ELF>P@@('   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=tHH=tHSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(uZH0[fDHHuӐdtHuHcHdHpH;tЉff.fSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(uZH0[fDHHuӐtHuHcHHhH;tЉff.fSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H(HtD$9D$t:H111HT$(dH+%(uUH0[fDHHuӐt HuHcfHHxH;tЉfATUSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uYHD$Ho(Ht!\$ +\$$tJH|$1HT$8dH+%(H@[]A\HHuːHt$H|$tD$$Ld$u`HELH@H;H=tLH=u-HaHcVf.LLH=tLH=tLfDHЉfUH@VdH%(HD$81HHt$HD$HGfnfnȉD$(fbfD$ u:Ho(Htt\H|$1HT$8dH+%(u}H@]HtHh(HtՋD$$taH|$1H5HT$H|$|$HtHEHXHuHHsT$ Jff.UH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLHo(Ht!D$ +D$$tFH|$1HT$8dH+%(H@]fDHHuϐHt$ H|$tD$$t$ tQd9ON9 tHE HHrHHd@HEH`H;u4d9ON9 t HHff.ATH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$uDH(HtD$9D$tIH11E1HD$(dH+%(H0LA\@HHufHHRxH;IMtoI$H5LPtZHuLIHoHbL1HHP@L8fE1H"DIjfU1H=H1H=HHH8Hmt H]fDHHD$HD$H]AVL51HAUH5LATUSt [L]A\A]A^H-L-HHHHHH5Lt H-tfHL@ HL9t6{HHtH3HLHmuHHL9uL[L]A\A]A^Hff.ATIUHHt HH5LHtHmtH]A\HH]A\UH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLHo(Ht!D$ +D$$tFH|$1HT$8dH+%(uzH@]f.HHuϐH5HT$H|$|$HtD$$u(HEHPHuHH@Hd9ON9 tH d SafeDownCastvtkObjectBasevtkAffineRepresentationIsTypeOfGetToleranceMaxValueGetToleranceMinValueGetToleranceIsAGetTransformvtkTransformSetToleranceNewInstance(i)_InteractionStateShallowCopyOutsideRotateTranslateTranslateXTranslateYScaleWEdgeScaleEEdgeScaleNEdgeScaleSEdgeScaleNEScaleSWScaleNWScaleSEShearEEdgeShearWEdgeShearNEdgeShearSEdgeMoveOriginXMoveOriginYMoveOriginvtkWidgetRepresentationvtkPropvtkObjectUH=Hu]ÐHH=tHH=tHH=tH]vtkAffineRepresentation - abstract class for representing affine transformation widgets Superclass: vtkWidgetRepresentation This class defines an API for affine transformation widget representations. These representations interact with vtkAffineWidget. The basic functionality of the affine representation is to maintain a transformation matrix. This class may be subclassed so that alternative representations can be created. The class defines an API and a default implementation that the vtkAffineWidget interacts with to render itself in the scene. @warning The separation of the widget event handling and representation enables users and developers to create new appearances for the widget. It also facilitates parallel processing, where the client application handles events, and remote representations of the widget are slaves to the client (and do not handle events). @sa vtkAffineWidget vtkWidgetRepresentation vtkAbstractWidget vtkInteractionWidgetsPython.vtkAffineRepresentationV.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Standard methods for instances of this class. V.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Standard methods for instances of this class. V.SafeDownCast(vtkObjectBase) -> vtkAffineRepresentation C++: static vtkAffineRepresentation *SafeDownCast( vtkObjectBase *o) Standard methods for instances of this class. V.NewInstance() -> vtkAffineRepresentation C++: vtkAffineRepresentation *NewInstance() Standard methods for instances of this class. V.GetTransform(vtkTransform) C++: virtual void GetTransform(vtkTransform *t) Retrieve a linear transform characterizing the affine transformation generated by this widget. This method copies its internal transform into the transform provided. The transform is relative to the initial placement of the representation (i.e., when PlaceWidget() is invoked). V.SetTolerance(int) C++: virtual void SetTolerance(int _arg) The tolerance representing the distance to the widget (in pixels) in which the cursor is considered near enough to the widget to be