X (.x(.__text__TEXT;x0__data__DATA@6:__cstring__TEXTX__compact_unwind__LD)@x+X8__eh_frame__TEXT@+- h2  8A<\ P-UHH=H5HH uHH=H]ÐUH]fDUHSPHH=H5HbH uHH=H5.HHt H tH[]H=H[]fUHAVSH0HuH4HEЋFEHEHEH}ȃuoHutqH]H=HAt1H=a'HtH=b'Ht HLcHuL1H0[A^]f.@UHAWAVSH(HuHHED~D}HG]ԉ]؅yHHLw(HEMA)AuhHuH}}L}tlH=LAtbH=P&LtOH=Q&Lt}utBA9vptAvpILHu6H}1H([A^A_]ILHuHHfDUHAVSH HuHHEDvDuHG]]y HHt H(HtD9uEt"_pHt*11H}111 HHuHcHHH [A^]UHAVSH HuH{HEDvDuHG]]y HHt+H(Ht"D9u!Et-HHt(1.H}111HHuHHHH [A^]f.DUHAVSH HuHHEDvDuHG]]y HHt(H(HtD9uEt*H1Ht(1.H}111HHuHHHH [A^]fUHSHXHHHE^HG)Ѓ`HuHHE]UĉUȅyHHZH_(H4H}HuH}Hu H}Hu}EMU[Xf.u z[`f.uz[hf.uCXK`ShHHHHuHHE]UĉUȅy HHtZH_(HtQHuH}t;}t[EMUHHHuNH51H H H;MuHHX[]1HHHuHHuHHH H H;Mt@UHAWAVSH(HuHHED~D}HG]܉]y HHt!Lw(MtD9uEt#IXHt.1:H}111)IL IHuLHHH([A^A_]fUHAVSH HuHHEDvDuHG]]y HHt%H(HtD9uEt'HHt+1>H}111-HHHuHHxHHH [A^]HD+:CN[%\ m !'!!!""##$$%&&'''C(L(vtkImplicitSelectionLoopvtkCommonDataModelPython.vtkImplicitSelectionLoopvtkImplicitSelectionLoop - implicit function for a selection loop Superclass: vtkImplicitFunction vtkImplicitSelectionLoop computes the implicit function value and function gradient for a irregular, cylinder-like object whose cross section is defined by a set of points forming a loop. The loop need not be convex nor its points coplanar. However, the loop must be non-self-intersecting when projected onto the plane defined by the accumulated cross product around the loop (i.e., the axis of the loop). (Alternatively, you can specify the normal to use.) The following procedure is used to compute the implicit function value for a point x. Each point of the loop is first projected onto the plane defined by the loop normal. This forms a polygon. Then, to evaluate the implicit function value, inside/outside tests are used to determine if x is inside the polygon, and the distance to the loop boundary is computed (negative values are inside the loop). One example application of this implicit function class is to draw a loop on the surface of a mesh, and use the loop to clip or extract cells from within the loop. Remember, the selection loop is "infinite" in length, you can use a plane (in boolean combination) to cap the extent of the selection loop. Another trick is to use a connectivity filter to extract the closest region to a given point (i.e., one of the points used to define the selection loop). @sa vtkImplicitFunction vtkImplicitBoolean vtkExtractGeometry vtkClipPolyData vtkConnectivityFilter vtkPolyDataConnectivityFilter IsTypeOfV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Standard VTK methods for printing and type information. IsAV.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Standard VTK methods for printing and type information. SafeDownCastV.SafeDownCast(vtkObjectBase) -> vtkImplicitSelectionLoop C++: static vtkImplicitSelectionLoop *SafeDownCast( vtkObjectBase *o) Standard VTK methods for printing and type information. NewInstanceV.NewInstance() -> vtkImplicitSelectionLoop C++: vtkImplicitSelectionLoop *NewInstance() Standard VTK methods for printing and type information. EvaluateFunctionV.EvaluateFunction([float, float, float]) -> float C++: double EvaluateFunction(double x[3]) override; V.EvaluateFunction(vtkDataArray, vtkDataArray) C++: virtual void EvaluateFunction(vtkDataArray *input, vtkDataArray *output) V.EvaluateFunction(float, float, float) -> float C++: virtual double EvaluateFunction(double x, double y, double z) Evaluate selection loop returning a signed distance. EvaluateGradientV.EvaluateGradient([float, float, float], [float, float, float]) C++: void EvaluateGradient(double x[3], double n[3]) override; Evaluate selection loop returning the gradient. SetLoopV.SetLoop(vtkPoints) C++: virtual void SetLoop(vtkPoints *) Set/Get the array of point coordinates defining the loop. There must be at least three points used to define a loop. GetLoopV.GetLoop() -> vtkPoints C++: virtual vtkPoints *GetLoop() Set/Get the array of point coordinates defining the loop. There must be at least three points used to define a loop. SetAutomaticNormalGenerationV.SetAutomaticNormalGeneration(int) C++: virtual void SetAutomaticNormalGeneration(int _arg) Turn on/off automatic normal generation. By default, the normal is computed from the accumulated cross product of the edges. You