"(__TEXT@@__text__TEXTL__stubs__TEXTnn__stub_helper__TEXTPP__gcc_except_tab__TEXT<p<__cstring__TEXT,H__unwind_info__TEXT>$>__DATA_CONST@@@@__got__DATA_CONST@@P__mod_init_func__DATA_CONST@@ 8__DATA@@__la_symbol_ptr__DATAa__data__DATA __bss__DATAH__LINKEDIT@89 x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkIOPLYPython310D-8.1.1.dylib"0 `P PUU\bu4]ekV$j2   a* /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkIOCorePython310D-8.1.1.dylib p/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkIOPLY-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonExecutionModelPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonDataModelPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonTransformsPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonMiscPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonMathPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonSystemPython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonCorePython310D-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkWrappingPython310Core-8.1.1.dylib p/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkIOCore-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonExecutionModel-8.1.1.dylib x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonDataModel-8.1.1.dylib /Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonTransforms-8.1.1.dylib x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonSystem-8.1.1.dylib x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonMisc-8.1.1.dylib x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonMath-8.1.1.dylib x/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtkCommonCore-8.1.1.dylib p/Volumes/Data/workspace/med-macos-free/build/ExtProjs/VTK/lib/libvtksys-8.1.1.dylib 0/usr/lib/libc++.1.dylib 8< /usr/lib/libSystem.B.dylib&)UHH=H5~HwH 0-Mmu H=LH]f.UHHt ]2N1]UHSPHH=pH5 HH Lu H=FsLH5VQH3HLt H tH[]H=H[]yLDUHSPHHHtMHH[]Lf.UH]KfDUHSPHHt%HKHtHH8H5RKG{t#u/MH=PHH[]K1HH[]"H5gPL1H[]f.UHSH(HuH8PHE؋FEHEHEu@H5PH}HUKHt:LH=OH'KHH}Hu (H}оrK1H}Ht Hu KHH([]f.UHSH8HuHQHEЋFEHEHEHEH}ȃuFHuHKtHH}Hu7Kt7H}HuKJHuIH8[]þJ1H8[]UHH@HuHQHEЋFEHEHEH}ȃHuJH}HuJtsH}HuJtbH}HuJtQH}HuqJt@H}uUMEJ7IHuHHH@]þI1H@]fUHAWAVAUATSH8HuHJQHEFEHEHDžxfWf)f)f)f)f)H]H߾CIAC$HcH0WIL0E1EIcILEH߾IÍHcHP$IL}HPE1HcHMHLEH}HAH]CD-HcHHH1ELmIcHHE؋E+EIH}HxHHH}HuHH}HuD}HH}HuHUjHH}LHU@HtsEEArHMJI9KH91HHLLHH}ȋ4A4HHuH}G1Ht HFHHH9t Ht6HHPHXH9t HtHH0H8H9t HtGHH8[A\A]A^A_]H}H A LALLALL AL HI9uDHpHHH‰уHs1H}nHH)1H}LAALD L0AD AL0D@LPAD@ALPfD`LpfAD`ALpH HuHt*HHfD fADA H HuL90HEHM[}s 1HUHMHUHI9sIH9s1ЃHpHHH‰уHs1H}nHH)1H}LAALD L0AD AL0D@LPAD@ALPfD`LpfAD`ALpH HuHt*HHfD fADA H HuHUH9t]HHHHtH}Ћ4A4HHuH}HHUr+ A LALLALL AL HH9uLpHEHM}s 1HuHuIDH9sHI9s1HpHHH‰уH s1kHH)1ADALLAD AL0D L0AD@ALPD@LPfAD`ALpfD`LpHHuHt+HHfADALfD H HuHuH9)HHHHtItH4HHuHHUrXILH ILHLILHLILHLIL HL IL(HL(IL0HL0IL8HL8HH9uHxuHUHMMCHpE~81HMȋ A; u HH9uBHuH}HUD%C}~:1HMЋ A; u HH9Eu AHuH}HUHMB}~<1ADf.u z HH9EuAHuH}LHMB`AH~HHHryH*HBH=HHHH9t HtBHPHXH9t Ht~BH0H8H9t HtaBHEA UHH@HuHIHEЋFEHEHEH}ȃuAHuAt,H}HuAtH}uAEX@Ht1H@]þA1H@]E6@H@]fUHAWAVAUATSHHuHIHEFEHEHDžxH]H߾@AC$HcH0@L0E1EIcILEH߾T@ÍHcHPp@L}HPE1HcHMHLEH}@AH]CD-HcH@H1ELmIcHHE؋E+EIH}Hx@H}Hu@H}HuD?H}HuHU?H}LHU?tsEEArHMJI9KH91HHLLHH}ȋ4A4HHuH}>1HHH9t Ht?HPHXH9t Ht?H0H8H9t Hte?HH[A\A]A^A_]H}H A LALLALL AL HI9uDHpHHH‰уHs1H}nHH)1H}LAALD L0AD AL0D@LPAD@ALPfD`LpfAD`ALpH HuHt*HHfD fADA H HuL9FHEHM[}s 1HUHMHUHI9sIH9s1ЃHpHHH‰уHs1H}nHH)1H}LAALD L0AD AL0D@LPAD@ALPfD`LpfAD`ALpH HuHt*HHfD fADA H HuHUH9t]HHHHtH}Ћ4A4HHuH}HHUr+ A LALLALL AL HH9uLpHEHM}s 1HuHuIDH9sHI9s1HpHHH‰уH s1kHH)1ADALLAD AL0D L0AD@ALPD@LPfAD`ALpfD`LpHHuHt+HHfADALfD H HuHuH9)HHHHtItH4HHuHHUrXILH ILHLILHLILHLIL HL IL(HL(IL0HL0IL8HL8HH9uHxuHUHMM;HpE~81HMȋ A; u HH9uj9HuH}HUD:}~:1HMЋ A; u HH9Eu +9HuH}HUHMT:}~<1ADf.u z HH9Eu8HuH}LHM:8HHHHHH9H*HBH=HHHH9t Ht9HPHXH9t Ht9H0H8H9t Ht9H8 UHSH8HuHABHEȋFEHEHEH}uoHu9tqH}Hu8t`H}Hu8tOH}uHU89H7Hu2Ht6H5BH8H7H8[]þ381H8[]H+HH8[]ÐUHSH(HuHAHE؋FEHEHEH}Ѓu1Hu 8t3H}y86HuHc7H([]þ71H([]UHH=H5HAH 06Eu7HH=6H{]ÐUH]7fDUHSPHH=XH59HYAH 6u6H)H="W6H5%AHH5t H tH[]H=H[]]6fUHSH(HuHCHE؋FEHEHEH}Ѓu1Hu6t3H}S5HuHc5H([]þ161H([]UHAWAVSH(HuHDHED~D}HG]ԉ]؅y 5HHtdLw(HEMt8A)Au3HuH}5t}Hut;H4Ht<1@H}~51)HE1ILP4HuHc4H([A^A_]f.