//-----------------------------------------------------------------------------
// tregion.h: interface for the TRegion class.
//-----------------------------------------------------------------------------
#if !defined(TREGION_H)
#define TREGION_H
#include <memory>
#if _MSC_VER > 1000
#pragma once
#endif // _MSC_VER > 1000
#include "tgeometry.h"
//#include "tsmartpointer.h"
#undef DVAPI
#undef DVVAR
#ifdef TVECTORIMAGE_EXPORTS
#define DVAPI DV_EXPORT_API
#define DVVAR DV_EXPORT_VAR
#else
#define DVAPI DV_IMPORT_API
#define DVVAR DV_IMPORT_VAR
#endif
//=============================================================================
//forward declarations
class TStroke;
//class TVectorRenderData;
class TRegion;
class TRegionProp;
//class TVectorPalette;
//=============================================================================
class TRegionId
{
public:
int m_strokeId;
float m_midW;
bool m_direction;
TRegionId(int strokeId, float midW, bool direction)
: m_strokeId(strokeId), m_midW(midW), m_direction(direction)
{
}
};
class TFilledRegionInf
{
public:
TRegionId m_regionId;
int m_styleId;
TFilledRegionInf(int strokeId, float midW, bool direction, int styleId)
: m_regionId(strokeId, midW, direction), m_styleId(styleId)
{
}
TFilledRegionInf(TRegionId regionId, int styleId)
: m_regionId(regionId), m_styleId(styleId)
{
}
};
//=============================================================================
class TGeneralEdge
{
public:
enum Type {
eNormal,
eAutoclose
};
Type m_type;
TGeneralEdge(Type type) : m_type(type) {}
};
class TEdge : public TGeneralEdge
{
public:
TStroke *m_s;
double m_w0, m_w1;
int m_index;
TRegion *m_r;
int m_styleId;
bool m_toBeDeleted;
//bool m_forward;
public:
TEdge()
: TGeneralEdge(eNormal), m_s(0), m_w0(-1), m_w1(-1), m_index(-1), m_r(0), m_styleId(0), m_toBeDeleted(false)
//, m_forward(true)
{
}
TEdge(TStroke *ref, UINT index, double w0, double w1, bool toBeDeletedWithStroke, int styleId)
: TGeneralEdge(eNormal), m_s(ref), m_w0(w0), m_w1(w1), m_index(index), m_r(0), m_styleId(styleId), m_toBeDeleted(toBeDeletedWithStroke)
//, m_forward(forward)
{
}
/* TEdge(TStroke* ref, bool toBeDeletedWithStroke)
: m_s (ref)
, m_w0 (-1)
, m_w1 (-1)
, m_r(0)
, m_styleId(0)
, m_toBeDeleted(toBeDeletedWithStroke)
{}*/
TEdge(const TEdge &e, bool toBeDeletedWithStroke)
: TGeneralEdge(eNormal), m_s(e.m_s), m_w0(e.m_w0), m_w1(e.m_w1), m_index(e.m_index), m_r(e.m_r), m_styleId(e.m_styleId), m_toBeDeleted(toBeDeletedWithStroke)
//, m_forward(e.m_forward)
{
}
TEdge &operator=(const TEdge &e)
{
m_s = e.m_s;
m_w0 = e.m_w0;
m_w1 = e.m_w1;
m_index = e.m_index;
m_r = e.m_r;
m_styleId = e.m_styleId;
m_toBeDeleted = e.m_toBeDeleted;
//m_forward = e.m_forward;
return *this;
}
TEdge(const TEdge &e) : TGeneralEdge(eNormal), m_s(e.m_s), m_w0(e.m_w0), m_w1(e.m_w1), m_index(e.m_index), m_r(e.m_r), m_styleId(e.m_styleId), m_toBeDeleted(e.m_toBeDeleted) /*, m_forward(e.m_forward)*/ {}
bool operator<(const TEdge &e) const
{
return (e.m_s == m_s) ? ((e.m_w0 == m_w0) ? e.m_w1 < m_w1 : e.m_w0 < m_w0) : e.m_s < m_s;
}
inline int getStyle() const { return m_styleId; }
inline void setStyle(int styleId) { m_styleId = styleId; }
inline bool operator==(const TEdge &b) const
{
