#include "CtrlShapeCurve.h" namespace HWP { CCtrlShapeCurve::CCtrlShapeCurve() {} CCtrlShapeCurve::CCtrlShapeCurve(const HWP_STRING& sCtrlID) : CCtrlGeneralShape(sCtrlID) {} CCtrlShapeCurve::CCtrlShapeCurve(const CCtrlGeneralShape& oShape) : CCtrlGeneralShape(oShape) {} CCtrlShapeCurve::CCtrlShapeCurve(const HWP_STRING& sCtrlID, int nSize, CHWPStream& oBuffer, int nOff, int nVersion) : CCtrlGeneralShape(sCtrlID, nSize, oBuffer, nOff, nVersion) {} CCtrlShapeCurve::CCtrlShapeCurve(const HWP_STRING& sCtrlID, CXMLReader& oReader, int nVersion) : CCtrlGeneralShape(sCtrlID, oReader, nVersion) { // bool bReadedType TPoint oPoint1{0, 0}, oPoint2{0, 0}; HWP_BYTE chSegmentType = 0; WHILE_READ_NEXT_NODE(oReader) { if ("hp:seg" == oReader.GetName()) { chSegmentType = 0; oPoint1 = {0, 0}; oPoint2 = {0, 0}; START_READ_ATTRIBUTES(oReader) { if ("type" == sAttributeName) { const std::string sType{oReader.GetTextA()}; if ("CURVE" == sType) chSegmentType = 1; else if ("LINE" == sType) chSegmentType = 0; } else if ("x1" == sAttributeName) oPoint1.m_nX = oReader.GetInt(); else if ("y1" == sAttributeName) oPoint1.m_nY = oReader.GetInt(); else if ("x2" == sAttributeName) oPoint2.m_nX = oReader.GetInt(); else if ("y2" == sAttributeName) oPoint2.m_nY = oReader.GetInt(); } END_READ_ATTRIBUTES(oReader) m_arSegmentType.push_back(chSegmentType); m_arPoints.push_back(oPoint1); } else CCtrlGeneralShape::ParseChildren(oReader, nVersion); } END_WHILE m_arPoints.push_back(oPoint2); } EShapeType CCtrlShapeCurve::GetShapeType() const { return EShapeType::Curve; } VECTOR CCtrlShapeCurve::GetPoints() const { return m_arPoints; } VECTOR CCtrlShapeCurve::GetSegmentsType() const { return m_arSegmentType; } int CCtrlShapeCurve::ParseElement(CCtrlShapeCurve& oObj, int nSize, CHWPStream& oBuffer, int nOff, int nVersion) { oBuffer.SavePosition(); oBuffer.ReadInt(oObj.m_nPoints); if (0 < oObj.m_nPoints) { oObj.m_arPoints.resize(oObj.m_nPoints); for (unsigned int unIndex = 0; unIndex < oObj.m_nPoints; ++unIndex) { oBuffer.ReadInt(oObj.m_arPoints[unIndex].m_nX); oBuffer.ReadInt(oObj.m_arPoints[unIndex].m_nY); } } if (1 < oObj.m_nPoints) { oObj.m_arSegmentType.resize(oObj.m_nPoints - 1); for (unsigned int unIndex = 0; unIndex < oObj.m_nPoints - 1; ++unIndex) oBuffer.ReadByte(oObj.m_arSegmentType[unIndex]); } oBuffer.Skip(4); oBuffer.Skip(nSize - oBuffer.GetDistanceToLastPos(true)); return nSize; } int CCtrlShapeCurve::ParseCtrl(CCtrlShapeCurve& oObj, int nSize, CHWPStream& oBuffer, int nOff, int nVersion) { return CCtrlGeneralShape::ParseCtrl(oObj, nSize, oBuffer, nOff, nVersion); } }