(__text__TEXT<ح__gcc_except_tab__TEXT<@?__data__DATA=@ ?__cstring__TEXT@GNJ__compact_unwind__LD@ HP__eh_frame__TEXT(  h2  h PLLOBUHAVSH=H5H$GH u~HL51Ht"HH5GLHH uHHt"HH5FLHH uHH=H[A^]DUH]fDUHSPHH5[FHHt H tH[]H=H[]fDUHAVSH0HuHRHEЋFEHEHEH}ȃHuH]H=EHAtDH=Ht1H=HtH=Ht HLcHuL1H0[A^]UHAWAVSH(HuHRHED~D}HG]ԉ]؅yHHLw(HEMA)Au{HuH}}L}tH=DLAtuH=LtbH=LtOH=LtRHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 H@HuHcHHH [A^]@UHAVSH HuH@RHEDvDuHG]]y HHt+H(Ht"D9u!Et-H8Ht(1.H}111HHHuHHHH [A^]f.DUHAVSH HuH)RHEDvDuHG]]y HHt(H(HtD9uEt*H18Ht(1.H}111HPHuHHHH [A^]fUHAWAVSH(HuH#RHED~D}HG]ԉ]؅y HHtgLw(Mt^A)AuBHuH}tD}utHA9tAILHu6H}1H([A^A_]ILXHuHHUHAVSH HuHRHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 H`HuHcHHH [A^]@UHAVSH HuH&RHEDvDuHG]]y HHt+H(Ht"D9u!Et-HXHt(1.H}111HhHuHHHH [A^]f.DUHAVSH HuH#RHEDvDuHG]]y HHt(H(HtD9uEt*H1XHt(1.H}111HpHuHHHH [A^]fUHAWAVSH(HuH1RHED~D}HG]ԉ]؅y HHtgLw(Mt^A)AuBHuH}tD}utHA9tAILHu6H}1H([A^A_]ILxHuHHUHAVSH HuHRHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HHuHcHHH [A^]@UHAVSH HuH$SHEDvDuHG]]y HHt+H(Ht"D9u!Et-HxHt(1.H}111HHuHHHH [A^]f.DUHAVSH HuHSHEDvDuHG]]y HHt(H(HtD9uEt*H1xHt(1.H}111HHuHHHH [A^]fUHAVSH HuH!THEDvDuHG]]y HHtH(HtD9uHt1H}111 HHHH [A^]UHAVSH HuHTHEDvDuHG]]y HHtH(HtD9uHt1H}111 HHHH [A^]UHAWAVSH(HuHLUHED~D}HG]ԉ]؅y HHtgLw(Mt^A)AuBHuH}tD}utHA9tAILHu6H}1H([A^A_]ILHuHHUHAVSH HuHUHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HHuHcHHH [A^]@UHAWAVSH(HuHUHEDvDuHG]܉]y HHt H(HtD9uIHt!1H}111HH([A^A_]Mt3LILHHHuLLHHH뮐UHAWAVSH(HuH9VHED~D}HG]ԉ]؅y HHtsLw(MtjA)AuNHuH}tP}EtRAf.u{AILHu6H}1H([A^A_]ILHuHH@UHAVSH0HuHUHEDvDuHG]܉]y HHt*H(Ht!D9u Et,EHt-16H}111%HEHuEHHH0[A^]UHAWAVSH(HuHJUHED~D}HG]ԉ]؅y HHtsLw(MtjA)AuNHuH}tP}EtRAf.u{AILHu6H}1H([A^A_]ILHuHH@UHAVSH0HuHTHEDvDuHG]܉]y HHt*H(Ht!D9u Et,EHt-16H}111%HEHuEHHH0[A^]UHAWAVSH(HuHTHED~D}HG]ԉ]؅y HHtmLw(EMtIA)H}Au@Hut/}EtEA8tAILHt81>1+E1#ILHuHHH([A^A_]UHAVSH HuHUHEDvDuHG]]y HHt'H(HtD9uEt)Ht*11H}111 HHuHHH [A^]UHAVSH HuHWHEDvDuHG]]y HHt+H(Ht"D9u!Et-HHt(1.H}111HHuHHHH [A^]f.DUHAVSH HuHXHEDvDuHG]]y HHt(H(HtD9uEt*H1Ht(1.H}111HHuHHHH [A^]fUHAWAVSH(HuHZHED~D}HG]ԉ]؅y HHtWLw(MtNA)Au2HuH}t4uLHuHHH}1H([A^A_]fUHAVSH HuHZHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HHuHcHHH [A^]@UHAWAVSH(HuHZHED~D}HG]ԉ]؅y HHtWLw(MtNA)Au2HuH}t4uLHuHHH}1H([A^A_]fUHAVSH HuHZHEDvDuHG]]y HHt#H(HtD9uEt% Ht*11H}111 HHuHcHHH [A^]@UHAWAVSH(HuHZHED~D}HG]ԉ]؅y HHtWLw(MtNA)Au2HuH}t4uLHuHHH}1H([A^A_]fUHAWAVSH(HuHZHED~D}HG]ԉ]؅y HHtWLw(MtNA)Au2HuH}t4uLHuHHH}1H([A^A_]fUHAVSH HuH'[HEDvDuHG]]y HHtH(HtD9uHt1H}111 HHHH [A^]UHAWAVSH(HuHw[HED~D}HG]ԉ]؅y HHtdLw(HEMt8A)Au3HuH}t}Hut;LHt?1CH}1,HE1 ILHuHcH([A^A_]f.UHAWAVSH(HuHK[HED~D}HG]ԉ]؅y HHt`Lw(MtWA)Au;H5V]H}HU}t4LHHuHHH}1H([A^A_]fUHAVSH HuHd[HEDvDuHG]]y HHt$H(HtD9uEt&HHt+12H}111!HHHuHHHH [A^]fUHAWAVSH8HuH[HED~D}HG]ĉ]ȅyHHLw(W)EHEMtUA)Au9H}Hut;HuLHu%HHEu$H}1Et H}HH8[A^A_]W)EHE1EtHEt H}H UHAWAVAUATSPIIHHH9t%HLHIH[A\A]A^A_]II HH)HHHHsL9;H)HHL,I9LBHUUUUUUUH9MCMtM9 JH<@IE1H[IHLKDmMHSIIH9tZf.H~H{H~HNHKH{HFHFHFHHH9uMIIIIML9u.MLH[A\A]A^A_]HI9tHX@tHxIMtL IIL UHAVSHHH5HHIHL fUHSPHH5YHHHH[]ooLT' 2  2+}GHDGSSTTUU|VVVVWWcWWWCXRXXX8YEYYY 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) -> vtkMultiBlockPLOT3DReader C++: static vtkMultiBlockPLOT3DReader *SafeDownCast( vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkMultiBlockPLOT3DReader C++: vtkMultiBlockPLOT3DReader *NewInstance() SetFileNameV.SetFileName(string) C++: void SetFileName(const char *name) Set/Get the PLOT3D