Files
core/ASCOfficePPTXFile/PPTXFormat/Logic/Geometry.h

349 lines
9.5 KiB
C++

#pragma once
#ifndef PPTX_LOGIC_GEOMETRY_INCLUDE_H_
#define PPTX_LOGIC_GEOMETRY_INCLUDE_H_
#include "./../WrapperWritingElement.h"
#include "PrstGeom.h"
#include "CustGeom.h"
namespace PPTX
{
namespace Logic
{
class Geometry : public WrapperWritingElement
{
public:
PPTX_LOGIC_BASE(Geometry)
public:
virtual void fromXML(XmlUtils::CXmlNode& node)
{
CString strName = XmlUtils::GetNameNoNS(node.GetName());
if (strName == _T("prstGeom"))
m_geometry.reset(new Logic::PrstGeom(node));
else if (strName == _T("custGeom"))
m_geometry.reset(new Logic::CustGeom(node));
else m_geometry.reset();
}
virtual void GetGeometryFrom(XmlUtils::CXmlNode& element)
{
XmlUtils::CXmlNode oNode;
if (element.GetNode(_T("a:prstGeom"), oNode))
m_geometry.reset(new Logic::PrstGeom(oNode));
else if (element.GetNode(_T("a:custGeom"), oNode))
m_geometry.reset(new Logic::CustGeom(oNode));
else m_geometry.reset();
}
virtual CString toXML() const
{
if (m_geometry.IsInit())
return m_geometry->toXML();
return _T("");
}
virtual void toXmlWriter(NSBinPptxRW::CXmlWriter* pWriter) const
{
if (m_geometry.is_init())
m_geometry->toXmlWriter(pWriter);
}
virtual void toPPTY(NSBinPptxRW::CBinaryFileWriter* pWriter) const
{
if (m_geometry.is_init())
m_geometry->toPPTY(pWriter);
}
virtual void fromPPTY(NSBinPptxRW::CBinaryFileReader* pReader)
{
LONG _end_rec = pReader->GetPos() + pReader->GetLong() + 4;
if (pReader->GetPos() < _end_rec)
{
BYTE _t = pReader->GetUChar();
if (GEOMETRY_TYPE_PRST == _t)
{
// preset shape
LONG _e = pReader->GetPos() + pReader->GetLong() + 4;
pReader->Skip(1); // start attributes
Logic::PrstGeom* pGeom = new Logic::PrstGeom();
while (true)
{
BYTE _at = pReader->GetUChar_TypeNode();
if (_at == NSBinPptxRW::g_nodeAttributeEnd)
break;
if (0 == _at)
pGeom->prst.set(pReader->GetString2());
else
break;
}
while (pReader->GetPos() < _e)
{
BYTE _at = pReader->GetUChar();
switch (_at)
{
case 0:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
pReader->Skip(1);
pGeom->avLst.push_back(Gd());
pGeom->avLst[i].fromPPTY(pReader);
}
pReader->Seek(_end_rec2);
break;
}
default:
break;
}
}
m_geometry.reset(pGeom);
}
else if (GEOMETRY_TYPE_CUSTOM == _t)
{
LONG _e = pReader->GetPos() + pReader->GetLong() + 4;
Logic::CustGeom* pGeom = new Logic::CustGeom();
while (pReader->GetPos() < _e)
{
BYTE _at = pReader->GetUChar();
switch (_at)
{
case 0:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
pReader->Skip(1);
pGeom->avLst.push_back(Gd());
pGeom->avLst[i].fromPPTY(pReader);
}
pReader->Seek(_end_rec2);
break;
}
case 1:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
pReader->Skip(1);
pGeom->gdLst.push_back(Gd());
pGeom->gdLst[i].fromPPTY(pReader);
}
pReader->Seek(_end_rec2);
break;
}
case 2:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
BYTE _type1 = pReader->GetUChar();
pReader->Skip(4); // len
BYTE _type = pReader->GetUChar();
pReader->Skip(5); // len + start attributes
if (1 == _type)
{
Logic::AhPolar* p = new Logic::AhPolar();
while (true)
{
BYTE _at2 = pReader->GetUChar_TypeNode();
if (_at2 == NSBinPptxRW::g_nodeAttributeEnd)
break;
switch (_at2)
{
case 0: p->x = pReader->GetString2(); break;
case 1: p->y = pReader->GetString2(); break;
case 2: p->gdRefAng = pReader->GetString2(); break;
