pcut_uwp/PCUT/MinkowskiCpp/Minkowski.cpp

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2024-08-21 16:02:56 +00:00
#include "pch.h"
#include "Minkowski.h"
#include <boost/polygon/polygon.hpp>
#undef min
#undef max
typedef boost::polygon::point_data<int> point;
typedef boost::polygon::polygon_set_data<int> polygon_set;
typedef boost::polygon::polygon_with_holes_data<int> polygon;
typedef std::pair<point, point> edge;
using namespace MinkowskiCpp;
using namespace Platform;
using namespace boost::polygon::operators;
using namespace std;
Minkowski::Minkowski()
{
}
void convolve_two_segments(std::vector<point>& figure, const edge& a, const edge& b) {
using namespace boost::polygon;
figure.clear();
figure.push_back(point(a.first));
figure.push_back(point(a.first));
figure.push_back(point(a.second));
figure.push_back(point(a.second));
convolve(figure[0], b.second);
convolve(figure[1], b.first);
convolve(figure[2], b.first);
convolve(figure[3], b.second);
}
template <typename itrT1, typename itrT2>
void convolve_two_point_sequences(polygon_set& result, itrT1 ab, itrT1 ae, itrT2 bb, itrT2 be) {
using namespace boost::polygon;
if (ab == ae || bb == be)
return;
point first_a = *ab;
point prev_a = *ab;
std::vector<point> vec;
polygon poly;
++ab;
for (; ab != ae; ++ab) {
point first_b = *bb;
point prev_b = *bb;
itrT2 tmpb = bb;
++tmpb;
for (; tmpb != be; ++tmpb) {
convolve_two_segments(vec, std::make_pair(prev_b, *tmpb), std::make_pair(prev_a, *ab));
set_points(poly, vec.begin(), vec.end());
result.insert(poly);
prev_b = *tmpb;
}
prev_a = *ab;
}
}
template <typename itrT>
void convolve_point_sequence_with_polygons(polygon_set& result, itrT b, itrT e, const std::vector<polygon>& polygons) {
using namespace boost::polygon;
for (std::size_t i = 0; i < polygons.size(); ++i) {
convolve_two_point_sequences(result, b, e, begin_points(polygons[i]), end_points(polygons[i]));
for (polygon_with_holes_traits<polygon>::iterator_holes_type itrh = begin_holes(polygons[i]);
itrh != end_holes(polygons[i]); ++itrh) {
convolve_two_point_sequences(result, b, e, begin_points(*itrh), end_points(*itrh));
}
}
}
void convolve_two_polygon_sets(polygon_set& result, const polygon_set& a, const polygon_set& b) {
using namespace boost::polygon;
result.clear();
std::vector<polygon> a_polygons;
std::vector<polygon> b_polygons;
a.get(a_polygons);
b.get(b_polygons);
for (std::size_t ai = 0; ai < a_polygons.size(); ++ai) {
convolve_point_sequence_with_polygons(result, begin_points(a_polygons[ai]),
end_points(a_polygons[ai]), b_polygons);
for (polygon_with_holes_traits<polygon>::iterator_holes_type itrh = begin_holes(a_polygons[ai]);
itrh != end_holes(a_polygons[ai]); ++itrh) {
convolve_point_sequence_with_polygons(result, begin_points(*itrh),
end_points(*itrh), b_polygons);
}
for (std::size_t bi = 0; bi < b_polygons.size(); ++bi) {
polygon tmp_poly = a_polygons[ai];
result.insert(convolve(tmp_poly, *(begin_points(b_polygons[bi]))));
tmp_poly = b_polygons[bi];
result.insert(convolve(tmp_poly, *(begin_points(a_polygons[ai]))));
}
}
}
double inputscale;
using namespace boost::polygon;
vector<double> Avec;
vector<double> Bvec;
vector<vector<double>> chlds;
vector<vector<double>> retpnts;
vector<vector<double>> retholes;
void MinkowskiCpp::Minkowski::getResults(Platform::WriteOnlyArray<double>^ data, Platform::WriteOnlyArray<double>^ holesData)
{
int index = 0;
for (int i = 0; i < retpnts.size(); i++) {
for (int j = 0; j < retpnts[i].size(); j++) {
data[index] = retpnts[i][j];
index++;
}
}
index = 0;
for (int i = 0; i < retholes.size(); i++) {
for (int j = 0; j < retholes[i].size(); j++) {
holesData[index] = retholes[i][j];
index++;
}
}
}
void MinkowskiCpp::Minkowski::getSizes1(Platform::WriteOnlyArray<int>^ sizes)
{
sizes[0] = retpnts.size();
sizes[1] = retholes.size();
}
void MinkowskiCpp::Minkowski::getSizes2(Platform::WriteOnlyArray<int>^ sizes1, Platform::WriteOnlyArray<int>^ sizes2)
{
for (int i = 0; i < retpnts.size(); i++) {
sizes1[i] = retpnts[i].size();
}
for (int i = 0; i < retholes.size(); i++) {
sizes2[i] = retholes[i].size();
}
}
void MinkowskiCpp::Minkowski::setData(int cntA,
const Platform::Array<double>^ pntsA,
int holesCnt,
const Platform::Array<int>^ holesSizes,