active. V.GetToleranceMinValue() -> int C++: virtual int GetToleranceMinValue() The tolerance representing the distance to the widget (in pixels) in which the cursor is considered near enough to the widget to be active. V.GetToleranceMaxValue() -> int C++: virtual int GetToleranceMaxValue() The tolerance representing the distance to the widget (in pixels) in which the cursor is considered near enough to the widget to be active. V.GetTolerance() -> int C++: virtual int GetTolerance() The tolerance representing the distance to the widget (in pixels) in which the cursor is considered near enough to the widget to be active. V.ShallowCopy(vtkProp) C++: void ShallowCopy(vtkProp *prop) override; Methods to make this class properly act like a vtkWidgetRepresentation. vtkInteractionWidgetsPython.vtkAffineRepresentation._InteractionStateUH-HH=HHH]H HD GCC: (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0GNUzRx 10 D X l EDPa AE bEY B }(EAD`n AAF ED@ AG ED@ AG 8ED@ AG 0\FAA D`  AABH EDP AA tEDP AG gFD@ EE $`EO l AG VAL$FRL A(A0O (D BBBA  (D BBBA 0tOFDD n ABA DDB:Em$EDP AK     9m%T@`tg1U`|@:  &+ 053:?D I<NQSfXs^wdjpv|" 1" " %" R" 5F"bkr 4CbtP ` !0S` OHTgx  _ZL38PyvtkAffineRepresentation_SafeDownCastP7_objectS0__ZL34PyvtkAffineRepresentation_IsTypeOfP7_objectS0__ZL46PyvtkAffineRepresentation_GetToleranceMaxValueP7_objectS0__ZL46PyvtkAffineRepresentation_GetToleranceMinValueP7_objectS0__ZL38PyvtkAffineRepresentation_GetToleranceP7_objectS0__ZL29PyvtkAffineRepresentation_IsAP7_objectS0__ZL38PyvtkAffineRepresentation_GetTransformP7_objectS0__ZL38PyvtkAffineRepresentation_SetToleranceP7_objectS0__ZL37PyvtkAffineRepresentation_NewInstanceP7_objectS0__ZL48PyvtkAffineRepresentation__InteractionState_Type_ZL30PyvtkAffineRepresentation_Type_ZL33PyvtkAffineRepresentation_Methods_ZZ34PyvtkAffineRepresentation_ClassNewE9constants_GLOBAL__sub_I_vtkAffineRepresentationPython.cxx_ZStL8__ioinit_ZL37PyvtkAffineRepresentation_ShallowCopyP7_objectS0_.LC0.LC1.LC2.LC6.LC3.LC4.LC5.LC7.LC8.LC9.LC10.LC11.LC12.LC13.LC14.LC15.LC16.LC18.LC17_ZN23vtkAffineRepresentation12SetToleranceEi_ZN23vtkAffineRepresentation20GetToleranceMinValueEv_ZN23vtkAffineRepresentation20GetToleranceMaxValueEv_ZN23vtkAffineRepresentation12GetToleranceEv_ZNK23vtkAffineRepresentation19NewInstanceInternalEv_ZN9vtkObject3NewEv_ZN13vtkPythonArgs13ArgCountErrorEii_ZN13vtkPythonArgs17GetArgAsVTKObjectEPKcRbPyErr_Occurred_ZN13vtkPythonUtil20GetObjectFromPointerEP13vtkObjectBase__stack_chk_fail_ZN23vtkAffineRepresentation3IsAEPKcstrcmp_ZN13vtkObjectBase8IsTypeOfEPKc_ZN13vtkPythonArgs8GetValueERPcPyLong_FromLong_ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1__GLOBAL_OFFSET_TABLE__ZN13vtkPythonArgs16PureVirtualErrorEv_Py_NoneStruct_ZN13vtkPythonArgs8GetValueERiPyVTKObject_CheckPyVTKObject_GetObjectPyVTKObject_SetFlag_Z52PyvtkAffineRepresentation__InteractionState_FromEnumiPy_BuildValuePyLong_Type_Py_DeallocPyvtkAffineRepresentation_ClassNewPyVTKClass_AddPyvtkWidgetRepresentation_ClassNewPyType_Ready_ZN13vtkPythonUtil12AddEnumToMapEP11_typeobjectPyDict_SetItemStringPyVTKAddFile_vtkAffineRepresentation_ZNSt8ios_base4InitC1Ev_ZNSt8ios_base4InitD1Ev__dso_handle__cxa_atexit_ZN23vtkAffineRepresentation11ShallowCopyEP7vtkPropPyType_TypePyVTKObject_DeletePyVTKObject_ReprPyVTKObject_StringPyObject_GenericGetAttrPyObject_GenericSetAttrPyVTKObject_AsBufferPyVTKObject_TraversePyVTKObject_GetSetPyVTKObject_NewPyObject_GC_DelPyObject_Free P9}!:";<;=#:9mA}"?$?;B%?&?@='^9C;B*5=(N9qC;B*4=)>9aC{;B*6=*69aC{A*>"?$?;B%?&?"@:=_+9CE,:.;:*FH=-9CG_;o*F*3= .O 9y C *7 8 " ; < H I J$ ;C =\ /e Ln { *M N  "  P  Q    R ! 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