geometry filename. GetFileNameV.GetFileName() -> string C++: const char *GetFileName() Set/Get the PLOT3D geometry filename. SetXYZFileNameV.SetXYZFileName(string) C++: virtual void SetXYZFileName(const char *) Set/Get the PLOT3D geometry filename. GetXYZFileNameV.GetXYZFileName() -> string C++: virtual char *GetXYZFileName() Set/Get the PLOT3D geometry filename. SetQFileNameV.SetQFileName(string) C++: virtual void SetQFileName(const char *_arg) Set/Get the PLOT3D solution filename. GetQFileNameV.GetQFileName() -> string C++: virtual char *GetQFileName() Set/Get the PLOT3D solution filename. SetFunctionFileNameV.SetFunctionFileName(string) C++: virtual void SetFunctionFileName(const char *_arg) Set/Get the PLOT3D function filename. GetFunctionFileNameV.GetFunctionFileName() -> string C++: virtual char *GetFunctionFileName() Set/Get the PLOT3D function filename. SetAutoDetectFormatV.SetAutoDetectFormat(int) C++: virtual void SetAutoDetectFormat(int _arg) When this option is turned on, the reader will try to figure out the values of various options such as byte order, byte count etc. automatically. This options works only for binary files. When it is turned on, the reader should be able to read most Plot3D files automatically. The default is OFF for backwards compatibility reasons. For binary files, it is strongly recommended that you turn on AutoDetectFormat and leave the other file format related options untouched. GetAutoDetectFormatV.GetAutoDetectFormat() -> int C++: virtual int GetAutoDetectFormat() When this option is turned on, the reader will try to figure out the values of various options such as byte order, byte count etc. automatically. This options works only for binary files. When it is turned on, the reader should be able to read most Plot3D files automatically. The default is OFF for backwards compatibility reasons. For binary files, it is strongly recommended that you turn on AutoDetectFormat and leave the other file format related options untouched. AutoDetectFormatOnV.AutoDetectFormatOn() C++: virtual void AutoDetectFormatOn() When this option is turned on, the reader will try to figure out the values of various options such as byte order, byte count etc. automatically. This options works only for binary files. When it is turned on, the reader should be able to read most Plot3D files automatically. The default is OFF for backwards compatibility reasons. For binary files, it is strongly recommended that you turn on AutoDetectFormat and leave the other file format related options untouched. AutoDetectFormatOffV.AutoDetectFormatOff() C++: virtual void AutoDetectFormatOff() When this option is turned on, the reader will try to figure out the values of various options such as byte order, byte count etc. automatically. This options works only for binary files. When it is turned on, the reader should be able to read most Plot3D files automatically. The default is OFF for backwards compatibility reasons. For binary files, it is strongly recommended that you turn on AutoDetectFormat and leave the other file format related options untouched. SetBinaryFileV.SetBinaryFile(int) C++: virtual void SetBinaryFile(int _arg) Is the file to be read written in binary format (as opposed to ascii). GetBinaryFileV.GetBinaryFile() -> int C++: virtual int GetBinaryFile() Is the file to be read written in binary format (as opposed to