ELF>XA@@Ht'SH ooKH[1ff.fHtSHo[1ff.fHtSHo[1ff.fHtSHo[1ff.fHtSHo[1ff.fHt'SH ooKH[1ff.fATUHHdH%(HD$81HHt$HD$HFHD$$D$ HD$tUH|$E1H|$HtH/tHD$8dH+%(upHHL]A\fH-HT$H|$HIHt Ao$HHAoL$HIpfATUHHdH%(HD$81HHt$HD$HFHD$$D$ HD$tUH|$E1H|$HtH/tHD$8dH+%(ueHHL]A\fH-HT$H|$HIHtAo$HHI{@ATUHHdH%(HD$81HHt$HD$HFHD$$D$ HD$tUH|$E1H|$HtH/tHD$8dH+%(ueHHL]A\fH-HT$H|$HIHtAo$HHI{@ATUH-HHdH%(HD$81HFHt$Hl$D$ HD$$HD$tUH|$E1H|$HtH/tHD$8dH+%(u[HHL]A\fHT$H|$HIHtAo$HHIff.ATUH-HHdH%(HD$81HFHt$Hl$D$ HD$$HD$tUH|$E1H|$HtH/tHD$8dH+%(u[HHL]A\fHT$H|$HIHtAo$HHIff.ATUH-HHdH%(HD$81HFHt$Hl$D$ HD$$HD$tUH|$E1H|$HtH/tHD$8dH+%(uiHHL]A\fHT$H|$HIHt Ao$HHAoL$HIwHXdH%(HD$H1HH4$HD$HFHD$D$t2H1HT$HdH+%(uRHXfHt$ Htʿ foD$ foL$0H=HHUH-HPdH%(HD$H1HFH4$Hl$D$HD$t1H1HT$HdH+%(uMHP]Ht$ Ht˿ foD$ foL$0HHHff.UHHHtH]UHHHtH]UHHHtH]UHHHtH]UHHHtH]UHHHtH]HHdH%(HD$81HH4$HD$HFHD$D$t2H1HT$8dH+%(uHHHfHt$ HtʿfoD$ H=HUH-H@dH%(HD$81HFH4$Hl$D$HD$t1H1HT$8dH+%(uCH@]Ht$ Ht˿foD$ HHDHHdH%(HD$81HH4$HD$HFHD$D$t2H1HT$8dH+%(uHHHfHt$ HtʿfoD$ H=HUH-H@dH%(HD$81HFH4$Hl$D$HD$t1H1HT$8dH+%(uCH@]Ht$ Ht˿foD$ HHDATIUHXdH%(HD$H1HtHHlID$ǃ,twt3H51HT$HdH+%(NHX]A\f fH@HD$HdH+%(HXH=]A\Ld$ HLd$ HH-LD$8Hl$(HD$0\Ht$LGHt$L2Ht$L f(D$f( $HH@HD$HdH+%(u=HXLH=1]A\HH5H81ff.ATIH@dH%(HD$81HtHH}ID$ǃ=tpt,H51HT$8dH+%(_H@A\fHHD$8dH+%(-H@H=A\fDHLd$Ld$HHD$HLD$(HD$ cHt$LNHt$L9Ht$ L$fnL$fn$H=fnT$ fn\$HfbfbflHD$8dH+%(u=H@LH=1A\fHH5H81ff.ATIH@dH%(HD$81HtHHmID$ǃ5tpt,H51HT$8dH+%(OH@A\fHHD$8dH+%(H@H=A\fDHLd$Ld$HHD$HLD$(HD$ cHt$LNHt$L9Ht$ L$D$ L$H=T$H$HD$8dH+%(u5H@LH=1A\HH5H81ff.ATIUHHdH%(HD$81HtHH|ID$ǃ<twt3H51HT$8dH+%(^HH]A\ffHHD$8dH+%(%HHH=]A\DLd$HLd$HH-LD$(Hl$HD$ \Ht$LGHt$L2Ht$ LD$ L$HT$H$HD$8dH+%(u=HHLH=1]A\HH5H81ff.ATIUHHdH%(HD$81HtHH|ID$ǃ<twt3H51HT$8dH+%(^HH]A\ffHHD$8dH+%(%HHH=]A\DLd$HLd$HH-LD$(Hl$HD$ \Ht$LGHt$L2Ht$ LfnL$fn$HfnT$ fn\$Hfbfbfl@HD$8dH+%(u=HHLH=1]A\HH5H81ff.ATIHPdH%(HD$H1HtHHmID$ǃ-txt,H51HT$HdH+%(OHPA\ fH@HD$HdH+%(HPH=A\f.HLd$ Ld$ HHD$(HLD$8HD$0[Ht$LFHt$L1Ht$L f(D$f( $H=H@@HD$HdH+%(u=HPLH=1A\fHH5H81ff.SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHufDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u2H0[fDHHuӐHuCDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u2H0[fDHHuӐHuCDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHufDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u2H0[fDHHuӐHuCDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u0H0[fDHHuӐHuHc;SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHuHc{fDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u5H0[fDHHuӐHufZfSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u6H0[fDHHuӐHufZCSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u6H0[fDHHuӐHufZCSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u6H0[fDHHuӐHufZC SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u5H0[fDHHuӐHufZfSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u6H0[fDHHuӐHufZCSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u0H0[fDHHuӐHuHc;SH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHuHc{fDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHuHc{fDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u1H0[fDHHuӐHuHc{ fDSH0fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u=H_HtD$9D$t:H111HT$(dH+%(u2H0[fDHHuӐHuCDUSH8fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$uHGHtL$9L$t;H111HT$(dH+%(uBH8HHuҐHHD$ HuHt$ H=fDHHfnFdH%(HD$81HH4$HD$HGfnȉD$fbfD$u>HGHtL$9L$t;H111HT$8dH+%(uCHHHHuҐf)T$ HuHt$ H=DH8fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uBH8HHuҐHHD$ HuHt$ H=fDH8fnFdH%(HD$(1HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uPH8HHuҐ@X@ L$ HuHt$ H=H8fnFdH%(HD$(1HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uPH8HHuҐX@HD$ HuHt$ H=H8fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uRH8HHuҐfnP PfnfbfD$ HuHt$ H=fDH8fnFdH%(HD$(1HH4$HD$HGfnȉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uTH8HHuҐP@fnfnfbfD$ HuHt$ H=@HHfnFdH%(HD$81HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$8dH+%(uQHHHHuҐ@X@f)L$ HuHt$ H=HHfnFdH%(HD$81HH4$HD$HGfnȉD$fbfD$u>HGHtL$9L$t;H111HT$8dH+%(uMHHHHuҐX@f@)D$ HuHt$ H=ff.HHfnFdH%(HD$81HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$8dH+%(uLHHHHuҐffHfX)D$ HuHt$ H=ff.H8fnFdH%(HD$(1HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uKH8HHuҐ~~HXD$ HuHt$ H=ff.fSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uQH@[f.HHuϐHt$ H|$tD$ CHuHHf.SH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uQH@[f.HHuϐHt$ H|$tD$ C HuHHf.SH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uPH@[f.HHuϐHt$ H|$tD$ HuHHff.SH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uQH@[f.HHuϐHt$ H|$tD$ CHuHHf.SH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$H|$tD$CHuHHfDH8fnFdH%(HD$(1HH4$HD$HGfnЉD$fbfD$u>HGHtL$9L$t;H111HT$(dH+%(uMH8HHuҐ~~HffD$ HuHt$ H=ff.SH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$ H|$tD$ C HuHHfDSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$ H|$tD$ CHuHHfDSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$ H|$tD$ CHuHHfDSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uTH@[f.HHuϐHt$ H|$tD$ HuHHSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$H|$tD$CHuHHfDSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uUH@[f.HHuϐHt$H|$tD$CHuHHfDSH@fnFdH%(HD$81HHt$HD$HGfnȉD$(fbfD$ uLH_Ht!D$ +D$$tFH|$1HT$8dH+%(uTH@[f.HHuϐHt$H|$tD$HuHHUSHHfnFdH%(HD$81HHt$HD$HGfnЉD$(fbfD$ uKH_Ht!D$ +D$$tEH|$1HT$8dH+%(HH[]@HHuАHl$HHtHt$HtHt$HtHt$ HtfnL$fn\$ fn$fnd$fbfbflHTHHFUSHHfnFdH%(HD$81HHt$HD$HGfn؉D$(fbfD$ uKH_Ht!D$ +D$$tEH|$1HT$8dH+%(HH[]@HHuАHl$HHtHt$HtHt$HtHt$ HtD$ L$T$$HWHHIUSHXfnFdH%(HD$H1HHt$ HD$(HGfnЉD$8fbfD$0uKH_Ht!D$0+D$4tEH|$ 1HT$HdH+%(HX[]@HHuАHl$ HHtHt$HtHt$HtHt$Htf(D$f( $C HhHHZ@USHXfnFdH%(HD$H1HHt$ HD$(HGfnЉD$8fbfD$0u{HD$H_HtzD$0+D$4ttH|$ 1H|$HtH/tHT$HdH+%(HX[]HD$HD$HHt1HT$H|$ H5Ht/w`/Ƚv\C/@HC/vV\H /!H0@$f.\H/HC@/w/v\C /!@USHXfnFdH%(HD$H1HHt$ HD$(HGfnȉD$8fbfD$0u{HD$H_HtzD$0+D$4ttH|$ 1H|$HtH/tHT$HdH+%(HX[]HD$HD$HHt1HT$H|$ H5Ht9|E~ );K@ŋHS9}>);P !HK@?D)ʋH;PS@9|~);K !f.USHXfnFdH%(HD$H1HHt$ HD$(HGfnЉD$8fbfD$0u{HD$H_HtzD$0+D$4ttH|$ 1H|$HtH/tHT$HdH+%(HX[]HD$HD$HHt1HT$H|$ H5Htf/w_f/Ƚv\Cf/@HCf/vT\Hf/!H+@D\Hf/HC@f/wf/v\Cf/!SHPfnFdH%(HD$H1HHt$ HD$(HGfnȉD$8fbfD$0u|HD$H_Ht{D$0+D$4tuH|$ 1H|$HtH/tHT$HdH+%(HP[DHD$HD$HHs1HT$H|$ H5Hts9|Rx~})щ9MщSSHs 9}P)ʉK@ 9LЉS H9HH+f)ʉ Hs 9LщSSH9|@ ~)щ9M9M@9MƉfSHPfnFdH%(HD$H1HHt$ HD$(HGfnD$8fbfD$0u|HD$H_Ht{D$0+D$4tuH|$ 1H|$HtH/tHT$HdH+%()HP[DHD$HD$HHs1HT$H|$ H5Ht[/wk/@\X_SCH[ /vX\KX(_@ C HHH \ X(_@f./@ v&\X__f_DSHPfnFdH%(HD$H1HHt$ HD$(HGfnD$8fbfD$0u|HD$H_Ht{D$0+D$4tuH|$ 1H|$HtH/tHT$HdH+%(,HP[DHD$HD$HHs1HT$H|$ H5Ht[f/wrf/@\X_SCH[f/vU\KXf(_@CHHH@\ Xf(_@뒐f/@v%\X__h_fUSHXdH%(HD$HHFt7~H51HT$HdH+%(HX[]HHt$HD$HGD$ D$$D$(H_H1HHt$HD$HGD$ D$$D$( H_HtHl$HHtHt$Ht$L$f/\XCCCf/\XCKCH4HHHt$0H|$L$0f/f/v\_KKL$8Cf/of/x\_KKef.HHXHD$ +D$$H|$1fH?HXH2D$ +D$$H|$1f\XC C ff/o\_SS\ff.USHHdH%(HD$8HFt7~H51HT$8dH+%(*HH[]HHt$HD$HGD$ D$$D$(pH_H1HHt$HD$HGD$ D$$D$(H_HtHl$Ht$HtHt$ HtT$ D$ 9>)KS9}t)S CHWHHf.Ht$0H|$!D$09~ )ЋS9L‰CD$4S9|~)ЋS 9L‰C HHXHD$ +D$$H|$1;HHXHD$ +D$$4H|$1f)‰S=@)ʋK9LщSUSHHdH%(HD$8HFt7~H51HT$8dH+%(~HH[]HHt$HD$HGD$ D$$D$(H_H1HHt$HD$HGD$ D$$D$(H_HtHl$Ht$HtHt$ HtT$L$ /\XCCC/\XC KC H3HHfDHt$0H|$L$0//v\_KKL$4C/s/}\_K K jfDHHXHD$ +D$$H|$1HOHXHBD$ +D$$H|$1f\XC Cf/\_SSoff.