const Platform::Array<double>^ holesPoints,
int cntB,
const Platform::Array<double>^ pntsB)
{
Avec.clear();
Bvec.clear();
chlds.clear();
retpnts.clear();
retholes.clear();
for (int i = 0; i < cntA; i++) {
Avec.push_back(pntsA[i]);
}
for (int i = 0; i < cntB; i++) {
Bvec.push_back(pntsB[i]);
}
int index = 0;
for (int i = 0; i < holesCnt; i++) {
chlds.push_back(vector<double>());
for (int j = 0; j < holesSizes[i]; j++) {
chlds.back().push_back(holesPoints[index]);
index++;
}
}
}
void MinkowskiCpp::Minkowski::calculateNFP()
{
polygon_set a, b, c;
std::vector<polygon> polys;
std::vector<point> pts;
// get maximum bounds for scaling factor
unsigned int len = Avec.size() / 2;
double Amaxx = 0;
double Aminx = 0;
double Amaxy = 0;
double Aminy = 0;
for (unsigned int i = 0; i < len; i++) {
double x1 = Avec[i * 2];
double y1 = Avec[i * 2 + 1];
Amaxx = (std::max)(Amaxx, (double)x1);
Aminx = (std::min)(Aminx, (double)x1);
Amaxy = (std::max)(Amaxy, (double)y1);
Aminy = (std::min)(Aminy, (double)y1);
}
len = Bvec.size() / 2;
double Bmaxx = 0;
double Bminx = 0;
double Bmaxy = 0;
double Bminy = 0;
for (unsigned int i = 0; i < len * 2; i += 2) {
double x1 = Bvec[i];
double y1 = Bvec[i + 1];
Bmaxx = (std::max)(Bmaxx, (double)x1);
Bminx = (std::min)(Bminx, (double)x1);
Bmaxy = (std::max)(Bmaxy, (double)y1);
Bminy = (std::min)(Bminy, (double)y1);
}
double Cmaxx = Amaxx + Bmaxx;
double Cminx = Aminx + Bminx;
double Cmaxy = Amaxy + Bmaxy;
double Cminy = Aminy + Bminy;
double maxxAbs = (std::max)(Cmaxx, std::fabs(Cminx));
double maxyAbs = (std::max)(Cmaxy, std::fabs(Cminy));
double maxda = (std::max)(maxxAbs, maxyAbs);
int maxi = std::numeric_limits<int>::max();
if (maxda < 1) {
maxda = 1;
}
// why 0.1? dunno. it doesn't screw up with 0.1
inputscale = (0.1f * (double)(maxi)) / maxda;
//double scale = 1000;
len = Avec.size() / 2;
for (unsigned int i = 0; i < len; i++) {
double x1 = Avec[i * 2];
double y1 = Avec[i * 2 + 1];
int x = (int)(inputscale * (double)x1);
int y = (int)(inputscale * (double)y1);
pts.push_back(point(x, y));
}
polygon poly;
boost::polygon::set_points(poly, pts.begin(), pts.end());
a += poly;
// subtract holes from a here...
len = chlds.size();
for (unsigned int i = 0; i < len; i++) {
vector<double> hole = chlds[i];
pts.clear();
unsigned int hlen = hole.size() / 2;
for (unsigned int j = 0; j < hlen; j++) {
double x1 = hole[j * 2];
double y1 = hole[j * 2 + 1];
int x = (int)(inputscale * (double)x1);
int y = (int)(inputscale * (double)y1);
pts.push_back(point(x, y));
}
boost::polygon::set_points(poly, pts.begin(), pts.end());
a -= poly;
}
//and then load points B
pts.clear();
len = Bvec.size() / 2;
//javascript nfps are referenced with respect to the first point
double xshift = 0;
double yshift = 0;
for (unsigned int i = 0; i < len; i++) {
double x1 = Bvec[i * 2];
double y1 = Bvec[i * 2 + 1];
int x = -(int)(inputscale * (double)x1);
int y = -(int)(inputscale * (double)y1);
pts.push_back(point(x, y));
if (i == 0) {
xshift = (double)x1;
yshift = (double)y1;
}
}
boost::polygon::set_points(poly, pts.begin(), pts.end());
b += poly;
polys.clear();
convolve_two_polygon_sets(c, a, b);
c.get(polys);
for (unsigned int i = 0; i < polys.size(); ++i) {
vector<double> pointlist = vector<double>();
int j = 0;
for (polygon_traits<polygon>::iterator_type itr = polys[i].begin(); itr != polys[i].end(); ++itr) {
// std::cout << (double)(*itr).get(boost::polygon::HORIZONTAL) / inputscale << std::endl;
double x1 = ((double)(*itr).get(boost::polygon::HORIZONTAL)) / inputscale + xshift;
double y1 = ((double)(*itr).get(boost::polygon::VERTICAL)) / inputscale + yshift;
pointlist.push_back(x1);
pointlist.push_back(y1);
j++;
}
retpnts.push_back(pointlist);
// holes
int k = 0;
for (polygon_with_holes_traits<polygon>::iterator_holes_type itrh = begin_holes(polys[i]); itrh != end_holes(polys[i]); ++itrh) {
vector<double> child = vector<double>();
int z = 0;
for (polygon_traits<polygon>::iterator_type itr2 = (*itrh).begin(); itr2 != (*itrh).end(); ++itr2) {
double x1 = ((double)(*itr2).get(boost::polygon::HORIZONTAL)) / inputscale + xshift;
double y1 = ((double)(*itr2).get(boost::polygon::VERTICAL)) / inputscale + yshift;
child.push_back(x1);
child.push_back(y1);
z++;
}
retholes.push_back(child);
k++;
}
}
}