dust3d/src/cutface.cpp

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#include <QStringList>
#include <QVector2D>
#include <QVector3D>
#include <QDebug>
#include "cutface.h"
IMPL_CutFaceFromString
IMPL_CutFaceToString
TMPL_CutFaceToPoints
static void correctFlippedNormal(std::vector<QVector2D> *points)
{
if (points->size() < 3)
return;
std::vector<QVector3D> referenceFacePoints = {
QVector3D((float)-1.0, (float)-1.0, (float)0.0),
QVector3D((float)1.0, (float)-1.0, (float)0.0),
QVector3D((float)1.0, (float)1.0, (float)0.0)
};
QVector3D referenceNormal = QVector3D::normal(referenceFacePoints[0],
referenceFacePoints[1], referenceFacePoints[2]);
QVector3D normal;
for (size_t i = 0; i < points->size(); ++i) {
size_t j = (i + 1) % points->size();
size_t k = (j + 1) % points->size();
std::vector<QVector3D> facePoints = {
QVector3D(((*points)[i]).x(), ((*points)[i]).y(), (float)0.0),
QVector3D(((*points)[j]).x(), ((*points)[j]).y(), (float)0.0),
QVector3D(((*points)[k]).x(), ((*points)[k]).y(), (float)0.0)
};
normal += QVector3D::normal(facePoints[0],
facePoints[1], facePoints[2]);
}
normal.normalize();
if (QVector3D::dotProduct(referenceNormal, normal) > 0)
return;
std::reverse(points->begin() + 1, points->end());
}
void normalizeCutFacePoints(std::vector<QVector2D> *points)
{
QVector2D center;
if (nullptr == points || points->empty())
return;
float xLow = std::numeric_limits<float>::max();
float xHigh = std::numeric_limits<float>::lowest();
float yLow = std::numeric_limits<float>::max();
float yHigh = std::numeric_limits<float>::lowest();
for (const auto &position: *points) {
if (position.x() < xLow)
xLow = position.x();
else if (position.x() > xHigh)
xHigh = position.x();
if (position.y() < yLow)
yLow = position.y();
else if (position.y() > yHigh)
yHigh = position.y();
}
float xMiddle = (xHigh + xLow) * 0.5;
float yMiddle = (yHigh + yLow) * 0.5;
float xSize = xHigh - xLow;
float ySize = yHigh - yLow;
float longSize = ySize;
if (xSize > longSize)
longSize = xSize;
if (qFuzzyIsNull(longSize))
longSize = 0.000001;
for (auto &position: *points) {
position.setX((position.x() - xMiddle) * 2 / longSize);
position.setY((position.y() - yMiddle) * 2 / longSize);
}
correctFlippedNormal(points);
}
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void cutFacePointsFromNodes(std::vector<QVector2D> &points, const std::vector<std::tuple<float, float, float, QString>> &nodes, bool isRing,
std::vector<QString> *pointsIds)
{
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if (isRing) {
if (nodes.size() < 3)
return;
for (const auto &it: nodes) {
points.push_back(QVector2D(std::get<1>(it), std::get<2>(it)));
}
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if (nullptr != pointsIds) {
for (const auto &it: nodes) {
pointsIds->push_back(std::get<3>(it));
}
}
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normalizeCutFacePoints(&points);
return;
}
if (nodes.size() < 2)
return;
std::vector<QVector2D> edges;
for (size_t i = 1; i < nodes.size(); ++i) {
const auto &previous = nodes[i - 1];
const auto &current = nodes[i];
edges.push_back((QVector2D(std::get<1>(current), std::get<2>(current)) -
QVector2D(std::get<1>(previous), std::get<2>(previous))).normalized());
}
std::vector<QVector2D> nodeDirections;
nodeDirections.push_back(edges[0]);
for (size_t i = 1; i < nodes.size() - 1; ++i) {
const auto &previousEdge = edges[i - 1];
const auto &nextEdge = edges[i];
nodeDirections.push_back((previousEdge + nextEdge).normalized());
}
nodeDirections.push_back(edges[edges.size() - 1]);
std::vector<std::pair<QVector2D, QVector2D>> cutPoints;
for (size_t i = 0; i < nodes.size(); ++i) {
const auto &current = nodes[i];
const auto &direction = nodeDirections[i];
const auto &radius = std::get<0>(current);
QVector3D origin = QVector3D(std::get<1>(current), std::get<2>(current), 0);
QVector3D pointer = QVector3D(direction.x(), direction.y(), 0);
QVector3D rotateAxis = QVector3D(0, 0, 1);
QVector3D u = QVector3D::crossProduct(pointer, rotateAxis).normalized();
QVector3D upPoint = origin + u * radius;
QVector3D downPoint = origin - u * radius;
cutPoints.push_back({QVector2D(upPoint.x(), upPoint.y()),
QVector2D(downPoint.x(), downPoint.y())});
}
for (const auto &it: cutPoints) {
points.push_back(it.first);
}
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if (nullptr != pointsIds) {
for (const auto &it: nodes) {
pointsIds->push_back(std::get<3>(it) + QString("/1"));
}
}
for (auto it = cutPoints.rbegin(); it != cutPoints.rend(); ++it) {
points.push_back(it->second);
}
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if (nullptr != pointsIds) {
for (auto it = nodes.rbegin(); it != nodes.rend(); ++it) {
pointsIds->push_back(std::get<3>(*it) + QString("/2"));
}
}
normalizeCutFacePoints(&points);
}