@ATL%H HH5LuLHLA\ATL%H HH5LuLHLA\ATL%H ܩHH5LuLHLA\ATH5H=UHIHtHLHukHHtHLu7HHtHLtHmtDHL]A\fHmuHHmuHHfDATL%H HH5LuLHLA\ATL%H ̨HH5LuLHLA\ATL%H HH5LuLHLA\AWAVAUATUHSHHHI11H5LpIM~c1%It$Ht LHHI9t:IGL$I|$uH5H9t tID$H0DI/LH5HIHtHH5HuyIHtHH5Hu>IHtHH5HtI,$ttH[]A\A]A^A_DI,$uLI,$uLs@ImAL4LHL[]A\A]A^A_vtkRectvtkRect_IdEvtkRect_IfEvtkRect_IiEvtkRectivtkRectfvtkRectdGetXGetWidthGetHeightGetLeftGetBottomGetYGetRightGetTopGetBottomLeftvtkVector2_IfEvtkVector2_IdEvtkVector2_IiEGetTopLeftvtkVector_IfLi2EEGetBottomRightvtkVector_IiLi2EEvtkVector_IdLi2EEGetTopRightSetWidthSetHeightSetXSetYSetIntersectsWithAddRectAddPointvalues-@P *d@W vtkRectd-@P *f@W vtkRectf-@P *i@W vtkRecti@W vtkRect_IiE@W vtkRect_IfE@W vtkRect_IdEthis function takes no keyword argumentsvtkRect - templated base type for storage of 2D rectangles. Superclass: vtkVector[T,4] This class is a templated data type for storing and manipulating rectangles. The memory layout is a contiguous array of the specified type, such that a float[4] can be cast to a vtkRectf and manipulated. Also a float[12] could be cast and used as a vtkRectf[3]. Provided Types: vtkRect[float64] => vtkRect vtkRect[float32] => vtkRect vtkRect[int32] => vtkRect vtkCommonDataModelPython.vtkRectvtkRect- templated base type for storage of 2D rectangles. Superclass: vtkVector[float64,4] This class is a templated data type for storing and manipulating rectangles. The memory layout is a contiguous array of the specified type, such that a float[4] can be cast to a vtkRectf and manipulated. Also a float[12] could be cast and used as a vtkRectf[3]. vtkRect() vtkRect(const double &x, const double &y, const double &width, const double &height) explicit vtkRect(const double *init) vtkRect(const &vtkRect) vtkRect- templated base type for storage of 2D rectangles. Superclass: vtkVector[float32,4] This class is a templated data type for storing and manipulating rectangles. The memory layout is a contiguous array of the specified type, such that a float[4] can be cast to a vtkRectf and manipulated. Also a float[12] could be cast and used as a vtkRectf[3]. vtkRect() vtkRect(const float &x, const float &y, const float &width, const float &height) explicit vtkRect(const float *init) vtkRect(const &vtkRect) vtkRect- templated base type for storage of 2D rectangles. Superclass: vtkVector[int32,4] This class is a templated data type for storing and manipulating rectangles. The memory layout is a contiguous array of the specified type, such that a float[4] can be cast to a vtkRectf and manipulated. Also a float[12] could be cast and used as a vtkRectf[3]. vtkRect() vtkRect(const int &x, const int &y, const int &width, const int &height) explicit vtkRect(const int *init) vtkRect(const &vtkRect) vtkRecti - no description provided. Superclass: vtkRect[int32] vtkRecti() vtkRecti(int x, int y, int width, int height) explicit vtkRecti(const int *init) vtkRecti(const &vtkRecti) vtkRectf - no description provided. Superclass: vtkRect[float32] vtkRectf() vtkRectf(float x, float y, float width, float height) explicit vtkRectf(const float *init) vtkRectf(const &vtkRectf) vtkRectd - no description provided. Superclass: vtkRect[float64] vtkRectd() vtkRectd(double x, double y, double width, double height) explicit vtkRectd(const double *init) vtkRectd(const &vtkRectd) vtkCommonDataModelPython.vtkRectdvtkCommonDataModelPython.vtkRectfvtkCommonDataModelPython.vtkRectivtkCommonDataModelPython.vtkRect_IiEV.Set(int, int, int, int) C++: void Set(const int &x, const int &y, const int &width, const int &height) Set the x, y components of the rectangle, and the width/height. V.SetX(int) C++: void SetX(const int &x) Set the x component of the rectangle bottom corner, i.e. element 0. V.GetX() -> int C++: const int &GetX() Get the x component of the rectangle bottom corner, i.e. element 0. V.SetY(int) C++: void SetY(const int &y) Set the y component of the rectangle bottom corner, i.e. element 1. V.GetY() -> int C++: const int &GetY() Get the y component of the rectangle bottom corner, i.e. element 1. V.SetWidth(int) C++: void SetWidth(const int &width) Set the width of the rectanle, i.e. element 2. V.GetWidth() -> int C++: const int &GetWidth() Get the width of the rectangle, i.e. element 2. V.SetHeight(int) C++: void SetHeight(const int &height) Set the height of the rectangle, i.e. element 3. V.GetHeight() -> int C++: const int &GetHeight() Get the height of the rectangle, i.e. element 3. V.GetLeft() -> int C++: const int &GetLeft() Get the left boundary of the rectangle along the X direction. V.GetRight() -> int C++: int GetRight() Get the right boundary of the rectangle along the X direction. V.GetTop() -> int C++: int GetTop() Get the top boundary of the rectangle along the Y direction. V.GetBottom() -> int C++: const int &GetBottom() Get the bottom boundary of the rectangle along the Y direction. V.GetBottomLeft() -> vtkVector2_IiE C++: vtkVector2 GetBottomLeft() Get the bottom left corner of the rect as a vtkVector. V.GetTopLeft() -> vtkVector_IiLi2EE C++: vtkVector GetTopLeft() Get the top left corner of the rect as a vtkVector. V.GetBottomRight() -> vtkVector_IiLi2EE C++: vtkVector GetBottomRight() Get the bottom right corner of the rect as a vtkVector. V.GetTopRight() -> vtkVector_IiLi2EE C++: vtkVector GetTopRight() Get the bottom left corner of the rect as a vtkVector. V.AddPoint((int, int)) C++: void AddPoint(const int point[2]) V.AddPoint(int, int) C++: void AddPoint(int x, int y) Expand this rect to contain the point passed in. V.AddRect(vtkRect_IiE) C++: void AddRect(const vtkRect &rect) Expand this rect to contain the rect passed in. V.IntersectsWith(vtkRect_IiE) -> bool C++: bool IntersectsWith(const vtkRect &rect) Returns true if the rect argument overlaps this rect. If the upper bound of one rect is equal to the lower bound of the other rect, then this will return false (in that case, the rects would be considered to be adjacent but not overlapping). vtkCommonDataModelPython.vtkRect_IfEV.Set(float, float, float, float) C++: void Set(const float &x, const float &y, const float &width, const float &height) Set the x, y components of the rectangle, and the width/height. V.SetX(float) C++: void SetX(const float &x) Set the x component of the rectangle bottom corner, i.e. element 0. V.GetX() -> float C++: const float &GetX() Get the x component of the rectangle bottom corner, i.e. element 0. V.SetY(float) C++: void SetY(const float &y) Set the y component of the rectangle bottom corner, i.e. element 1. V.GetY() -> float C++: const float &GetY() Get the y component of the rectangle bottom corner, i.e. element 1. V.SetWidth(float) C++: void SetWidth(const float &width) Set the width of the rectanle, i.e. element 2. V.GetWidth() -> float C++: const float &GetWidth() Get the width of the rectangle, i.e. element 2. V.SetHeight(float) C++: void SetHeight(const float &height) Set the height of the rectangle, i.e. element 3. V.GetHeight() -> float C++: const float &GetHeight() Get the height of the rectangle, i.e. element 3. V.GetLeft() -> float C++: const float &GetLeft() Get the left boundary of the rectangle along the X direction. V.GetRight() -> float C++: float GetRight() Get the right boundary of the rectangle along the X direction. V.GetTop() -> float C++: float GetTop() Get the top boundary of the rectangle along the Y direction. V.GetBottom() -> float C++: const float &GetBottom() Get the bottom boundary of the rectangle along the Y direction. V.GetBottomLeft() -> vtkVector2_IfE C++: vtkVector2 GetBottomLeft() Get the bottom left corner of the rect as a vtkVector. V.GetTopLeft() -> vtkVector_IfLi2EE C++: vtkVector GetTopLeft() Get the top left corner of the rect as a vtkVector. V.GetBottomRight() -> vtkVector_IfLi2EE C++: vtkVector GetBottomRight() Get the bottom right corner of the rect as a vtkVector. V.GetTopRight() -> vtkVector_IfLi2EE C++: vtkVector GetTopRight() Get the bottom left corner of the rect as a vtkVector. V.AddPoint((float, float)) C++: void AddPoint(const float point[2]) V.AddPoint(float, float) C++: void AddPoint(float x, float y) Expand this rect to contain the point passed in. V.AddRect(vtkRect_IfE) C++: void AddRect(const vtkRect &rect) Expand this rect to contain the rect passed in. V.IntersectsWith(vtkRect_IfE) -> bool C++: bool IntersectsWith(const vtkRect &rect) Returns true if the rect argument overlaps this rect. If the upper bound of one rect is equal to the lower bound of the other rect, then this will return false (in that case, the rects would be considered to be adjacent but not overlapping). vtkCommonDataModelPython.vtkRect_IdEV.Set(float, float, float, float) C++: void Set(const double &x, const double &y, const double &width, const double &height) Set the x, y components of the rectangle, and the width/height. V.SetX(float) C++: void SetX(const double &x) Set the x component of the rectangle bottom corner, i.e. element 0. V.GetX() -> float C++: const double &GetX() Get the x component of the rectangle bottom corner, i.e. element 0. V.SetY(float) C++: void SetY(const double &y) Set the y component of the rectangle bottom corner, i.e. element 1. V.GetY() -> float C++: const double &GetY() Get the y component of the rectangle bottom corner, i.e. element 1. V.SetWidth(float) C++: void SetWidth(const double &width) Set the width of the rectanle, i.e. element 2. V.GetWidth() -> float C++: const double &GetWidth() Get the width of the rectangle, i.e. element 2. V.SetHeight(float) C++: void SetHeight(const double &height) Set the height of the rectangle, i.e. element 3. V.GetHeight() -> float C++: const double &GetHeight() Get the height of the rectangle, i.e. element 