@UHAVSH0HuHDHEЋFEHEuGH5EH}HU4}t@HHtCHH5?HPE1LE4Hu+H}Ⱦ41H0[A^]E13HuL!5UHAVSH HuHCHEDvDuHG]]yT4HHH(HD9u3HPxHt9HHH5Q>HPE1LE83HucH}1113RE13HuCLa4Ht6HHC3t)H=3HH1Q@H߾&31HH [A^]UHSH(HuH6CHE؋FEHEHEH}Ѓu1Hu3t3H}2n2HuHcs2H([]þ31H([]UHSPHH=7=H3tZH=ICH3tGH=PCH3t4H=RCH3t!H=LCH3tHH[]z2H[]ÐUHAVSHH2H=kL5?HL-3HkH2H=KHL 3HMHHGHDHI<H>HfHn4HH6H3H0H-H*HH$H!HHHHHVHHH HHHHHDH;HH HHHHHHHHH~HHHHHHHHH?~HH}HHHHHHHHHH[A^]ÐUHH=H5.Hg@H 0/u;/HfH=_.HS]ÐUH]D/fDUHAVSIH=/H5H@H .u.HH=.H5?HL..t H t01>.HtLH,H t3,Ht;HH5>LH,H u!H#-H-,Hu1,HtHH5>LHe,H t5z,Ht=HH5>LH<,H u#H[A^],H,=,Hu[A^]f.DUHAVSH0HuH9HEЋFEHEHEH}ȃHu,H]H=7=Ha-AtDH=sxHH-t1H=<H5-tH=<H"-t H,Lc^+HuLc+,1H0[A^]UHAWAVSH(HuH9HED~D}HG]ԉ]؅y+HHLw(HEMA)Au{HuH}+}L}tH=<LH,AtuH=ZwL/,tbH=;L,tOH=;L ,tHED~D}HG]ԉ]؅y (HHtyLw(MtpA)AuTHuH}(tV}utZL1IA9tAIL'Hu6H}E(1H([A^A_]IL`a'HuH#vHf.@UHAVSH HuHb>HEDvDuHG]]y 'HHtH(HtD9uEt!1&Ht+12H}111'!HhHc&HuH&HHH [A^]UHAWAVSH(HuH>HED~D}HG]܉]y "'HHt#H(HtD9uAEt*&Ht+12H}111&!HpLc%HuL&HHH([A^A_]f.DUHAVSH HuH>HEDvDuHG]]y d&HHt#H(HtD9uEt%l%Ht*11H}111& HxB%HuHcG%HHH [A^]@UHAVSH HuH>HEDvDuHG]]y %HHt&H(HtD9uH`$Ht1H}111g% HfsHHH [A^]UHAVSH HuH>HEDvDuHG]]y %HHt1H(Ht(D9u'H11`$HuHrH1H}111$HH [A^]UHAWAVSH(HuH?HED~D}HG]ԉ]؅y r$HHtgLw(Mt^A)AuBHuH}$tD}utHA9tAILK#Hu6H}#1H([A^A_]IL#HuHqHUHAVSH HuHhBHEDvDuHG]]y #HHt#H(HtD9uEt%"Ht*11H}111J# Hr"HuHcw"HHH [A^]@UHAVSH HuHEHEDvDuHG]]y "HHt1H(Ht(D9u'H11!HuHpH1H}111"HH [A^]UHAVSH HuHIHEDvDuHG]]y D"HHt&H(HtD9uHI!Ht1H}111! HoHHH [A^]UHAVSH HuH@MHEDvDuHG]]y !HHt&H(HtD9uH Ht1H}111W! HVoHHH [A^]UHAVSH HuHPHEDvDuHG]]y !HHt&H(HtD9uH Ht1H}111 HnHHH [A^]UHAVSH HuHTHEDvDuHG]]y d HHt&H(HtD9uHiHt1H}111 HnHHH [A^]UHAWAVSH(HuH9XHED~D}HG]ԉ]؅y HHtmLw(EMtIA)H}Au@Hut/}EtEA8tAILHt81>E1+E1#IL_HuH!mHH([A^A_]UHAVSH HuHWHEDvDuHG]]y HHt'H(HtD9uEt)Ht*11H}111 HHu}HHH [A^]UHAVSH HuHWHEDvDuHG]]y $HHt+H(Ht"D9u!Et-H$Ht(1.H}111HHuHkHHH [A^]f.DUHAVSH HuHWHEDvDuHG]]y dHHt(H(HtD9uEt*H1gHt(1.H}111H?HuHkHHH [A^]fUHAWAVSH(HuHWHED~D}HG]ԉ]؅yHHLw(HEMA)AHuH}}H]MHL HtMtLHMtLHHIILII 4J ;H9s J 8H9LHHyHHHƉH`sd1H}1+HE1ILHH\1H([A^A_]Idž%HH)13L30L0D3 L30D0 L00D3@L3PD0@L0PD3`L3pD0`L0pHHuHt"HHD3 3D0 0H HuI9AHHILHt'1f.  HH9uI)HHHrQ1 T TT TT TT TT TT TT THI9uILRHHhHUHAWAVSH(HuHgUHEDvDuHG]܉]y HHt$H(HtD9uEt2LHt71H}111wHH([A^A_]HIHuMt3L6ILHHHu_LLBHHgHUHAWAVSH(HuHTHED~D}HG]ԉ]؅y HHtnLw(MteA)AuIHuH}tK}utO1IA9tAILHu6H}P1H([A^A_]ILlHuH.fHfUHAVSH HuHTHEDvDuHG]]y HHtH(HtD9uEt!1Ht+12H}111!HHcHuHHHH [A^]UHAWAVSH(HuHkTHED~D}HG]܉]y 2HHt#H(HtD9uAEt:Ht+12H}111!HLcHuLHHH([A^A_]f.DUHAVSH HuHBTHEDvDuHG]]y tHHt#H(HtD9uEt%|Ht*11H}111* HRHuHcWHHH [A^]@UHAWAVSH(HuH THED~D}HG]ԉ]؅y HHt\Lw(MtSA)Au7H5aH}HU}t0}t7LHAHu9H}R1H([A^A_]ILHkHuH-cHUHAVSH HuHSHEDvDuHG]]y HHt$H(HtD9uEt&HHt+12H}111!HHHuH HHH [A^]fUHSH(^HG)ЃKHuHSHE؉]UUy"HH5H_(HH}HuJ H}Hu5H}Hu }UME8u8u 8HHHHuHRHE؉]UUy IHHtWH_(HtNHuH}кJt8}tHuUMHH-Hu>H5R1H([]1HHHuHHuH`HH([]LHAHuUHAWAVSH(HuHRHED~D}HG]܉]y BHHt$Lw(MtD9uEt&IƨIHt.1:H}111)ILIHuLHHH([A^A_]fDUHAWAVSH(HuH8RHED~D}HG]ԉ]؅y HHtcLw(MtZA)H}Au>Hut@}EtDA8tAIL[Hu5 1H([A^A_]IL$HuH^HАUHAVSH HuH RHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111Z H HuHHH [A^]@UHAVSH0DvHGD)؃t`HuHQHEDu؉]܉]yHHH(HD9HHuy\HuHQHEDu؉]܉]y HHtMH_(HtDHuH}t3uH-HHuHHH5'Q#1HH0[A^]H}111 fUHAWAVSH(HuHQHED~D}HG]ԉ]؅yHHLw(HEMA)AHuH}}H]MHL HtMtLH7MtLHHIILII 4J ;H9s J 8H9LHHyHHHƉH`sd1H} 1+HE1ILH( H\1H([A^A_]Idž%HH)13L30L0D3 L30D0 L00D3@L3PD0@L0PD3`L3pD0`L0pHHuHt"HHD3 3D0 0H HuI9AHHILHt'1f.  