can also specify the normal to use. GetAutomaticNormalGenerationV.GetAutomaticNormalGeneration() -> int C++: virtual int GetAutomaticNormalGeneration() Turn on/off automatic normal generation. By default, the normal is computed from the accumulated cross product of the edges. You can also specify the normal to use. AutomaticNormalGenerationOnV.AutomaticNormalGenerationOn() C++: virtual void AutomaticNormalGenerationOn() Turn on/off automatic normal generation. By default, the normal is computed from the accumulated cross product of the edges. You can also specify the normal to use. AutomaticNormalGenerationOffV.AutomaticNormalGenerationOff() C++: virtual void AutomaticNormalGenerationOff() Turn on/off automatic normal generation. By default, the normal is computed from the accumulated cross product of the edges. You can also specify the normal to use. SetNormalV.SetNormal(float, float, float) C++: void SetNormal(double, double, double) V.SetNormal((float, float, float)) C++: void SetNormal(double a[3]) GetNormalV.GetNormal() -> (float, float, float) C++: double *GetNormal() Set / get the normal used to determine whether a point is inside or outside the selection loop. GetMTimeV.GetMTime() -> int C++: vtkMTimeType GetMTime() override; Overload GetMTime() because we depend on the Loop vtkImplicitFunctionvtkObjectvtkObjectBasevtkDataArrayvtkPointsOP `!'a!!?!9a a ! a !@ !! a!zRx $OAC $D AC $lAC B$AC G$'AC I$AC G$ PAC G$4(?AC J$\@9AC L$XAC I$AC G$AC I$PAC G$$AC G$LpAC G$t AC E$AC I$xAC G(-!--/--=-1-b--P-:/-"-1->-?=+=-b?=Y.-RD-2-1--\4-G4-24- 1-?=+=-/-g-<1- += - /- -| 1-R & - - /- - 1-  +=u -W /-= - 5- 1-  7- -x /-` -< 1-  += - /- - <- 0- ^ 1-4  >- ?= += - 6- - 6-q - ?=/-:-2-y2->1-?=>---+=-t-a-\6-C-?=.--8-0-x0-kS1-=4-4-4-1-q9-52- 1-?=&-o"-c -S7-F-</-&-1-7--s/-Y-E-0- --/-,-@-zo@-gV@-N53-1-/---},-q@-i^@-VE@-=.3-*---)--zslV;-IB-=6/)-'!-xh`XH@8(     xh `XH@8( @8$#('X%0! `@ `@ @NePO| G   N@ ` w#NT9%b46d\-}x%M% _PyType_Ready_PyvtkImplicitSelectionLoop_ClassNew_PyvtkImplicitFunction_ClassNew_PyVTKObject_New__ZL36PyvtkImplicitSelectionLoop_StaticNewv__ZN24vtkImplicitSelectionLoop3NewEv__ZN24vtkImplicitSelectionLoop8GetMTimeEv_PyVTKObject_GetSet__Py_NoneStruct_PyVTKObject_GetObject__ZN24vtkImplicitSelectionLoop7SetLoopEP9vtkPoints__ZL34PyvtkImplicitSelectionLoop_Methods_PyObject_GenericSetAttr_PyObject_GenericGetAttr_PyVTKObject_Repr_PyVTKObject_AsBuffer_PyVTKAddFile_vtkImplicitSelectionLoop_strcmp___stack_chk_fail_PyObject_GC_Del_PyVTKObject_Check__ZN13vtkPythonArgs13ArgCountErrorEii__ZN13vtkPythonArgs8GetArrayEPdi__ZN13vtkPythonArgs8SetArrayEiPKdi__ZN13vtkPythonArgs10BuildTupleEPKdi__ZN13vtkPythonArgs8GetValueERi_PyLong_FromLong_PyLong_FromUnsignedLong_PyDict_SetItemString_PyVTKObject_String_PyVTKObject_SetFlag_PyVTKObject_Delete_PyVTKObject_Traverse__ZN13vtkPythonUtil20GetObjectFromPointerEP13vtkObjectBase__ZL31PyvtkImplicitSelectionLoop_Type_PyType_Type_PyFloat_FromDouble___stack_chk_guard_PyErr_Occurred_PyVTKClass_Add__ZN13vtkPythonArgs8GetValueERd__ZN24vtkImplicitSelectionLoop16EvaluateFunctionEPd__Py_Dealloc__ZN13vtkPythonArgs8GetValueERPc__ZN13vtkPythonArgs13ArgCountErrorEiPKc__ZN13vtkObjectBase8IsTypeOfEPKc__ZN13vtkPythonArgs17GetArgAsVTKObjectEPKcRb__ZN19vtkImplicitFunction16EvaluateFunctionEP12vtkDataArrayS1___ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1___ZL39PyvtkImplicitSelectionLoop_SafeDownCastP7_objectS0___ZL43PyvtkImplicitSelectionLoop_EvaluateGradientP7_objectS0___ZL34PyvtkImplicitSelectionLoop_SetLoopP7_objectS0___ZL34PyvtkImplicitSelectionLoop_GetLoopP7_objectS0___ZL43PyvtkImplicitSelectionLoop_EvaluateFunctionP7_objectS0___ZL55PyvtkImplicitSelectionLoop_SetAutomaticNormalGenerationP7_objectS0___ZL55PyvtkImplicitSelectionLoop_GetAutomaticNormalGenerationP7_objectS0___ZL54PyvtkImplicitSelectionLoop_AutomaticNormalGenerationOnP7_objectS0___ZL36PyvtkImplicitSelectionLoop_SetNormalP7_objectS0___ZL36PyvtkImplicitSelectionLoop_GetNormalP7_objectS0___ZL55PyvtkImplicitSelectionLoop_AutomaticNormalGenerationOffP7_objectS0___ZL35PyvtkImplicitSelectionLoop_IsTypeOfP7_objectS0___ZL35PyvtkImplicitSelectionLoop_GetMTimeP7_objectS0___ZL38PyvtkImplicitSelectionLoop_NewInstanceP7_objectS0___ZL30PyvtkImplicitSelectionLoop_IsAP7_objectS0___ZN24vtkImplicitSelectionLoop16EvaluateGradientEPdS0_