3. V.GetLeft() -> float C++: const double &GetLeft() Get the left boundary of the rectangle along the X direction. V.GetRight() -> float C++: double GetRight() Get the right boundary of the rectangle along the X direction. V.GetTop() -> float C++: double GetTop() Get the top boundary of the rectangle along the Y direction. V.GetBottom() -> float C++: const double &GetBottom() Get the bottom boundary of the rectangle along the Y direction. V.GetBottomLeft() -> vtkVector2_IdE C++: vtkVector2 GetBottomLeft() Get the bottom left corner of the rect as a vtkVector. V.GetTopLeft() -> vtkVector_IdLi2EE C++: vtkVector GetTopLeft() Get the top left corner of the rect as a vtkVector. V.GetBottomRight() -> vtkVector_IdLi2EE C++: vtkVector GetBottomRight() Get the bottom right corner of the rect as a vtkVector. V.GetTopRight() -> vtkVector_IdLi2EE C++: vtkVector GetTopRight() Get the bottom left corner of the rect as a vtkVector. V.AddPoint((float, float)) C++: void AddPoint(const double point[2]) V.AddPoint(float, float) C++: void AddPoint(double x, double y) Expand this rect to contain the point passed in. V.AddRect(vtkRect_IdE) C++: void AddRect(const vtkRect &rect) Expand this rect to contain the rect passed in. V.IntersectsWith(vtkRect_IdE) -> bool C++: bool IntersectsWith(const vtkRect &rect) Returns true if the rect argument overlaps this rect. If the upper bound of one rect is equal to the lower bound of the other rect, then this will return false (in that case, the rects would be considered to be adjacent but not overlapping). UH-HH=HHH]HHHHHHHHHHH((((((GCC: (Ubuntu 11.4.0-1ubuntu1~22.04) 11.4.0GNUzRx 3J^H8#JUAT#JUAp#JUA#JUA3J^H(FAD`{ DBD (FAD`{ DBD (FAD`{ DBD (HFAK`t DBD (tFAK`t DBD (FAK`t DBD H`^ J EK`W AH  EU(EUDEU`EU|EUEU HP^ J EKPW AH HP^ J $EKPW AH @HFDDpe ABJ p HBF  MBM      4FGPe BD l IK  NN 4(FGPe BD l IK  NF @`FDD`e ABJ l HBJ  MBM @FDD`e ABJ l HBJ  MBM 4FG`e BD p IO  NN ED@ AG DED@ AG hED@ AG ED@ AG ED@ AG ED@ AG ED@ AG ED@ AG @ED@ AG dED@ AG ED@ AG ED@ AG ED@ AG ED@ AG ED@ AG <ED@ AG `ED@ AG ED@ AG (EADP AAE (EADP AAE HP F HP F 8HP F THP F pH@ I HP I H@ I H@ I H@ I H@ I  H@ I 4 HP I P HP I l HP I  H@ I EDP AK EDP AK EDP AK  EDP AK 4 EDP AK X H@ I t EDP AK EDP AK EDP AK EDP AK  EDP AK ( EDP AK L EDP AK (p @EAD` AAE ( =EAD` AAE ( ,EADp AAE ( EADp AAD ( vEADp AAD (L EADp AAD x ED` AF ED` AF ED` AF ( EADpH AAD ( }EAD`H AAD (< EAD`H AAD h MFF MFF MFF( FOD g DBJ  MFFMFF MFF`<FBB B(A0D8D@+ 8A0A(B BBBF d8D0A(B BBBEm3@#9p#U#n#3@@0 Fnp .Qq 0 @  $ NP v  `   % C a  ` ` 7 ``X ` `` Gp` 4`X `  !!A"i`# $$% &, `'R @(z  ) * * +' p,Q P- 0. / / 0/ 1Z 2 p3 `4 P5 @6 07G  8r 9 9 : ; <3 =W >{ ?@ @= B, @CDv@pFn HIKM P}3S[ s      @ @ ! 6 N c {`   ,5>GLU_gqv %+17=CI&O0U5[:a>gMmUs0y^8HPP  /@`gu#aw ,<WfvUM0VMVM.VI[qWMWM@XMX ":GT`x_ZL19PyvtkRect_IdE_CCopyPKv_ZL19PyvtkRect_IfE_CCopyPKv_ZL19PyvtkRect_IiE_CCopyPKv_ZL16PyvtkRecti_CCopyPKv_ZL16PyvtkRectf_CCopyPKv_ZL16PyvtkRectd_CCopyPKv_ZL24PyvtkRect_IdE_vtkRect_s4P7_objectS0__ZL24PyvtkRect_IfE_vtkRect_s4P7_objectS0__ZL24PyvtkRect_IiE_vtkRect_s4P7_objectS0__ZL22PyvtkRecti_vtkRecti_s4P7_objectS0__ZL22PyvtkRectf_vtkRectf_s4P7_objectS0__ZL22PyvtkRectd_vtkRectd_s4P7_objectS0__ZL24PyvtkRect_IdE_vtkRect_s3P7_objectS0__ZL22PyvtkRectd_vtkRectd_s3P7_objectS0__ZL20PyvtkRect_IdE_DeleteP7_object_ZL20PyvtkRect_IfE_DeleteP7_object_ZL20PyvtkRect_IiE_DeleteP7_object_ZL17PyvtkRecti_DeleteP7_object_ZL17PyvtkRectf_DeleteP7_object_ZL17PyvtkRectd_DeleteP7_object_ZL18PyvtkRect_IdE_HashP7_object_ZL24PyvtkRect_IfE_vtkRect_s3P7_objectS0__ZL22PyvtkRectf_vtkRectf_s3P7_objectS0__ZL24PyvtkRect_IiE_vtkRect_s3P7_objectS0__ZL22PyvtkRecti_vtkRecti_s3P7_objectS0__ZL14PyvtkRectd_NewP11_typeobjectP7_objectS2__ZL27PyvtkRectd_vtkRectd_Methods_ZL15PyvtkRectd_HashP7_object_ZL18PyvtkRect_IfE_HashP7_object_ZL18PyvtkRect_IiE_HashP7_object_ZL15PyvtkRecti_HashP7_object_ZL15PyvtkRectf_HashP7_object_ZL17PyvtkRect_IiE_NewP11_typeobjectP7_objectS2__ZL29PyvtkRect_IiE_vtkRect_Methods_ZL17PyvtkRect_IfE_NewP11_typeobjectP7_objectS2__ZL29PyvtkRect_IfE_vtkRect_Methods_ZL14PyvtkRectf_NewP11_typeobjectP7_objectS2__ZL27PyvtkRectf_vtkRectf_Methods_ZL14PyvtkRecti_NewP11_typeobjectP7_objectS2__ZL27PyvtkRecti_vtkRecti_Methods_ZL17PyvtkRect_IdE_NewP11_typeobjectP7_objectS2__ZL29PyvtkRect_IdE_vtkRect_Methods_ZL18PyvtkRect_IdE_GetXP7_objectS0__ZL22PyvtkRect_IdE_GetWidthP7_objectS0__ZL23PyvtkRect_IdE_GetHeightP7_objectS0__ZL21PyvtkRect_IdE_GetLeftP7_objectS0__ZL23PyvtkRect_IdE_GetBottomP7_objectS0__ZL21PyvtkRect_IiE_GetLeftP7_objectS0__ZL23PyvtkRect_IiE_GetBottomP7_objectS0__ZL18PyvtkRect_IfE_GetXP7_objectS0__ZL18PyvtkRect_IfE_GetYP7_objectS0__ZL22PyvtkRect_IfE_GetWidthP7_objectS0__ZL23PyvtkRect_IfE_GetHeightP7_objectS0__ZL21PyvtkRect_IfE_GetLeftP7_objectS0__ZL23PyvtkRect_IfE_GetBottomP7_objectS0__ZL18PyvtkRect_IiE_GetXP7_objectS0__ZL18PyvtkRect_IiE_GetYP7_objectS0__ZL22PyvtkRect_IiE_GetWidthP7_objectS0__ZL23PyvtkRect_IiE_GetHeightP7_objectS0__ZL18PyvtkRect_IdE_GetYP7_objectS0__ZL22PyvtkRect_IiE_GetRightP7_objectS0__ZL20PyvtkRect_IiE_GetTopP7_objectS0__ZL22PyvtkRect_IdE_GetRightP7_objectS0__ZL20PyvtkRect_IdE_GetTopP7_objectS0__ZL22PyvtkRect_IfE_GetRightP7_objectS0__ZL20PyvtkRect_IfE_GetTopP7_objectS0__ZL27PyvtkRect_IfE_GetBottomLeftP7_objectS0__ZL27PyvtkRect_IdE_GetBottomLeftP7_objectS0__ZL27PyvtkRect_IiE_GetBottomLeftP7_objectS0__ZL24PyvtkRect_IfE_GetTopLeftP7_objectS0__ZL28PyvtkRect_IfE_GetBottomRightP7_objectS0__ZL24PyvtkRect_IiE_GetTopLeftP7_objectS0__ZL28PyvtkRect_IiE_GetBottomRightP7_objectS0__ZL24PyvtkRect_IdE_GetTopLeftP7_objectS0__ZL28PyvtkRect_IdE_GetBottomRightP7_objectS0__ZL25PyvtkRect_IdE_GetTopRightP7_objectS0__ZL25PyvtkRect_IfE_GetTopRightP7_objectS0__ZL22PyvtkRect_IiE_SetWidthP7_objectS0__ZL23PyvtkRect_IiE_SetHeightP7_objectS0__ZL18PyvtkRect_IiE_SetXP7_objectS0__ZL18PyvtkRect_IiE_SetYP7_objectS0__ZL23PyvtkRect_IdE_SetHeightP7_objectS0__ZL25PyvtkRect_IiE_GetTopRightP7_objectS0__ZL23PyvtkRect_IfE_SetHeightP7_objectS0__ZL18PyvtkRect_IfE_SetYP7_objectS0__ZL22PyvtkRect_IfE_SetWidthP7_objectS0__ZL18PyvtkRect_IfE_SetXP7_objectS0__ZL22PyvtkRect_IdE_SetWidthP7_objectS0__ZL18PyvtkRect_IdE_SetYP7_objectS0__ZL18PyvtkRect_IdE_SetXP7_objectS0__ZL17PyvtkRect_IiE_SetP7_objectS0__ZL17PyvtkRect_IfE_SetP7_objectS0__ZL17PyvtkRect_IdE_SetP7_objectS0__ZL28PyvtkRect_IfE_IntersectsWithP7_objectS0__ZL28PyvtkRect_IiE_IntersectsWithP7_objectS0__ZL28PyvtkRect_IdE_IntersectsWithP7_objectS0__ZL21PyvtkRect_IiE_AddRectP7_objectS0__ZL21PyvtkRect_IfE_AddRectP7_objectS0__ZL21PyvtkRect_IdE_AddRectP7_objectS0__ZL22PyvtkRect_IdE_AddPointP7_objectS0__ZL22PyvtkRect_IiE_AddPointP7_objectS0__ZL22PyvtkRect_IfE_AddPointP7_objectS0__ZL18PyvtkRect_IdE_Type_ZL21PyvtkRect_IdE_Methods_ZL18PyvtkRect_IfE_Type_ZL21PyvtkRect_IfE_Methods_ZL18