HH9uI)HHHrQ1 T TT TT TT TT TT TT THI9uILr HH0ZHUHAWAVSH(HuH&OHEDvDuHG]܉]y HHt$H(HtD9uEt2L Ht71H}111 HH([A^A_]H0I HuMt3LV ILH HHu LLb HH!H`HceHuHjHHH [A^]UHAWAVSH(HuH[MHED~D}HG]܉]y HHt#H(HtD9uAEtHt+12H}111!HhLcHuLHHH([A^A_]f.DUHAVSH HuHvMHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HpHuHcHHH [A^]@UHAVSH HuHMHEDvDuHG]]y dHHt1H(Ht(D9u'H11XjHuH,QH1H}111 HH [A^]UHAVSH HuHMHEDvDuHG]]y HHt&H(HtD9uHXHt1H}111w HvPHHH [A^]UHAWAVSH8HuHMHED~D}HG]ĉ]ȅy"HHLw(W)EHEMtUA)Au9H}Hut;HuLHu%HOHEu$H}1Et H}^HH8[A^A_]W)EHE1EtHEt H}%H UHAVSH=IH}Ht#HHͳHHL[A^]H= MH51M%%%%%%%%%%%%%%%%%%%%%%%%%%%%Ž%Ď%Ǝ%Ȏ%ʎ%̎%Ύ%Ў%Ҏ%Ԏ%֎%؎%ڎ%܎%ގ%%%%%%%%%%%%%%%%%%%%%% % %%%%%%%%%% %"%$%&%(%*hhh/hPhlhhzhphfh\hRhHh >h54hX*hl hh hLiAS%aLhShhhh/hhhhhe h h xh nh dh0 Zh_ PhFh bool C++: static bool equal_strings(const char *, const char *) store_itemV.store_item(string, int, int, int, float) C++: static void store_item(char *, int, int, unsigned int, double) get_stored_itemV.get_stored_item(void, int, [int, ...], [int, ...], [float, ...]) C++: static void get_stored_item(const void *, int, int *, unsigned int *, double *) get_item_valueV.get_item_value(string, int) -> float C++: static double get_item_value(const char *, int) get_ascii_itemV.get_ascii_item(string, int, [int, ...], [int, ...], [float, ...]) C++: static void get_ascii_item(const char *, int, int *, unsigned int *, double *) my_allocV.my_alloc(int, int, string) -> void C++: static void *my_alloc(size_t, int, const char *) get_prop_typeV.get_prop_type(string) -> int C++: static int get_prop_type(const char *) p_void@W vtkPLYvtkPLYReadervtkIOPLYPython.vtkPLYReadervtkPLYReader - read Stanford University PLY polygonal file format Superclass: vtkAbstractPolyDataReader vtkPLYReader is a source object that reads polygonal data in Stanford University PLY file format (see http://graphics.stanford.edu/data/3Dscanrep). It requires that the elements "vertex" and "face" are defined. The "vertex" element must have the properties "x", "y", and "z". The "face" element must have the property "vertex_indices" defined. Optionally, if the "face" element has the properties "intensity" and/or the triplet "red", "green", "blue", and optionally "alpha"; these are read and added as scalars to the output data. @sa vtkPLYWriter IsTypeOfV.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. IsAV.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. SafeDownCastV.SafeDownCast(vtkObjectBase) -> vtkPLYReader C++: static vtkPLYReader *SafeDownCast(vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkPLYReader C++: vtkPLYReader *NewInstance() CanReadFileV.CanReadFile(string) -> int C++: static int CanReadFile(const char *filename) A simple, non-exhaustive check to see if a file is a valid ply file. vtkAbstractPolyDataReadervtkPolyDataAlgorithmvtkAlgorithmvtkObjectvtkObjectBasevtkPLYWriterVTK_LITTLE_ENDIANVTK_BIG_ENDIANVTK_COLOR_MODE_DEFAULTVTK_COLOR_MODE_UNIFORM_CELL_COLORVTK_COLOR_MODE_UNIFORM_POINT_COLORVTK_COLOR_MODE_UNIFORM_COLORVTK_COLOR_MODE_OFFVTK_TEXTURECOORDS_UVVTK_TEXTURECOORDS_TEXTUREUVvtkIOPLYPython.vtkPLYWritervtkPLYWriter - write Stanford PLY file format Superclass: vtkWriter vtkPLYWriter writes polygonal data in Stanford University PLY format (see http://graphics.stanford.edu/data/3Dscanrep/). The data can be written in either binary (little or big endian) or ASCII representation. As for PointData and CellData, vtkPLYWriter cannot handle normals or vectors. It only handles RGB PointData and CellData. You need to set the name of the array (using SetName for the array and SetArrayName for the writer). If the array is not a vtkUnsignedCharArray with 3 or 4 components, you need to specify a vtkLookupTable to map the scalars to RGB. To enable saving out alpha (opacity) values, you must enable alpha using `vtkPLYWriter::SetEnableAlpha()`. @warning PLY does not handle big endian versus little endian correctly. @sa vtkPLYReader V.SafeDownCast(vtkObjectBase) -> vtkPLYWriter C++: static vtkPLYWriter *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkPLYWriter C++: vtkPLYWriter *NewInstance() SetDataByteOrderV.SetDataByteOrder(int) C++: virtual void SetDataByteOrder(int _arg) If the file type is binary, then the user can specify which byte order to use (little versus big endian). GetDataByteOrderMinValueV.GetDataByteOrderMinValue() -> int C++: virtual int GetDataByteOrderMinValue() If the file type is binary, then the user can specify which byte order to use (little versus big endian). GetDataByteOrderMaxValueV.GetDataByteOrderMaxValue() -> int C++: virtual int GetDataByteOrderMaxValue() If the file type is binary, then the user can specify which byte order to use (little versus big endian). GetDataByteOrderV.GetDataByteOrder() -> int C++: virtual int GetDataByteOrder() If the file type is binary, then the user can specify which byte order to use (little versus big endian). SetDataByteOrderToBigEndianV.SetDataByteOrderToBigEndian() C++: void SetDataByteOrderToBigEndian() If the file type is binary, then the user can specify which byte order to use (little versus big endian). SetDataByteOrderToLittleEndianV.SetDataByteOrderToLittleEndian() C++: void SetDataByteOrderToLittleEndian() If the file type is binary, then the user can specify which byte order to use (little versus big endian). SetColorModeV.SetColorMode(int) C++: virtual void SetColorMode(int _arg) These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) GetColorModeV.GetColorMode() -> int C++: virtual int GetColorMode() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetColorModeToDefaultV.SetColorModeToDefault() C++: void SetColorModeToDefault() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetColorModeToUniformCellColorV.SetColorModeToUniformCellColor() C++: void SetColorModeToUniformCellColor() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetColorModeToUniformPointColorV.SetColorModeToUniformPointColor() C++: void SetColorModeToUniformPointColor() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetColorModeToUniformColorV.SetColorModeToUniformColor() C++: void SetColorModeToUniformColor() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetColorModeToOffV.SetColorModeToOff() C++: void SetColorModeToOff() These methods enable the user to control how to add color into the PLY output file. The default behavior is as follows. The user provides the name of an array and a component number. If the type of the array is three components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties. If the type of the array is four components, unsigned char, then the data is written as three separate "red", "green" and "blue" properties, dropping the "alpha". If the type is not unsigned char, and a lookup table is provided, then the array/component are mapped through the table to generate three separate "red", "green" and "blue" properties in the PLY file. The user can also set the ColorMode to specify a uniform color for the whole part (on a vertex colors, face colors, or both. (Note: vertex colors or cell colors may be written, depending on where the named array is found. If points and cells have the arrays with the same name, then both colors will be written.) SetEnableAlphaV.SetEnableAlpha(bool) C++: virtual void SetEnableAlpha(bool _arg) Enable alpha output. Default is off, i.e. only color values will be saved based on ColorMode. GetEnableAlphaV.GetEnableAlpha() -> bool C++: virtual bool GetEnableAlpha() Enable alpha output. Default