ascii). BinaryFileOnV.BinaryFileOn() C++: virtual void BinaryFileOn() Is the file to be read written in binary format (as opposed to ascii). BinaryFileOffV.BinaryFileOff() C++: virtual void BinaryFileOff() Is the file to be read written in binary format (as opposed to ascii). SetMultiGridV.SetMultiGrid(int) C++: virtual void SetMultiGrid(int _arg) Does the file to be read contain information about number of grids. In some PLOT3D files, the first value contains the number of grids (even if there is only 1). If reading such a file, set this to true. GetMultiGridV.GetMultiGrid() -> int C++: virtual int GetMultiGrid() Does the file to be read contain information about number of grids. In some PLOT3D files, the first value contains the number of grids (even if there is only 1). If reading such a file, set this to true. MultiGridOnV.MultiGridOn() C++: virtual void MultiGridOn() Does the file to be read contain information about number of grids. In some PLOT3D files, the first value contains the number of grids (even if there is only 1). If reading such a file, set this to true. MultiGridOffV.MultiGridOff() C++: virtual void MultiGridOff() Does the file to be read contain information about number of grids. In some PLOT3D files, the first value contains the number of grids (even if there is only 1). If reading such a file, set this to true. SetHasByteCountV.SetHasByteCount(int) C++: virtual void SetHasByteCount(int _arg) Were the arrays written with leading and trailing byte counts ? Usually, files written by a fortran program will contain these byte counts whereas the ones written by C/C++ won't. GetHasByteCountV.GetHasByteCount() -> int C++: virtual int GetHasByteCount() Were the arrays written with leading and trailing byte counts ? Usually, files written by a fortran program will contain these byte counts whereas the ones written by C/C++ won't. HasByteCountOnV.HasByteCountOn() C++: virtual void HasByteCountOn() Were the arrays written with leading and trailing byte counts ? Usually, files written by a fortran program will contain these byte counts whereas the ones written by C/C++ won't. HasByteCountOffV.HasByteCountOff() C++: virtual void HasByteCountOff() Were the arrays written with leading and trailing byte counts ? Usually, files written by a fortran program will contain these byte counts whereas the ones written by C/C++ won't. SetIBlankingV.SetIBlanking(int) C++: virtual void SetIBlanking(int _arg) Is there iblanking (point visibility) information in the file. If there is iblanking arrays, these will be read and assigned to the PointVisibility array of the output. GetIBlankingV.GetIBlanking() -> int C++: virtual int GetIBlanking() Is there iblanking (point visibility) information in the file. If there is iblanking arrays, these will be read and assigned to the PointVisibility array of the output. IBlankingOnV.IBlankingOn() C++: virtual void IBlankingOn() Is there iblanking (point visibility) information in the file. If there is iblanking arrays, these will be read and assigned to the PointVisibility array of the output. IBlankingOffV.IBlankingOff() C++: virtual void IBlankingOff() Is there iblanking (point visibility) information in the file. If there is iblanking arrays, these will be read and assigned to the PointVisibility array of the output. SetTwoDimensionalGeometryV.SetTwoDimensionalGeometry(int) C++: virtual void SetTwoDimensionalGeometry(int _arg) If only two-dimensional data was written to the file, turn this on. GetTwoDimensionalGeometryV.GetTwoDimensionalGeometry() -> int C++: virtual int GetTwoDimensionalGeometry() If only two-dimensional data was written to the file, turn this on. TwoDimensionalGeometryOnV.TwoDimensionalGeometryOn() C++: virtual void TwoDimensionalGeometryOn() If only two-dimensional data was written to the file, turn this on. TwoDimensionalGeometryOffV.TwoDimensionalGeometryOff() C++: virtual void TwoDimensionalGeometryOff() If only two-dimensional data was written to the file, turn this on. SetDoublePrecisionV.SetDoublePrecision(int) C++: virtual void SetDoublePrecision(int _arg) Is this file in double precision or single precision. This only matters for binary files. Default is single. GetDoublePrecisionV.GetDoublePrecision() -> int C++: virtual int GetDoublePrecision() Is this file in double precision or single precision. This only matters for binary files. Default is single. DoublePrecisionOnV.DoublePrecisionOn() C++: virtual void DoublePrecisionOn() Is this file in double precision or single precision. This only matters for binary files. Default is single. DoublePrecisionOffV.DoublePrecisionOff() C++: virtual void DoublePrecisionOff() Is this file in double precision or single precision. This only matters for binary files. Default is single. SetForceReadV.SetForceRead(int) C++: virtual void SetForceRead(int _arg) Try to read a binary file even if the file length seems to be inconsistent with the header information. Use this with caution, if the file length is not the same as calculated from the header. either the file is corrupt or the settings are wrong. GetForceReadV.GetForceRead() -> int C++: virtual int GetForceRead() Try to read a binary file even if the file length seems to be inconsistent with the header information. Use this with caution, if the file length is not the same as calculated from the header. either the file is corrupt or the settings are wrong. ForceReadOnV.ForceReadOn() C++: virtual void ForceReadOn() Try to read a binary file even if the file length seems to be inconsistent with the header information. Use this with caution, if the file length is not the same as calculated from the header. either the file is corrupt or the settings are wrong. ForceReadOffV.ForceReadOff() C++: virtual void ForceReadOff() Try to read a binary file even if the file length seems to be inconsistent with the header information. Use this with caution, if the file length is not the same as calculated from the header. either the file is corrupt or the settings are wrong. SetByteOrderToBigEndianV.SetByteOrderToBigEndian() C++: void SetByteOrderToBigEndian() Set the byte order of the file (remember, more Unix workstations write big endian whereas PCs write little endian). Default is big endian (since most older PLOT3D files were written by workstations). SetByteOrderToLittleEndianV.SetByteOrderToLittleEndian() C++: void SetByteOrderToLittleEndian() Set the byte order of the file (remember, more Unix workstations write big endian whereas PCs write little endian). Default is big endian (since most older PLOT3D files were written by workstations). SetByteOrderV.SetByteOrder(int) C++: virtual void SetByteOrder(int _arg) Set the byte order of the file (remember, more Unix workstations write big endian whereas PCs write little endian). Default