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*/
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2018-08-14 19:33:41 +00:00
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double Point::ccw(const Point &p1, const Point &p2) const
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2013-11-22 20:43:35 +00:00
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{
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2018-08-17 13:53:43 +00:00
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return (double)(p2(0) - p1(0))*(double)((*this)(1) - p1(1)) - (double)(p2(1) - p1(1))*(double)((*this)(0) - p1(0));
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2013-11-22 20:43:35 +00:00
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}
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2018-08-14 19:33:41 +00:00
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double Point::ccw(const Line &line) const
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2013-11-22 20:43:35 +00:00
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{
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return this->ccw(line.a, line.b);
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}
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2014-12-07 18:53:22 +00:00
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// returns the CCW angle between this-p1 and this-p2
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2014-12-21 21:51:45 +00:00
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// i.e. this assumes a CCW rotation from p1 to p2 around this
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2018-08-14 19:33:41 +00:00
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double Point::ccw_angle(const Point &p1, const Point &p2) const
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2014-12-07 18:53:22 +00:00
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{
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2018-08-17 13:53:43 +00:00
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double angle = atan2(p1(0) - (*this)(0), p1(1) - (*this)(1))
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- atan2(p2(0) - (*this)(0), p2(1) - (*this)(1));
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2014-12-21 21:51:45 +00:00
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// we only want to return only positive angles
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return angle <= 0 ? angle + 2*PI : angle;
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2014-12-07 18:53:22 +00:00
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}
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2018-08-14 19:33:41 +00:00
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Point Point::projection_onto(const MultiPoint &poly) const
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2014-05-21 18:08:21 +00:00
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{
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Point running_projection = poly.first_point();
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Removed Point::scale(),translate(),coincides_with(),distance_to(),
distance_to_squared(),perp_distance_to(),negative(),vector_to(),
translate(), distance_to() etc,
replaced with the Eigen equivalents.
2018-08-17 12:14:24 +00:00
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double running_min = (running_projection - *this).cast<double>().norm();
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2014-05-21 18:08:21 +00:00
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Lines lines = poly.lines();
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for (Lines::const_iterator line = lines.begin(); line != lines.end(); ++line) {
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Point point_temp = this->projection_onto(*line);
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Removed Point::scale(),translate(),coincides_with(),distance_to(),
distance_to_squared(),perp_distance_to(),negative(),vector_to(),
translate(), distance_to() etc,
replaced with the Eigen equivalents.
2018-08-17 12:14:24 +00:00
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if ((point_temp - *this).cast<double>().norm() < running_min) {
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2014-05-21 18:08:21 +00:00
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running_projection = point_temp;
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Removed Point::scale(),translate(),coincides_with(),distance_to(),
distance_to_squared(),perp_distance_to(),negative(),vector_to(),
translate(), distance_to() etc,
replaced with the Eigen equivalents.
2018-08-17 12:14:24 +00:00
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running_min = (running_projection - *this).cast<double>().norm();
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2014-05-21 18:08:21 +00:00
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}
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}
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return running_projection;
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}
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2018-08-14 19:33:41 +00:00
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Point Point::projection_onto(const Line &line) const
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2014-05-21 18:08:21 +00:00
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{
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2018-08-15 11:51:40 +00:00
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if (line.a == line.b) return line.a;
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2014-05-21 18:08:21 +00:00
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/*
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(Ported from VisiLibity by Karl J. Obermeyer)
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The projection of point_temp onto the line determined by
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line_segment_temp can be represented as an affine combination
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expressed in the form projection of
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Point = theta*line_segment_temp.first + (1.0-theta)*line_segment_temp.second.
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If theta is outside the interval [0,1], then one of the Line_Segment's endpoints
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must be closest to calling Point.
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*/
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2018-08-17 13:53:43 +00:00
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double lx = (double)(line.b(0) - line.a(0));
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double ly = (double)(line.b(1) - line.a(1));
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double theta = ( (double)(line.b(0) - (*this)(0))*lx + (double)(line.b(1)- (*this)(1))*ly )
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2016-09-13 11:30:00 +00:00
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/ ( sqr<double>(lx) + sqr<double>(ly) );
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2014-05-21 18:08:21 +00:00
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if (0.0 <= theta && theta <= 1.0)
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Removed Point::scale(),translate(),coincides_with(),distance_to(),
distance_to_squared(),perp_distance_to(),negative(),vector_to(),
translate(), distance_to() etc,
replaced with the Eigen equivalents.
2018-08-17 12:14:24 +00:00
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return (theta * line.a.cast<coordf_t>() + (1.0-theta) * line.b.cast<coordf_t>()).cast<coord_t>();
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2014-05-21 18:08:21 +00:00
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// Else pick closest endpoint.
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Removed Point::scale(),translate(),coincides_with(),distance_to(),
distance_to_squared(),perp_distance_to(),negative(),vector_to(),
translate(), distance_to() etc,
replaced with the Eigen equivalents.
2018-08-17 12:14:24 +00:00
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return ((line.a - *this).cast<double>().squaredNorm() < (line.b - *this).cast<double>().squaredNorm()) ? line.a : line.b;
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2014-05-21 18:08:21 +00:00
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}
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2020-11-16 09:20:47 +00:00
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BoundingBox get_extents(const Points &pts)
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{
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return BoundingBox(pts);
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}
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BoundingBox get_extents(const std::vector<Points> &pts)
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{
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BoundingBox bbox;
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for (const Points &p : pts)
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bbox.merge(get_extents(p));
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return bbox;
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}
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2018-08-21 19:05:24 +00:00
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std::ostream& operator<<(std::ostream &stm, const Vec2d &pointf)
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2015-05-02 19:43:22 +00:00
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{
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2018-08-17 13:53:43 +00:00
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return stm << pointf(0) << "," << pointf(1);
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2015-05-02 19:43:22 +00:00
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}
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2018-05-17 08:37:26 +00:00
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namespace int128 {
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2018-08-17 14:54:07 +00:00
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int orient(const Vec2crd &p1, const Vec2crd &p2, const Vec2crd &p3)
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2018-05-17 08:37:26 +00:00
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{
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Slic3r::Vector v1(p2 - p1);
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Slic3r::Vector v2(p3 - p1);
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2018-08-17 13:53:43 +00:00
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return Int128::sign_determinant_2x2_filtered(v1(0), v1(1), v2(0), v2(1));
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2018-05-17 08:37:26 +00:00
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}
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2018-08-17 14:54:07 +00:00
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int cross(const Vec2crd &v1, const Vec2crd &v2)
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2018-05-17 08:37:26 +00:00
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{
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2018-08-17 13:53:43 +00:00
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return Int128::sign_determinant_2x2_filtered(v1(0), v1(1), v2(0), v2(1));
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2018-05-17 08:37:26 +00:00
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}
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}
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2013-07-16 19:04:14 +00:00
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}
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