return m_s == b.m_s && ((m_w0 == b.m_w0 && m_w1 == b.m_w1) || (m_w0 == b.m_w1 && m_w1 == b.m_w0));
}
private:
TEdge(TStroke *ref);
};
/*
#ifdef _WIN32
template class DVAPI TSmartPointerT<TEdge>;
#endif
typedef TSmartPointerT<TEdge> TEdgeP;
*/
//-----------------------------------------------------------------------------
//void addRegion(vector<TRegion*>& regionArray, TRegion *region);
//-----------------------------------------------------------------------------
class DVAPI TRegion
{
class Imp;
std::unique_ptr<Imp> m_imp;
public:
TRegion();
~TRegion();
TRectD getBBox() const;
bool contains(const TPointD &p) const;
bool contains(const TRegion &r) const;
bool contains(const TStroke &s, bool mayIntersect = false) const;
bool contains(const TEdge &e) const;
//! returns the region equivalent to r, 0 if does not exists.
TRegion *findRegion(const TRegion &r) const;
TRegion *getSubregion(UINT index) const;
UINT getSubregionCount() const;
void deleteSubregion(UINT index);
void addSubregion(TRegion *region);
TEdge *getEdge(UINT index) const;
TEdge *getLastEdge() const;
UINT getEdgeCount() const;
void addEdge(TEdge *e, bool minimizeEdges);
TEdge *popFrontEdge();
TEdge *popBackEdge();
void moveSubregionsTo(TRegion *r);
//it returns the style of the region before filling or -1 if not filled.
int fill(const TPointD &p, int styleId);
bool selectFill(const TRectD &selectArea, int styleId);
//! returns the smallest subregions (including this) containing p
TRegion *getRegion(const TPointD &p);
int getStyle() const;
void setStyle(int styleId);
void autoFill(int styleId, bool oddLevel);
bool isSubRegionOf(const TRegion &r) const;
bool getInternalPoint(TPointD &p);
TRegionProp *getProp();
void setProp(TRegionProp *prop);
TRegionId getId();
void invalidateProp();
void invalidateBBox();
void print();
//friend void addRegion(vector<TRegion*>& regionArray, TRegion *region);
void computeScanlineIntersections(double y, std::vector<double> &intersections) const;
int scanlineIntersectionsBefore(double x, double y, bool horiz) const;
int leftScanlineIntersections(double x, double y) const
{
return scanlineIntersectionsBefore(x, y, true);
}
#ifdef _DEBUG
void checkRegion();
#endif
};
//-----------------------------------------------------------------------------
/*Spostata in tregion.cpp
inline int TRegion::getStyle() const
{
int ret = 0;
UINT i=0, j, n=getEdgeCount();
for (; i<n; i++)
{
int styleId = getEdge(i)->getStyle();
if(styleId != 0 && ret==0)
{
//assert(styleId<100);
ret = styleId;
if (i>0) for (j=0;j<i;j++) getEdge(i)->setStyle(ret);
}
else if (styleId!=ret)
getEdge(i)->setStyle(ret);
}
return ret;
}
*/
class DVAPI TRegionFeatureFormula
{
public:
virtual void update(const TPointD &p1, const TPointD &p2) = 0;
};
//permette di calcolare varie grandesse sul poligono della regione,
//come l'area, il baricentro, il perimetro...
//per usarla si deve sottoclassare la classe virtuale TRegionFeatureFormula
//specificando la formual della grandezza da calcolare.
void DVAPI computeRegionFeature(const TRegion &r, TRegionFeatureFormula &formula);
#endif // !defined(TREGION_H)
//-----------------------------------------------------------------------------
// End Of File
//-----------------------------------------------------------------------------