ELF>8O@@('  UH@dH%(HD$81HHt$HD$HFHD$$D$ t0H|$1HT$8dH+%(uhH@]@HT$H|$H5|$HtHt+HH5HPtHuH1Huff.fUSHHdH%(HD$81HHt$HD$HFHD$$D$ HD$t6H|$1HT$8dH+%(HH[]DHt$H|$tHl$H=HtHH=uHuHc@HH=tH@SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(uZH0[fDHHuӐtHuHcHHH;tЉff.fSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(u}H0[fDHHuӐt,fH~HufHnfHHH;ufH~fDfH~f.SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(u}H0[fDHHuӐt,fH~HufHnfHHH;ufH~fDfH~f.UH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLHo(Ht!D$ +D$$tFH|$1HT$8dH+%(H@]fDHHuϐHt$H|$tD$$D$t?f.ztHEHHuHHt@HEHH;u$f.ztHDHff.UH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLHo(Ht!D$ +D$$tFH|$1HT$8dH+%(H@]fDHHuϐHt$H|$tD$$D$t?f.ztHEHHuHHt@HEHH;u$f.ztHDHff.ATUSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uYHD$Ho(Ht!\$ +\$$tJH|$1HT$8dH+%(H@[]A\HHuːHt$H|$tD$$Ld$uXHELH@H;ulH=tLH=u)HeHcZfDLLH=tL븐HЉfATH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$uDH(HtD$9D$tIH11E1HD$(dH+%(H0LA\@HHufHHRxH;IMtoI$H5LPtZHuLIHoHbL1HHP@L8fE1H"DIjfATL%H LHH5LuLHLA\ATIUHHt HH5LHtHmtH]A\HH]A\AWAVAUATUSH8fnFdH%(H$(1HHt$0HD$8HGfnЉD$HfbfD$@u]L(Mt!D$@+D$DtWH|$01H$(dH+%(H8[]A\A]A^A_HHu뾐Ld$PHl$0LHtLl$pHLtL$ HLfH$\$Xd$`l$xt$pL$PH$ D$D\$$fo$d$ fH~fo$fo$l$fo$|$)$)$)$)$L$(ILLLLL$(fI~f.L$PL$f.L$Xd$ f.d$`fHnf.|$p\$f.\$x}wl$f.$b\$f.$#$f.$$f.$$f.$$f.$$f.$$f.$zsuq$f.$z]u[$f.$ zGuEH fInLLLLL$(fI~@Hu LHHLH|H$L1H DAWAVAUATUSH8fnFdH%(H$(1HHt$0HD$8HGfnȉD$HfbfD$@u]L(Mt!D$@+D$DtWH|$01H$(dH+%(xH8[]A\A]A^A_HHu뾐Ld$PHl$0LHtLl$pHLtL$ HLfH$T$X\$`d$xH$ D$DD$Pl$pT$$\$ fo$fo$d$fH~fo$fo$t$)$)$)$)$D$(ILLLLD$(f.D$Pt$f.t$Xt$ f.t$`fHnf.l$p|$f.|$xzt|$f.$_Y$f.$ $f.$$f.$$f.$$f.$$f.$$f.$zpun$f.$zZuX$f.$ zDuBHHH@LLLLD$(@@Hu LHHLHH'L1Hf.z uHf.z uHSafeDownCastvtkObjectBasevtkParametricDiniIsTypeOfGetDimensionGetAGetBSetBSetAIsANewInstanceEvaluateScalarEvaluatevtkParametricFunctionvtkObjectUH=Hu]ÐHH=tHH=tH]vtkParametricDini - Generate Dini's surface. Superclass: vtkParametricFunction vtkParametricDini generates Dini's surface. Dini's surface is a surface that possesses constant negative Gaussian curvature For further information about this surface, please consult the technical description "Parametric surfaces" in http://www.vtk.org/publications in the "VTK Technical Documents" section in the VTk.org web pages. @par Thanks: Andrew Maclean andrew.amaclean@gmail.com for creating and contributing the class. vtkCommonComputationalGeometryPython.vtkParametricDiniV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. V.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. V.SafeDownCast(vtkObjectBase) -> vtkParametricDini C++: static vtkParametricDini *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkParametricDini C++: vtkParametricDini *NewInstance() V.GetDimension() -> int C++: int GetDimension() override; Return the parametric dimension of the class. V.SetA(float) C++: virtual void SetA(double _arg) Set/Get the scale factor. See the definition in Parametric surfaces referred to above. Default is 1. V.GetA() -> float C++: virtual double GetA() Set/Get the scale factor. See the definition in Parametric surfaces referred to above. Default is 1. V.SetB(float) C++: virtual void SetB(double _arg) Set/Get the scale factor. See the definition in Parametric surfaces referred to above. Default is 0.2 V.GetB() -> float C++: virtual double GetB() Set/Get the scale factor. See the definition in Parametric surfaces referred to above. Default is 0.2 V.Evaluate([float, float, float], [float, float, float], [float, float, float, float, float, float, float, float, float]) C++: void Evaluate(double uvw[3], double Pt[3], double Duvw[9]) override; Dini's surface. * This function performs the mapping $f(u,v) \rightarrow (x,y,x) $, returning it * as Pt. It also returns the partial derivatives Du and Dv. * $Pt = (x, y, z), Du = (dx/du, dy/du, dz/du), Dv = (dx/dv, dy/dv, dz/dv) $ . * Then the normal is $N = Du X Dv $ . V.EvaluateScalar([float, float, float], [float, float, float], [float, float, float, float, float, float, float, float, float]) -> float C++: double EvaluateScalar(double uvw[3], double Pt[3], double Duvw[9]) override; Calculate a user defined scalar using one or all of uvw, Pt, Duvw. * uvw are the parameters with Pt being the the cartesian point, * Duvw are the derivatives of this point with respect to u, v and w. * Pt, Duvw are obtained from Evaluate(). * This function is only called if the ScalarMode has the value * vtkParametricFunctionSource::SCALAR_FUNCTION_DEFINED * If the user does not need to calculate a scalar, then the * instantiated function should return zero. 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