is big endian (since most older PLOT3D files were written by workstations). GetByteOrderV.GetByteOrder() -> int C++: virtual int GetByteOrder() Set the byte order of the file (remember, more Unix workstations write big endian whereas PCs write little endian). Default is big endian (since most older PLOT3D files were written by workstations). GetByteOrderAsStringV.GetByteOrderAsString() -> string C++: const char *GetByteOrderAsString() Set the byte order of the file (remember, more Unix workstations write big endian whereas PCs write little endian). Default is big endian (since most older PLOT3D files were written by workstations). SetRV.SetR(float) C++: virtual void SetR(double _arg) Set/Get the gas constant. Default is 1.0. GetRV.GetR() -> float C++: virtual double GetR() Set/Get the gas constant. Default is 1.0. SetGammaV.SetGamma(float) C++: virtual void SetGamma(double _arg) Set/Get the ratio of specific heats. Default is 1.4. GetGammaV.GetGamma() -> float C++: virtual double GetGamma() Set/Get the ratio of specific heats. Default is 1.4. SetPreserveIntermediateFunctionsV.SetPreserveIntermediateFunctions(bool) C++: virtual void SetPreserveIntermediateFunctions(bool _arg) When set to true (default), the reader will preserve intermediate computed quantities that were not explicitly requested e.g. if `VelocityMagnitude` is enabled, but not `Velocity`, the reader still needs to compute `Velocity`. If `PreserveIntermediateFunctions` if false, then the output will not have `Velocity` array, only the requested `VelocityMagnitude`. This is useful to avoid using up memory for arrays that are not relevant for the analysis. GetPreserveIntermediateFunctionsV.GetPreserveIntermediateFunctions() -> bool C++: virtual bool GetPreserveIntermediateFunctions() When set to true (default), the reader will preserve intermediate computed quantities that were not explicitly requested e.g. if `VelocityMagnitude` is enabled, but not `Velocity`, the reader still needs to compute `Velocity`. If `PreserveIntermediateFunctions` if false, then the output will not have `Velocity` array, only the requested `VelocityMagnitude`. This is useful to avoid using up memory for arrays that are not relevant for the analysis. PreserveIntermediateFunctionsOnV.PreserveIntermediateFunctionsOn() C++: virtual void PreserveIntermediateFunctionsOn() When set to true (default), the reader will preserve intermediate computed quantities that were not explicitly requested e.g. if `VelocityMagnitude` is enabled, but not `Velocity`, the reader still needs to compute `Velocity`. If `PreserveIntermediateFunctions` if false, then the output will not have `Velocity` array, only the requested `VelocityMagnitude`. This is useful to avoid using up memory for arrays that are not relevant for the analysis. PreserveIntermediateFunctionsOffV.PreserveIntermediateFunctionsOff() C++: virtual void PreserveIntermediateFunctionsOff() When set to true (default), the reader will preserve intermediate computed quantities that were not explicitly requested e.g. if `VelocityMagnitude` is enabled, but not `Velocity`, the reader still needs to compute `Velocity`. If `PreserveIntermediateFunctions` if false, then the output will not have `Velocity` array, only the requested `VelocityMagnitude`. This is useful to avoid using up memory for arrays that are not relevant for the analysis. SetScalarFunctionNumberV.SetScalarFunctionNumber(int) C++: void SetScalarFunctionNumber(int num) Specify the scalar function to extract. If ==(-1), then no scalar function is extracted. GetScalarFunctionNumberV.GetScalarFunctionNumber() -> int C++: virtual int GetScalarFunctionNumber() Specify the scalar function to extract. If ==(-1), then no scalar function is extracted. SetVectorFunctionNumberV.SetVectorFunctionNumber(int) C++: void SetVectorFunctionNumber(int num) Specify the vector function to extract. If ==(-1), then no vector function is extracted. GetVectorFunctionNumberV.GetVectorFunctionNumber() -> int C++: virtual int GetVectorFunctionNumber() Specify the vector function to extract. If ==(-1), then no vector function is extracted. AddFunctionV.AddFunction(int) C++: void AddFunction(int functionNumber) Specify additional functions to read. These are placed into the point data as data arrays. Later on they can be used by labeling them as scalars, etc. RemoveFunctionV.RemoveFunction(int) C++: void RemoveFunction(int) Specify additional functions to read. These are placed into the point data as data arrays. Later on they can be used by labeling them as scalars, etc. RemoveAllFunctionsV.RemoveAllFunctions() C++: void RemoveAllFunctions() Specify additional functions to read. These are placed into the point data as data arrays. Later on they can be used by labeling them as scalars, etc. CanReadBinaryFileV.CanReadBinaryFile(string) -> int C++: virtual int CanReadBinaryFile(const char *fname) Return 1 if the reader can read the given file name. Only meaningful for binary files. SetControllerV.SetController(vtkMultiProcessController) C++: void SetController(vtkMultiProcessController *c) Set/Get the communicator object (we'll use global World controller if you don't set a different one). GetControllerV.GetController() -> vtkMultiProcessController C++: virtual vtkMultiProcessController *GetController() Set/Get the communicator object (we'll use global World controller if you don't set a different one). AddFunctionNameV.AddFunctionName(string) C++: void AddFunctionName(const std::string &name) vtkMultiBlockDataSetAlgorithmvtkAlgorithmvtkObjectvtkObjectBasevtkMultiProcessControllerallocator::allocate(size_t n) 'n' exceeds maximum supported size! J !:a@!!aaaaap a` aPa@a !!!@a !!!@a !!!@a !!!@a !!!@a ! !!!@"a #!#!$!@%a &!&!'!@(!(!`)a@*!*a+a,!p-a`.! /a0!0!1!02a2!3a@4!4a5aP6!6a7a8!@9aA<P:XA<@<G!A<<*zRx $`AC C$DPa AC $l8aJAC B$`aAC G$b:AC I$0cAC G$ cAC G$4dAC I$\8eAC I$eAC I$fAC I$gAC I$HjAC I$$kAC I$LmAC I$tnAC I$XoAC G$oAC G$xpAC G$qAC I$<qAC G$d@rAC G$rAC G$`sAC I$tAC G$tAC G$,8uAC G$TuAC I$|xvAC G$wAC G$wAC G$ xAC I$xAC G$D`yAC G$lyAC G$zAC I$8{AC G${AC G$ X|AC G$4|AC I$\}AC G$ ~AC G$~AC G$@AC I$AC G$$AC G$LAC G$tAC G$AC G$pAC I$(AC G$AC I$<XAC I$d AC G$AC I$AC G$AC I$ AC G$, hAC G$T AC G$| AC I$ AC G$ AC I$ AC G$ AC I$D 0AC I$l AC G$ AC I$ AC I$ AC G$ X*AC BzPLRx ,$+AC I4TAC J,XGAC C<=<-<<j-y<-n<-f<=_<=X<J-M<-7<j-#<-<H-<-<-;-/;-;-~:-I:j-A:-:-9l-9i=9S-9N-9o-~9n-T9+9t-9S- 9l-8S-8n-8v8l-^8i=R8S-M8v-<8m-/88n-77U-7S-7l-j7S-c7y-M7p-7n-66i=6l-6S-6z-6n-b6=6l-%6i=6S-6w-6s-5n-55l-u5i=i5S-d5u-U5s-.5n-54U-4S-4l-4S-|4n-R4-4l-4i= 4S-4~-3s-3n-3y3U-l3S-Z3l-B3S-3n-22l-2i=2S-2}-2s-n2n-D22i=2S-1l-1S-1n-1^1i=R1S-B1l-*1S-0n-00O-0S-0l-v0S-L0n-"0/i=/S-/l-/S-/q-^/n-4//T-.S-.l-.S-.n-r.S.i=G.S-).l-.S--r--n--U-T-F-S-1-l--S-,n-,,i=,S-y,l-_,S-%,r-+n-++i=+P-+R-+[-+-i+l-Q+S-I+{-.