PyvtkRect_IiE_Type_ZL21PyvtkRect_IiE_Methods_ZL15PyvtkRecti_Type_ZL18PyvtkRecti_Methods_ZL15PyvtkRectf_Type_ZL18PyvtkRectf_Methods_ZL15PyvtkRectd_Type_ZL18PyvtkRectd_Methods_GLOBAL__sub_I_vtkRectPython.cxx_ZStL8__ioinit.LC0.LC1.LC2.LC3.LC4.LC5.LC6.LC8.LC7.LC9.LC10.LC11.LC12.LC13.LC14.LC15.LC16.LC17.LC18.LC19.LC20.LC21.LC22.LC23.LC24.LC25.LC26.LC27.LC28.LC29.LC30.LC31.LC32.LC33.LC34.LC35.LC36.LC37.LC38.LC39.LC40.LC41.LC42.LC43_Znwm_ZN13vtkPythonArgs13ArgCountErrorEii_Py_Dealloc_ZN13vtkPythonArgs21GetArgAsSpecialObjectEPKcPP7_objectPyVTKSpecialObject_New__stack_chk_fail_ZN13vtkPythonArgs8GetArrayEPdi_ZdlPvPyObject_FreePyObject_HashNotImplemented_ZN13vtkPythonArgs8GetArrayEPfi_ZN13vtkPythonArgs8GetArrayEPiiPyDict_Size_ZN13vtkPythonArgs13ArgCountErrorEiPKc_ZN13vtkPythonArgs8GetValueERd_ZN17vtkPythonOverload10CallMethodEP11PyMethodDefP7_objectS3__GLOBAL_OFFSET_TABLE_PyExc_TypeErrorPyErr_SetString_ZN13vtkPythonArgs8GetValueERi_ZN13vtkPythonArgs8GetValueERf_ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1_PyErr_OccurredPyFloat_FromDoublePyLong_FromLongPyVTKSpecialObject_CopyNew_Py_NoneStructPyBool_FromLongPyvtkRect_IdE_TypeNewPyVTKSpecialType_AddPyvtkVector_IdLi4EE_TypeNewPyType_ReadyPyvtkRect_IfE_TypeNewPyvtkVector_IfLi4EE_TypeNewPyvtkRect_IiE_TypeNewPyvtkVector_IiLi4EE_TypeNew_Z21PyvtkRect_TemplateNewvPyVTKTemplate_NewPyVTKTemplate_AddItemPyvtkRecti_TypeNewPyvtkRectf_TypeNewPyvtkRectd_TypeNewPyVTKAddFile_vtkRectPyObject_CallMethodPyDict_SetItemStringPyCFunction_TypePyType_IsSubtype_ZNSt8ios_base4InitC1Ev_ZNSt8ios_base4InitD1Ev__dso_handle__cxa_atexitPyType_TypePyVTKSpecialObject_ReprPyObject_GenericGetAttrS^}~&3^}(N} *~n ^ }<n|~.<Za " [ }       = n |    }  , 9 D K X      ' P U        0 B _  | *   Fo}t} 3HZl|*&O}T~}(:Ml|* %V@j|\*6_x#J|c*jr~};~S}l~|3*:BNANq1AOVANq1ASZANq 1 A S Z    !!!A!!!!!!"N"q"""""#1#A#O#V####$$$A$$$$$$%O%q%%%%%&A&W&g&n&&&'5'J'Q''''(+(2(`(((())@)))))) *m*******=+a+z+++++ ,1,I,Z,_,f,,,-'-8-=-D-p---...$.P....../0/}//////0]0000000=1a1111112A2c2t2y2222!3B3S3X3_3334+4;4G4*R44455+575*B5q555 66&6*16a6666 77*"7Q77777 8*8@8888888!9z99999*9:j:::::*:;Z;;;;;*;;J<q<<<<*<<:=a={===*==*>Q>k>>>*>>?A?[?n?z?*?? @1@L@]@n@@@@*@@KAqAAAAAAA* B2BBBBBBBC*C*8CbCCCD5D:DDDDEtEEEEE F2FbFFF.GAGeG~jGGGHAHHHHIIaIqI*IISJJJJJ3KCK*KK3LnLLL~LM'M*MMMM;NNNNN* OOOOPnPPPP+QwQQQQ*Q9RtRRRR-S4S[SSST]TmT*TT4UAU|UUU{U|U||V V{VV{ #V9V{|GV|NV||VV\V{$dVnV{|sVV{V|V||VV{VV{VVVVVWW!W*W=WkWWWW{<W|W<WW{WW{<WW{X|\XXX{D$X.X{3XIX{WX|^XfXlX{tX~X{XXXXXY*!YHY}PY]YoYwYYYYYYYYZZ4Z + 5      tgTB#RZ\*!&-5{<C{,JQ{X_{fm{Lt{{x 0 Xx 8 @ 0HX px 8X p   (8 Ppx0 X `  e(8 lh x x P    ( 8 H0X  :?@  0P5  G !`  5@6  q!@  (p38 @ LH"X` &h`4x U`# _ X v$ %8 g  (+8@ H0.X` h/x   8 UP8 M H >DX(@ 8 xH@X  :@ 0; G 59 q`  (:8p@ LH X` &h9xH U _  v@(  ) g` p  (*8@ Hp,Xp` hP-x 2 US MI >@C8(8 eH@X  :B  0>x! G`! 5=h" q $"  (<8X#@ LH X#` &h07x0$ U$ _% v&% `'%  g ` `&  ( *8 &@  H /X `'`  h 0x '   1 x(  U M )  M K )  > pF 0* <@Xpt@@ 0L xp,Hd 0 @   (P L     ,d$`H l`  D`h `  !!@"d`# $$%& `'<@(X )t**+p,P- 0. /8 /T 0p 1 2 p3 `4 P5 @68 07\  8x 9 9 : ; <, =P >t ? @ B @C$ DP pF|  H I K M P@ Sl U 0V V V WW$@X@Xx.symtab.strtab.shstrtab.rela.text.data.bss.rodata.str1.1.rodata.str1.8.rela.text.startup.rela.init_array.rela.data.rel.rela.data.rel.local.rodata.cst8.comment.note.GNU-stack.note.gnu.property.rela.eh_frame @VZ@hF&Z,Za 12Z@2p\+TO@Pgpb@ x s@ @ @#  `0h, @6 p Xx@