is off, i.e. only color values will be saved based on ColorMode. EnableAlphaOnV.EnableAlphaOn() C++: virtual void EnableAlphaOn() Enable alpha output. Default is off, i.e. only color values will be saved based on ColorMode. EnableAlphaOffV.EnableAlphaOff() C++: virtual void EnableAlphaOff() Enable alpha output. Default is off, i.e. only color values will be saved based on ColorMode. SetArrayNameV.SetArrayName(string) C++: virtual void SetArrayName(const char *_arg) Specify the array name to use to color the data. GetArrayNameV.GetArrayName() -> string C++: virtual char *GetArrayName() Specify the array name to use to color the data. SetComponentV.SetComponent(int) C++: virtual void SetComponent(int _arg) Specify the array component to use to color the data. GetComponentMinValueV.GetComponentMinValue() -> int C++: virtual int GetComponentMinValue() Specify the array component to use to color the data. GetComponentMaxValueV.GetComponentMaxValue() -> int C++: virtual int GetComponentMaxValue() Specify the array component to use to color the data. GetComponentV.GetComponent() -> int C++: virtual int GetComponent() Specify the array component to use to color the data. SetLookupTableV.SetLookupTable(vtkScalarsToColors) C++: virtual void SetLookupTable(vtkScalarsToColors *) A lookup table can be specified in order to convert data arrays to RGBA colors. GetLookupTableV.GetLookupTable() -> vtkScalarsToColors C++: virtual vtkScalarsToColors *GetLookupTable() A lookup table can be specified in order to convert data arrays to RGBA colors. SetColorV.SetColor(int, int, int) C++: void SetColor(unsigned char, unsigned char, unsigned char) V.SetColor((int, int, int)) C++: void SetColor(unsigned char a[3]) GetColorV.GetColor() -> (int, int, int) C++: unsigned char *GetColor() SetAlphaV.SetAlpha(int) C++: virtual void SetAlpha(unsigned char _arg) Set the alpha to use when using a uniform color (effect point or cells, or both) and EnableAlpha is ON. GetAlphaV.GetAlpha() -> int C++: virtual unsigned char GetAlpha() Set the alpha to use when using a uniform color (effect point or cells, or both) and EnableAlpha is ON. GetInputV.GetInput() -> vtkPolyData C++: vtkPolyData *GetInput() V.GetInput(int) -> vtkPolyData C++: vtkPolyData *GetInput(int port) Get the input to this writer. SetFileNameV.SetFileName(string) C++: virtual void SetFileName(const char *_arg) Specify file name of vtk polygon data file to write. GetFileNameV.GetFileName() -> string C++: virtual char *GetFileName() Specify file name of vtk polygon data file to write. SetFileTypeV.SetFileType(int) C++: virtual void SetFileType(int _arg) Specify file type (ASCII or BINARY) for vtk data file. GetFileTypeMinValueV.GetFileTypeMinValue() -> int C++: virtual int GetFileTypeMinValue() Specify file type (ASCII or BINARY) for vtk data file. GetFileTypeMaxValueV.GetFileTypeMaxValue() -> int C++: virtual int GetFileTypeMaxValue() Specify file type (ASCII or BINARY) for vtk data file. GetFileTypeV.GetFileType() -> int C++: virtual int GetFileType() Specify file type (ASCII or BINARY) for vtk data file. SetFileTypeToASCIIV.SetFileTypeToASCII() C++: void SetFileTypeToASCII() Specify file type (ASCII or BINARY) for vtk data file. SetFileTypeToBinaryV.SetFileTypeToBinary() C++: void SetFileTypeToBinary() Specify file type (ASCII or BINARY) for vtk data file. SetTextureCoordinatesNameV.SetTextureCoordinatesName(int) C++: virtual void SetTextureCoordinatesName(int _arg) Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) GetTextureCoordinatesNameMinValueV.GetTextureCoordinatesNameMinValue() -> int C++: virtual int GetTextureCoordinatesNameMinValue() Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) GetTextureCoordinatesNameMaxValueV.GetTextureCoordinatesNameMaxValue() -> int