public void Clear() { CurveData cdDefault = new CurveData(); name_ = cdDefault.name_; curveType_ = cdDefault.curveType_; equation1_ = cdDefault.equation1_; equation2_ = cdDefault.equation2_; Isometric = cdDefault.Isometric; XVmin = cdDefault.XVmin; XVmax = cdDefault.XVmax; YVmin = cdDefault.YVmin; YVmax = cdDefault.YVmax; Pmin = cdDefault.Pmin; Pmax = cdDefault.Pmax; Pstep = cdDefault.Pstep; Thickness = cdDefault.Thickness; }
public CurveData Copy() { CurveData cdCopy = new CurveData(); cdCopy.Name = this.Name; cdCopy.Type = this.Type; cdCopy.Equation1 = this.Equation1; cdCopy.Equation2 = this.Equation2; cdCopy.Isometric = this.Isometric; cdCopy.XVmin = this.XVmin; cdCopy.XVmax = this.XVmax; cdCopy.YVmin = this.YVmin; cdCopy.YVmax = this.YVmax; cdCopy.Pmin = this.Pmin; cdCopy.Pmax = this.Pmax; cdCopy.Pstep = this.Pstep; cdCopy.Thickness = this.Thickness; return(cdCopy); }
public string GetDescription() { string desc = ""; CurveData cdDefault = new CurveData(); // name mandatory if (String.IsNullOrEmpty(name_)) { return(""); } desc += "[" + name_ + "]" + Environment.NewLine; desc += "type=" + curveType_.ToString().ToLower() + Environment.NewLine; // equations switch (curveType_) { case CurveType.PARAMETRIC: desc += "x(t)=" + equation1_ + Environment.NewLine; desc += "y(t)=" + equation2_ + Environment.NewLine; break; case CurveType.POLAR: desc += "r(t)=" + equation1_ + Environment.NewLine; break; case CurveType.CARTESIAN: desc += "y(x)=" + equation1_ + Environment.NewLine; break; case CurveType.EQUALITY: desc += "0=" + equation1_ + Environment.NewLine; break; case CurveType.INEQUALITY: desc += "0<" + equation1_ + Environment.NewLine; break; } // write parameters values if different from default values CultureInfo culture = new CultureInfo("en-US"); if (!Isometric) { desc += "isometric=" + Isometric.ToString(culture) + Environment.NewLine; } // if isometric, do not save x min and max if (!Isometric) { if (XVmin != cdDefault.XVmin) { desc += "xv_min=" + XVmin.ToString(culture) + Environment.NewLine; } if (XVmax != cdDefault.XVmax) { desc += "xv_max=" + XVmax.ToString(culture) + Environment.NewLine; } } if (YVmin != cdDefault.YVmin) { desc += "yv_min=" + YVmin.ToString(culture) + Environment.NewLine; } if (YVmax != cdDefault.YVmax) { desc += "yv_max=" + YVmax.ToString(culture) + Environment.NewLine; } switch (curveType_) { case CurveType.PARAMETRIC: case CurveType.POLAR: if (Pmin != cdDefault.Pmin) { desc += "t_min=" + Pmin.ToString(culture) + Environment.NewLine; } if (Pmax != cdDefault.Pmax) { desc += "t_max=" + Pmax.ToString(culture) + Environment.NewLine; } if (Pstep != cdDefault.Pstep) { desc += "t_step=" + Pstep.ToString(culture) + Environment.NewLine; } break; case CurveType.CARTESIAN: case CurveType.EQUALITY: case CurveType.INEQUALITY: if (Pmin != cdDefault.Pmin) { desc += "x_min=" + Pmin.ToString(culture) + Environment.NewLine; } if (Pmax != cdDefault.Pmax) { desc += "x_max=" + Pmax.ToString(culture) + Environment.NewLine; } if (Pstep != cdDefault.Pstep) { desc += "x_step=" + Pstep.ToString(culture) + Environment.NewLine; } break; } if (Thickness != cdDefault.Thickness) { desc += "thickness=" + Thickness + Environment.NewLine; } desc += Environment.NewLine; return(desc); }