dust3d/src/rigger.h

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#ifndef DUST3D_RIGGER_H
#define DUST3D_RIGGER_H
#include <QtGlobal>
#include <QVector3D>
#include <QObject>
#include <QColor>
#include <QDebug>
#include <QVector2D>
#include "meshsplitter.h"
#include "bonemark.h"
#include "rigtype.h"
#include "skeletonside.h"
enum class RiggerButtonParameterType
{
None = 0,
PitchYawRoll,
Intersection,
Translation
};
class RiggerMark
{
public:
BoneMark boneMark;
SkeletonSide boneSide;
QVector3D bonePosition;
float nodeRadius = 0;
QVector3D baseNormal;
std::set<MeshSplitterTriangle> markTriangles;
const std::set<MeshSplitterTriangle> &bigGroup() const
{
return m_firstGroup.size() > m_secondGroup.size() ?
m_firstGroup :
m_secondGroup;
}
const std::set<MeshSplitterTriangle> &smallGroup() const
{
return m_firstGroup.size() > m_secondGroup.size() ?
m_secondGroup :
m_firstGroup;
}
bool split(const std::set<MeshSplitterTriangle> &input, int expandRound=0)
{
int totalRound = 1 + expandRound;
for (int round = 0; round < totalRound; ++round) {
m_firstGroup.clear();
m_secondGroup.clear();
bool splitResult = MeshSplitter::split(input, markTriangles, m_firstGroup, m_secondGroup, round > 0);
if (splitResult)
return true;
}
return false;
}
private:
std::set<MeshSplitterTriangle> m_firstGroup;
std::set<MeshSplitterTriangle> m_secondGroup;
};
class RiggerBone
{
public:
QString name;
int index = -1;
QVector3D headPosition;
QVector3D tailPosition;
QColor color;
bool hasButton = false;
RiggerButtonParameterType buttonParameterType = RiggerButtonParameterType::None;
std::pair<int, int> button = {0, 0};
QVector3D baseNormal;
std::vector<int> children;
};
class RiggerVertexWeights
{
public:
int boneIndicies[4] = {0, 0, 0, 0};
float boneWeights[4] = {0, 0, 0, 0};
void addBone(int boneIndex, float distance)
{
if (m_boneRawIndicies.find(boneIndex) != m_boneRawIndicies.end())
return;
m_boneRawIndicies.insert(boneIndex);
if (qFuzzyIsNull(distance))
distance = 0.0001;
m_boneRawWeights.push_back(std::make_pair(boneIndex, 1.0 / distance));
}
void finalizeWeights()
{
std::sort(m_boneRawWeights.begin(), m_boneRawWeights.end(),
[](const std::pair<int, float> &a, const std::pair<int, float> &b) {
return a.second > b.second;
});
float totalDistance = 0;
for (size_t i = 0; i < m_boneRawWeights.size() && i < 4; i++) {
const auto &item = m_boneRawWeights[i];
totalDistance += item.second;
}
if (totalDistance > 0) {
for (size_t i = 0; i < m_boneRawWeights.size() && i < 4; i++) {
const auto &item = m_boneRawWeights[i];
boneIndicies[i] = item.first;
boneWeights[i] = item.second / totalDistance;
}
} else {
qDebug() << "totalDistance:" << totalDistance;
}
}
private:
std::set<int> m_boneRawIndicies;
std::vector<std::pair<int, float>> m_boneRawWeights;
};
class Rigger : public QObject
{
public:
Rigger(const std::vector<QVector3D> &verticesPositions,
const std::set<MeshSplitterTriangle> &inputTriangles);
bool addMarkGroup(BoneMark boneMark, SkeletonSide boneSide, QVector3D bonePosition, float nodeRadius, QVector3D baseNormal,
const std::set<MeshSplitterTriangle> &markTriangles);
const std::vector<std::pair<QtMsgType, QString>> &messages();
const std::vector<RiggerBone> &resultBones();
const std::map<int, RiggerVertexWeights> &resultWeights();
const std::vector<QString> &missingMarkNames();
const std::vector<QString> &errorMarkNames();
virtual bool rig() = 0;
protected:
virtual bool validate() = 0;
virtual bool isCutOffSplitter(BoneMark boneMark) = 0;
virtual BoneMark translateBoneMark(BoneMark boneMark);
void addTrianglesToVertices(const std::set<MeshSplitterTriangle> &triangles, std::set<int> &vertices);
bool calculateBodyTriangles(std::set<MeshSplitterTriangle> &bodyTriangles);
void resolveBoundingBox(const std::set<int> &vertices, QVector3D &xMin, QVector3D &xMax, QVector3D &yMin, QVector3D &yMax, QVector3D &zMin, QVector3D &zMax);
QVector3D findMinX(const std::set<int> &vertices);
QVector3D findMaxX(const std::set<int> &vertices);
QVector3D findMinY(const std::set<int> &vertices);
QVector3D findMaxY(const std::set<int> &vertices);
QVector3D findMinZ(const std::set<int> &vertices);
QVector3D findMaxZ(const std::set<int> &vertices);
QVector3D averagePosition(const std::set<int> &vertices);
void splitVerticesByY(const std::set<int> &vertices, float y, std::set<int> &greaterEqualThanVertices, std::set<int> &lessThanVertices);
void splitVerticesByX(const std::set<int> &vertices, float x, std::set<int> &greaterEqualThanVertices, std::set<int> &lessThanVertices);
void splitVerticesByZ(const std::set<int> &vertices, float z, std::set<int> &greaterEqualThanVertices, std::set<int> &lessThanVertices);
void splitVerticesByPlane(const std::set<int> &vertices, const QVector3D &pointOnPlane, const QVector3D &planeNormal, std::set<int> &frontOrCoincidentVertices, std::set<int> &backVertices);
void addVerticesToWeights(const std::set<int> &vertices, int boneIndex);
std::vector<std::pair<QtMsgType, QString>> m_messages;
std::vector<QVector3D> m_verticesPositions;
std::set<MeshSplitterTriangle> m_inputTriangles;
std::vector<RiggerMark> m_marks;
std::map<std::pair<BoneMark, SkeletonSide>, std::vector<int>> m_marksMap;
std::vector<RiggerBone> m_resultBones;
std::map<int, RiggerVertexWeights> m_resultWeights;
std::vector<QString> m_missingMarkNames;
std::vector<QString> m_errorMarkNames;
static size_t m_maxCutOffSplitterExpandRound;
};
#endif