C++: virtual int GetTextureCoordinatesNameMaxValue() Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) GetTextureCoordinatesNameV.GetTextureCoordinatesName() -> int C++: virtual int GetTextureCoordinatesName() Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) SetTextureCoordinatesNameToUVV.SetTextureCoordinatesNameToUV() C++: void SetTextureCoordinatesNameToUV() Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) SetTextureCoordinatesNameToTextureUVV.SetTextureCoordinatesNameToTextureUV() C++: void SetTextureCoordinatesNameToTextureUV() Choose the name used for the texture coordinates. (u, v) or (texture_u, texture_v) AddCommentV.AddComment(string) C++: void AddComment(const std::string &comment) Add a comment in the header part. vtkWritervtkScalarsToColorsreal_initvtkIOPLYPythoncan't get dictionary for module vtkIOPLYPythonvtkIOPLYPython04!aXQx@dLod<pl ,p 00   0@P!#$%`& '))-.05P6778P9@;<>EGHHpI`KpLaQPZdnx *4>HR\fp$.8BLV`jt~ z(2(Хy аp#p+@9`R[\0`U bно&HDR[\``UZPPP  r  / pK     ?@U}2" M"&&*`*c+Pr+,,,,W-pd--`-\.Pi..@.s//000`0B1@Q112222233O40X44P5~5@5506|6067#7778`0888$9>99 ::P:;;]<{<=`A===> !Q"`+C`DSEpp@p0pp`RASASASASASASAp(pp RASASASASAp8ppRASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASASApHpQ>@_PyExc_TypeErrorQq@_PyObject_Freer@_PyObject_GC_Delqr@_PyObject_GenericGetAttrqr@_PyObject_GenericSetAttrqr @_PyType_Typeq r@__Py_NoneStructq`@_PyVTKObject_AsBufferr @_PyVTKObject_Deleteq0r @_PyVTKObject_GetSetq8r@_PyVTKObject_Newq@r@_PyVTKObject_ReprqHr @_PyVTKObject_StringqPr @_PyVTKObject_TraverseqXr @_PyVTKSpecialObject_Repr@__ZN13vtkPythonArgs5ArrayIdEC1El@__ZN13vtkPythonArgs5ArrayIiEC1El@__ZN13vtkPythonArgs5ArrayIjEC1El @__ZN20vtkDebugLeaksManagerD1Evqh@__ZN31vtkObjectFactoryRegistryCleanupD1Ev @__ZdaPvr@__ZdlPv@__Znam@__Znwm@___gxx_personality_v0qx @dyld_stub_binder@__ZN13vtkPythonArgs5ArrayIdEC1ElQr@__ZN13vtkPythonArgs5ArrayIiEC1El@__ZN13vtkPythonArgs5ArrayIjEC1El@__ZdaPv@__ZdlPv@__Znam@__Znwmr>@_PyBool_FromLongr>@_PyBuffer_Releaser>@_PyBytes_FromStringAndSizer>@_PyDict_SetItemStringr >@_PyDict_Sizer(>@_PyErr_Clearr0>@_PyErr_Occurredr8>@_PyErr_SetStringr@>@_PyFloat_FromDoublerH>@_PyLong_FromLongrP>@_PyModule_Create2rX>@_PyModule_GetDictr`>@_PyObject_Freerh>@_PyObject_HashNotImplementedrp>@_PyType_Readyrx>@_PyUnicode_FromStringr>@_PyUnicode_FromStringAndSizer@_PyVTKClass_Addr@_PyVTKObject_Checkr@_PyVTKObject_GetObjectr@_PyVTKObject_SetFlagr@_PyVTKSpecialObject_Newr@_PyVTKSpecialType_Addr@_PyvtkAbstractPolyDataReader_ClassNewr@_PyvtkWriter_ClassNewr>@__Py_Deallocr>@__Py_FatalErrorFuncr @__Unwind_Resumer@__ZN12vtkPLYReader11CanReadFileEPKcr@__ZN12vtkPLYReader3NewEvr@__ZN12vtkPLYWriter10AddCommentERKNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEEr@__ZN12vtkPLYWriter14SetLookupTableEP18vtkScalarsToColorsr@__ZN12vtkPLYWriter3NewEvr@__ZN12vtkPLYWriter8GetInputEir@__ZN12vtkPLYWriter8GetInputEvr @__ZN13vtkObjectBase8IsTypeOfEPKcr@__ZN13vtkPythonArgs10BuildTupleEPKhir@__ZN13vtkPythonArgs10GetArgSizeEir@__ZN13vtkPythonArgs13ArgCountErrorEiPKcr@__ZN13vtkPythonArgs13ArgCountErrorEiir@__ZN13vtkPythonArgs17GetArgAsVTKObjectEPKcRbr@__ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1_r@__ZN13vtkPythonArgs21GetArgAsSpecialObjectEPKcPP7_objectr@__ZN13vtkPythonArgs8GetArrayEPdir@__ZN13vtkPythonArgs8GetArrayEPhir@__ZN13vtkPythonArgs8GetArrayEPiir@__ZN13vtkPythonArgs8GetArrayEPjir@__ZN13vtkPythonArgs8GetValueERNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEEr@__ZN13vtkPythonArgs8GetValueERPcr@__ZN13vtkPythonArgs8GetValueERbr@__ZN13vtkPythonArgs8GetValueERdr@__ZN13vtkPythonArgs8GetValueERhr@__ZN13vtkPythonArgs8GetValueERir@__ZN13vtkPythonArgs8GetValueERjr@__ZN13vtkPythonArgs8GetValueERmr@__ZN13vtkPythonArgs8SetArrayEiPKdir@__ZN13vtkPythonArgs8SetArrayEiPKiir@__ZN13vtkPythonArgs8SetArrayEiPKjir@__ZN13vtkPythonArgs9GetBufferERPvP10bufferinfor@__ZN13vtkPythonUtil13ManglePointerEPKvPKcr@__ZN13vtkPythonUtil20GetObjectFromPointerEP13vtkObjectBaser @__ZN20vtkDebugLeaksManagerC1Evr @__ZN31vtkObjectFactoryRegistryCleanupC1Evr@__ZN6vtkPLY10store_itemEPciijdr@__ZN6vtkPLY13equal_stringsEPKcS1_r@__ZN6vtkPLY13get_prop_typeEPKcr@__ZN6vtkPLY14get_ascii_itemEPKciPiPjPdr@__ZN6vtkPLY14get_item_valueEPKcir@__ZN6vtkPLY15get_stored_itemEPKviPiPjPdr@__ZN6vtkPLY8my_allocEmiPKcr @___cxa_atexitr @_strcmpr @_strlen_Py%real_initvtkIOPLYPythonvtkPLYBVTKAddFile_vtkPLYx_TypeNewrReader_ClassNewWriter_ClassNewReaderWriterP 0PPq    Х ` @ f  а p p @2 R | 0  н о)PIp` P:PlPpO@"b `BPrp`-P[@`%@U0'PT@00E`y,Po`/[<ml   0 0 p 0" Ї? ]     2Mf (9J^o3P ` v         * B [ q+< a     4 m      3 T     4 T t     ,  V     # B d        % , : P X ` \]^_`abcefghimnpqrtvz}djklosuwxy{|\]^_`abcefghimnpqrtvz} _PyVTKAddFile_vtkPLY_PyVTKAddFile_vtkPLYReader_PyVTKAddFile_vtkPLYWriter_PyvtkPLYReader_ClassNew_PyvtkPLYWriter_ClassNew_PyvtkPLY_TypeNew_real_initvtkIOPLYPython_PyBool_FromLong_PyBuffer_Release_PyBytes_FromStringAndSize_PyDict_SetItemString_PyDict_Size_PyErr_Clear_PyErr_Occurred_PyErr_SetString_PyExc_TypeError_PyFloat_FromDouble_PyLong_FromLong_PyModule_Create2_PyModule_GetDict_PyObject_Free_PyObject_GC_Del_PyObject_GenericGetAttr_PyObject_GenericSetAttr_PyObject_HashNotImplemented_PyType_Ready_PyType_Type_PyUnicode_FromString_PyUnicode_FromStringAndSize_PyVTKClass_Add_PyVTKObject_AsBuffer_PyVTKObject_Check_PyVTKObject_Delete_PyVTKObject_GetObject_PyVTKObject_GetSet_PyVTKObject_New_PyVTKObject_Repr_PyVTKObject_SetFlag_PyVTKObject_String_PyVTKObject_Traverse_PyVTKSpecialObject_New_PyVTKSpecialObject_Repr_PyVTKSpecialType_Add_PyvtkAbstractPolyDataReader_ClassNew_PyvtkWriter_ClassNew__Py_Dealloc__Py_FatalErrorFunc__Py_NoneStruct__Unwind_Resume__ZN12vtkPLYReader11CanReadFileEPKc__ZN12vtkPLYReader3NewEv__ZN12vtkPLYWriter10AddCommentERKNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEE__ZN12vtkPLYWriter14SetLookupTableEP18vtkScalarsToColors__ZN12vtkPLYWriter3NewEv__ZN12vtkPLYWriter8GetInputEi__ZN12vtkPLYWriter8GetInputEv__ZN13vtkObjectBase8IsTypeOfEPKc__ZN13vtkPythonArgs10BuildTupleEPKhi__ZN13vtkPythonArgs10GetArgSizeEi__ZN13vtkPythonArgs13ArgCountErrorEiPKc__ZN13vtkPythonArgs13ArgCountErrorEii__ZN13vtkPythonArgs17GetArgAsVTKObjectEPKcRb__ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1___ZN13vtkPythonArgs21GetArgAsSpecialObjectEPKcPP7_object__ZN13vtkPythonArgs5ArrayIdEC1El__ZN13vtkPythonArgs5ArrayIiEC1El__ZN13vtkPythonArgs5ArrayIjEC1El__ZN13vtkPythonArgs8GetArrayEPdi__ZN13vtkPythonArgs8GetArrayEPhi__ZN13vtkPythonArgs8GetArrayEPii__ZN13vtkPythonArgs8GetArrayEPji__ZN13vtkPythonArgs8GetValueERNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEE__ZN13vtkPythonArgs8GetValueERPc__ZN13vtkPythonArgs8GetValueERb__ZN13vtkPythonArgs8GetValueERd__ZN13vtkPythonArgs8GetValueERh__ZN13vtkPythonArgs8GetValueERi__ZN13vtkPythonArgs8GetValueERj__ZN13vtkPythonArgs8GetValueERm__ZN13vtkPythonArgs8SetArrayEiPKdi__ZN13vtkPythonArgs8SetArrayEiPKii__ZN13vtkPythonArgs8SetArrayEiPKji__ZN13vtkPythonArgs9GetBufferERPvP10bufferinfo__ZN13vtkPythonUtil13ManglePointerEPKvPKc__ZN13vtkPythonUtil20GetObjectFromPointerEP13vtkObjectBase__ZN20vtkDebugLeaksManagerC1Ev__ZN20vtkDebugLeaksManagerD1Ev__ZN31vtkObjectFactoryRegistryCleanupC1Ev__ZN31vtkObjectFactoryRegistryCleanupD1Ev__ZN6vtkPLY10store_itemEPciijd__ZN6vtkPLY13equal_stringsEPKcS1___ZN6vtkPLY13get_prop_typeEPKc__ZN6vtkPLY14get_ascii_itemEPKciPiPjPd__ZN6vtkPLY14get_item_valueEPKci__ZN6vtkPLY15get_stored_itemEPKviPiPjPd__ZN6vtkPLY8my_allocEmiPKc__ZdaPv__ZdlPv__Znam__Znwm___cxa_atexit___gxx_personality_v0_strcmp_strlendyld_stub_binder__ZL14PyvtkPLY_CCopyPKv__ZL15PyvtkPLY_DeleteP7_object__ZL13PyvtkPLY_HashP7_object__ZL12PyvtkPLY_NewP11_typeobjectP7_objectS2___ZL18PyvtkPLY_vtkPLY_s2P7_objectS0___ZL22PyvtkPLY_equal_stringsP7_objectS0___ZL19PyvtkPLY_store_itemP7_objectS0___ZL24PyvtkPLY_get_stored_itemP7_objectS0___ZL23PyvtkPLY_get_item_valueP7_objectS0___ZL23PyvtkPLY_get_ascii_itemP7_objectS0___ZL17PyvtkPLY_my_allocP7_objectS0___ZL22PyvtkPLY_get_prop_typeP7_objectS0___ZL24PyvtkPLYReader_StaticNewv__ZL23PyvtkPLYReader_IsTypeOfP7_objectS0___ZL18PyvtkPLYReader_IsAP7_objectS0___ZL27PyvtkPLYReader_SafeDownCastP7_objectS0___ZL26PyvtkPLYReader_NewInstanceP7_objectS0___ZL26PyvtkPLYReader_CanReadFileP7_objectS0___ZN12vtkPLYReader8IsTypeOfEPKc__GLOBAL__sub_I_vtkPLYReaderPython.cxx__ZL24PyvtkPLYWriter_StaticNewv__ZL23PyvtkPLYWriter_IsTypeOfP7_objectS0___ZL18PyvtkPLYWriter_IsAP7_objectS0___ZL27PyvtkPLYWriter_SafeDownCastP7_objectS0___ZL26PyvtkPLYWriter_NewInstanceP7_objectS0___ZL31PyvtkPLYWriter_SetDataByteOrderP7_objectS0___ZL39PyvtkPLYWriter_GetDataByteOrderMinValueP7_objectS0___ZL39PyvtkPLYWriter_GetDataByteOrderMaxValueP7_objectS0___ZL31PyvtkPLYWriter_GetDataByteOrderP7_objectS0___ZL42PyvtkPLYWriter_SetDataByteOrderToBigEndianP7_objectS0___ZL45PyvtkPLYWriter_SetDataByteOrderToLittleEndianP7_objectS0___ZL27PyvtkPLYWriter_SetColorModeP7_objectS0___ZL27PyvtkPLYWriter_GetColorModeP7_objectS0___ZL36PyvtkPLYWriter_SetColorModeToDefaultP7_objectS0___ZL45PyvtkPLYWriter_SetColorModeToUniformCellColorP7_objectS0___ZL46PyvtkPLYWriter_SetColorModeToUniformPointColorP7_objectS0___ZL41PyvtkPLYWriter_SetColorModeToUniformColorP7_objectS0___ZL32PyvtkPLYWriter_SetColorModeToOffP7_objectS0___ZL29PyvtkPLYWriter_SetEnableAlphaP7_objectS0___ZL29PyvtkPLYWriter_GetEnableAlphaP7_objectS0___ZL28PyvtkPLYWriter_EnableAlphaOnP7_objectS0___ZL29PyvtkPLYWriter_EnableAlphaOffP7_objectS0___ZL27PyvtkPLYWriter_SetArrayNameP7_objectS0___ZL27PyvtkPLYWriter_GetArrayNameP7_objectS0___ZL27PyvtkPLYWriter_SetComponentP7_objectS0___ZL35PyvtkPLYWriter_GetComponentMinValueP7_objectS0___ZL35PyvtkPLYWriter_GetComponentMaxValueP7_objectS0___ZL27PyvtkPLYWriter_GetComponentP7_objectS0___ZL29PyvtkPLYWriter_SetLookupTableP7_objectS0___ZL29PyvtkPLYWriter_GetLookupTableP7_objectS0___ZL23PyvtkPLYWriter_SetColorP7_objectS0___ZL23PyvtkPLYWriter_GetColorP7_objectS0___ZL23PyvtkPLYWriter_SetAlphaP7_objectS0___ZL23PyvtkPLYWriter_GetAlphaP7_objectS0___ZL23PyvtkPLYWriter_GetInputP7_objectS0___ZL26PyvtkPLYWriter_SetFileNameP7_objectS0___ZL26PyvtkPLYWriter_GetFileNameP7_objectS0___ZL26PyvtkPLYWriter_SetFileTypeP7_objectS0___ZL34PyvtkPLYWriter_GetFileTypeMinValueP7_objectS0___ZL34PyvtkPLYWriter_GetFileTypeMaxValueP7_objectS0___ZL26PyvtkPLYWriter_GetFileTypeP7_objectS0___ZL33PyvtkPLYWriter_SetFileTypeToASCIIP7_objectS0___ZL34PyvtkPLYWriter_SetFileTypeToBinaryP7_objectS0___ZL40PyvtkPLYWriter_SetTextureCoordinatesNameP7_objectS0___ZL48PyvtkPLYWriter_GetTextureCoordinatesNameMinValueP7_objectS0___ZL48PyvtkPLYWriter_GetTextureCoordinatesNameMaxValueP7_objectS0___ZL40PyvtkPLYWriter_GetTextureCoordinatesNameP7_objectS0___ZL44PyvtkPLYWriter_SetTextureCoordinatesNameToUVP7_objectS0___ZL51PyvtkPLYWriter_SetTextureCoordinatesNameToTextureUVP7_objectS0___ZL25PyvtkPLYWriter_AddCommentP7_objectS0_GCC_except_table9GCC_except_table11GCC_except_table51__dyld_private__ZL13PyvtkPLY_Type__ZL16PyvtkPLY_Methods__ZL23PyvtkPLY_vtkPLY_Methods__ZL22PyvtkPLYReader_Methods__ZL19PyvtkPLYWriter_Type__ZL22PyvtkPLYWriter_Methods__ZL23PyvtkIOPLYPython_Module__ZL28vtkDebugLeaksManagerInstance__ZL39vtkObjectFactoryRegistryCleanupInstance__ZL19PyvtkPLYReader_Type__ZL24PyvtkIOPLYPython_Methods