case 3: p->gdRefR = pReader->GetString2(); break;
case 4: p->maxAng = pReader->GetString2(); break;
case 5: p->maxR = pReader->GetString2(); break;
case 6: p->minAng = pReader->GetString2(); break;
case 7: p->minR = pReader->GetString2(); break;
default:
break;
}
}
pGeom->ahLst.push_back(AhBase());
pGeom->ahLst[i].ah.reset(p);
}
else
{
Logic::AhXY* p = new Logic::AhXY();
while (true)
{
BYTE _at2 = pReader->GetUChar_TypeNode();
if (_at2 == NSBinPptxRW::g_nodeAttributeEnd)
break;
switch (_at2)
{
case 0: p->x = pReader->GetString2(); break;
case 1: p->y = pReader->GetString2(); break;
case 2: p->gdRefX = pReader->GetString2(); break;
case 3: p->gdRefY = pReader->GetString2(); break;
case 4: p->maxX = pReader->GetString2(); break;
case 5: p->maxY = pReader->GetString2(); break;
case 6: p->minX = pReader->GetString2(); break;
case 7: p->minY = pReader->GetString2(); break;
default:
break;
}
}
pGeom->ahLst.push_back(AhBase());
pGeom->ahLst[i].ah.reset(p);
}
}
pReader->Seek(_end_rec2);
break;
}
case 3:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
BYTE _type = pReader->GetUChar();
pReader->Skip(5); // len + start attributes
pGeom->cxnLst.push_back(Cxn());
while (true)
{
BYTE _at2 = pReader->GetUChar_TypeNode();
if (_at2 == NSBinPptxRW::g_nodeAttributeEnd)
break;
switch (_at2)
{
case 0:
pGeom->cxnLst[i].x = pReader->GetString2();
break;
case 1:
pGeom->cxnLst[i].y = pReader->GetString2();
break;
case 2:
pGeom->cxnLst[i].ang = pReader->GetString2();
break;
default:
break;
}
}
}
pReader->Seek(_end_rec2);
break;
}
case 4:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
ULONG _c = pReader->GetULong();
for (ULONG i = 0; i < _c; ++i)
{
BYTE _type = pReader->GetUChar();
pGeom->pathLst.push_back(Path2D());
pGeom->pathLst[i].fromPPTY(pReader);
}
pReader->Seek(_end_rec2);
break;
}
case 5:
{
LONG _end_rec2 = pReader->GetPos() + pReader->GetLong() + 4;
pReader->Skip(1); // start attributes
pGeom->rect = new Logic::Rect();
pGeom->rect->m_name = _T("a:rect");
pGeom->rect->l = _T("l");
pGeom->rect->t = _T("t");
pGeom->rect->r = _T("r");
pGeom->rect->b = _T("b");
while (true)
{
BYTE _at2 = pReader->GetUChar_TypeNode();
if (_at2 == NSBinPptxRW::g_nodeAttributeEnd)
break;
switch (_at2)
{
case 0:
pGeom->rect->l = pReader->GetString2();
break;
case 1:
pGeom->rect->t = pReader->GetString2();
break;
case 2:
pGeom->rect->r = pReader->GetString2();
break;
case 3:
pGeom->rect->b = pReader->GetString2();
break;
default:
break;
}
}
pReader->Seek(_end_rec2);
break;
}
default:
break;
}
}
m_geometry.reset(pGeom);
}
}
pReader->Seek(_end_rec);
}
virtual bool is_init() const {return (m_geometry.IsInit());};
template<class T> AVSINLINE const bool is() const { return m_geometry.is<T>(); }
template<class T> AVSINLINE T& as() { return m_geometry.as<T>(); }
template<class T> AVSINLINE const T& as() const { return m_geometry.as<T>(); }
//public:
private:
smart_ptr<WrapperWritingElement> m_geometry;
protected:
virtual void FillParentPointersForChilds(){};
public:
virtual void SetParentPointer(const WrapperWritingElement* pParent)
{
if(is_init())
m_geometry->SetParentPointer(pParent);
};
void ConvertToCustomVML(IRenderer* punkRenderer, CString& strPath, CString& strRect, LONG& lWidth, LONG& lHeight);
};
} // namespace Logic
} // namespace PPTX
#endif // PPTX_LOGIC_GEOMETRY_INCLUDE_H_