private ObjFigu cnvCruveToFigu(ClsAtrXY atrxy0, ClsAtrXY atrxy1, ClsAtrXY atrxy2, ClsAtrXY atrxy3) { ObjFigu objFigu; int atr0, atr1, atr2; double x0, y0, x1, y1, x2, y2, x3, y3; ClsBeze bz; ClsPairRag pr; ClsPoint pt; objFigu = new ObjFigu(); objFigu.kind = Constants.BEZEKIND; objFigu.x1 = atrxy1.x; objFigu.y1 = atrxy1.y; objFigu.x4 = atrxy2.x; objFigu.y4 = atrxy2.y; atr0 = atrxy0.atr; atr1 = atrxy1.atr; atr2 = atrxy2.atr; x0 = atrxy0.x; y0 = atrxy0.y; x1 = atrxy1.x; y1 = atrxy1.y; x2 = atrxy2.x; y2 = atrxy2.y; x3 = atrxy3.x; y3 = atrxy3.y; pr = new ClsPairRag(); pr.srag = m_libCurve.getCurveStartRag(atr0, atr1, x0, y0, x1, y1, x2, y2); pr.erag = m_libCurve.getCurveEndRag(atr1, atr2, x1, y1, x2, y2, x3, y3); pr = m_libCurve.legalCurveRag(pr); pt = m_libCurve.getBezeControlPoint(x1, y1, x2, y2, pr.srag); objFigu.x2 = pt.x; objFigu.y2 = pt.y; pt = m_libCurve.getBezeControlPoint(x2, y2, x1, y1, pr.erag); objFigu.x3 = pt.x; objFigu.y3 = pt.y; return(objFigu); }
private ObjFigu cnvLineToFigu(ClsAtrXY atrxy1, ClsAtrXY atrxy2) { ObjFigu objFigu; objFigu = new ObjFigu(); objFigu.kind = Constants.LINEKIND; objFigu.x1 = atrxy1.x; objFigu.y1 = atrxy1.y; objFigu.x4 = atrxy2.x; objFigu.y4 = atrxy2.y; return(objFigu); }
private ObjFigu cnvBezeToFigu(ClsAtrXY atrxy1, ClsAtrXY atrxy2, ClsAtrXY atrxy3, ClsAtrXY atrxy4) { ObjFigu objFigu; objFigu = new ObjFigu(); objFigu.kind = Constants.BEZEKIND; objFigu.x1 = atrxy1.x; objFigu.y1 = atrxy1.y; objFigu.x2 = atrxy2.x; objFigu.y2 = atrxy2.y; objFigu.x3 = atrxy3.x; objFigu.y3 = atrxy3.y; objFigu.x4 = atrxy4.x; objFigu.y4 = atrxy4.y; return(objFigu); }
private byte[] AtrDXYSet(byte[] byteData, int pp, ClsAtrXY atrxy) { int bytep; int bitx, bity, ix, iy; bitx = (byte)(atrxy.x) & 0x03; bity = (byte)(atrxy.y) & 0x03; ix = (int)(atrxy.x) >> 2; iy = (int)(atrxy.y) >> 2; bytep = pp * Constants.ESF0SIZADD; byteData[bytep + Constants.ESF0ATRADD] = (byte)((bitx << 6) | (bity << 4) | atrxy.atr); byteData[bytep + Constants.ESF0XCDADD] = (byte)ix; byteData[bytep + Constants.ESF0YCDADD] = (byte)iy; return(byteData); }
private ObjFigu cnvArcToFigu(ClsAtrXY atrxy1, ClsAtrXY atrxy2, ClsAtrXY atrxy3) { ObjFigu objFigu; double x1, y1, x2, y2, x3, y3; ClsArcCenter cntr; ClsArcSER ser; ClsBeze bz; double rag; double t1, t2; x1 = atrxy1.x; y1 = atrxy1.y; x2 = atrxy2.x; y2 = atrxy2.y; x3 = atrxy3.x; y3 = atrxy3.y; objFigu = new ObjFigu(); objFigu.kind = Constants.LINEKIND; objFigu.x1 = x1; objFigu.y1 = y1; objFigu.x4 = x3; objFigu.y4 = y3; cntr = m_libCurve.getCurve3pCenter(x1, y1, x2, y2, x3, y3); if (cntr.stat == false) { return(objFigu); } ser = m_libCurve.getCurve3pRagR(x1, y1, x2, y2, x3, y3, cntr.x0, cntr.y0); if (ser.stat == false) { return(objFigu); } bz = new ClsBeze(); bz.x1 = x1; bz.y1 = y1; rag = (ser.erag - ser.srag) / 3.0 + ser.srag; bz.x2 = Math.Cos(rag) * ser.dr + cntr.x0; bz.y2 = Math.Sin(rag) * ser.dr + cntr.y0; rag = (ser.erag - ser.srag) / 3.0 * 2.0 + ser.srag; bz.x3 = Math.Cos(rag) * ser.dr + cntr.x0; bz.y3 = Math.Sin(rag) * ser.dr + cntr.y0; bz.x4 = x3; bz.y4 = y3; t1 = 1.0 / 3.0; t2 = 1.0 / 3.0 * 2.0; bz = m_libCurve.cnvOnpointToCntrlpoint(bz, t1, t2); objFigu.kind = Constants.BEZEKIND; objFigu.x1 = bz.x1; objFigu.y1 = bz.y1; objFigu.x2 = bz.x2; objFigu.y2 = bz.y2; objFigu.x3 = bz.x3; objFigu.y3 = bz.y3; objFigu.x4 = bz.x4; objFigu.y4 = bz.y4; return(objFigu); }
private ClsAtrXY FAtrDXYGet(byte[] byteData, int pp) { int bytep; int bitx, bity, ix, iy; ClsAtrXY atrxy; atrxy = new ClsAtrXY(); bytep = pp * Constants.ESF0SIZADD; atrxy.atr = (byteData[bytep + Constants.ESF0ATRADD] & 0x0f); bitx = (byteData[bytep + Constants.ESF0ATRADD] & 0xc0) >> 6; bity = (byteData[bytep + Constants.ESF0ATRADD] & 0x30) >> 4; ix = byteData[bytep + Constants.ESF0XCDADD]; iy = byteData[bytep + Constants.ESF0YCDADD]; atrxy.x = (double)(((ix << 2) & 0x3fc) | (bitx & 0x003)); atrxy.y = (double)(((iy << 2) & 0x3fc) | (bity & 0x003)); return(atrxy); }