+n-+*U-*S-*l-*S-|*n-R*7*i=+*S- *l-)S-)s-)n-t)M)i=D)l-,)S-')- )n-((i=(l-(S-(|-|(n-R(+(i=(S-(l-'S-'n-'n'i=b'S-R'l-:'S- 'n-&&U-&S-&l-&S-\&n-2&&i= &S-%l-%S-%s-~%n-T%+%i=%S-%l-$S-$n-$n$i=b$S-R$l-:$S- $n-##U-#S-#l-#S-\#n-2##i= #S-"l-"S-"s-~"n-T"+"i="S-"l-!S-!n-!n!i=b!S-R!l-:!S- !n-  U- S- l- S-\ n-2  i= S-l-S-s-~n-T+i=S-l-S-n-ni=bS-Rl-:S- n-U-S-l-S-\n-2i= S-l-S-s-~n-T+i=S-l-S-n-ni=bS-Rl-:S- n-U-S-l-S-\n-2i= S-l-S-s-~n-T+i=S-l-S-n-ni=bS-Rl-:S- n-U-S-l-S-\n-2i= S-l-S-s-~n-T+i=S-l-S-n-ni=bS-Rl-:S- n-U-S-l-S-\n-2i= S-l-S-s-~n-T+i=S-l-S-n-ni=bS-Rl-:S- n-U-S-l-S-\n-2i= S-l-S-s-~n-T0i=$P-R- [--S-l-S-n-d<i=,S- S- l-K -= -, - - p- n-t P i=D P-9 R-, [- - S- l- S- n- \ i=L S- S- l-k -] -L -7 -p-n-pi=dP-YR-L[->-,S- l-S-n-qi=eS-Dl-(S-#x- p-n-i=~P-sR-f[-X-=l-%S-n-i=l-vS-]p-.n-d-`-^-t-S-l-vS-b,n-t-S-l-S-}m-pR4U-S-l-k-----up->n-l-U-S-k----}-ubp-2h- Q-M--Y-h-Q-xU-nh-aQ-VGU-@92g-*$\-   F   E   D   C   B x h A` X H @@ 8 ( ?   > =<;:xh9`XH8@8(7 65432xh1`XH0@8(/ .-,+*xh)`XH(@8(' &%$#"xh!`XH @8( xh`XH@8( xh`XH@8(     xh `XH@8( @V8baf]XWeXc0_Z    `@ `@ `@ `@ `@ `@ `@ `@ `@ C M=[>} " @yq&p ` /P @  NEa@ WRS@ ] @  I@ @  ! @"  ##$@% &&';@(( `) @**+,?p-v`.  / 001 02 2* 3p @4 4B 5] P66< 7x 8;@9T<@<+<<<WP:|=q],@AD lgSB4M\E$&ZVD>_PyType_Ready___cxa_throw_PyvtkMultiBlockPLOT3DReader_ClassNew_PyvtkMultiBlockDataSetAlgorithm_ClassNew_PyVTKObject_New__ZL37PyvtkMultiBlockPLOT3DReader_StaticNewv__ZdlPv__ZdaPv__ZN25vtkMultiBlockPLOT3DReader3NewEv__ZN25vtkMultiBlockPLOT3DReader18RemoveAllFunctionsEv__ZNKSt3__120__vector_base_commonILb1EE20__throw_length_errorEv__ZN25vtkMultiBlockPLOT3DReader23SetByteOrderToBigEndianEv__ZN25vtkMultiBlockPLOT3DReader26SetByteOrderToLittleEndianEv__ZN25vtkMultiBlockPLOT3DReader20GetByteOrderAsStringEv__ZNSt12length_errorD1Ev_PyVTKObject_GetSet__Py_NoneStruct_PyVTKObject_GetObject__ZL35PyvtkMultiBlockPLOT3DReader_Methods_PyObject_GenericSetAttr_PyObject_GenericGetAttr_PyVTKObject_Repr__ZTVSt12length_error__ZTISt12length_error__ZN25vtkMultiBlockPLOT3DReader13SetControllerEP25vtkMultiProcessController_PyVTKObject_AsBuffer_PyVTKAddFile_vtkMultiBlockPLOT3DReader_PyErr_Clear_strcmp___cxa_allocate_exception___cxa_free_exception_strlen__Znwm__Znam_PyObject_GC_Del_PyVTKObject_Check__ZN13vtkPythonArgs13ArgCountErrorEii__ZN13vtkPythonArgs8GetValueERi__ZN25vtkMultiBlockPLOT3DReader23SetVectorFunctionNumberEi__ZN25vtkMultiBlockPLOT3DReader23SetScalarFunctionNumberEi__ZN25vtkMultiBlockPLOT3DReader14RemoveFunctionEi__ZN25vtkMultiBlockPLOT3DReader11AddFunctionEi_PyBool_FromLong_PyLong_FromLong_PyDict_SetItemString_PyVTKObject_String_PyVTKObject_SetFlag_PyBytes_FromStringAndSize_PyUnicode_FromStringAndSize_PyVTKObject_Delete_PyVTKObject_Traverse__ZN13vtkPythonUtil20GetObjectFromPointerEP13vtkObjectBase__ZL32PyvtkMultiBlockPLOT3DReader_Type_PyType_Type__Unwind_Resume_PyFloat_FromDouble_PyErr_Occurred_PyVTKClass_Add__ZN13vtkPythonArgs8GetValueERd__Py_Dealloc__ZN13vtkPythonArgs8GetValueERPc__ZNSt3__1L20__throw_length_errorEPKc__ZN13vtkObjectBase8IsTypeOfEPKc__ZN25vtkMultiBlockPLOT3DReader14SetXYZFileNameEPKc__ZN25vtkMultiBlockPLOT3DReader17CanReadBinaryFileEPKc__ZNSt11logic_errorC2EPKc__ZNSt12length_errorC1EPKc__ZN13vtkPythonArgs17GetArgAsVTKObjectEPKcRb__ZN13vtkPythonArgs8GetValueERb__ZNSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEC1ERKS5___ZN13vtkPythonArgs19GetSelfFromFirstArgEP7_objectS1___ZL53PyvtkMultiBlockPLOT3DReader_SetTwoDimensionalGeometryP7_objectS0___ZL53PyvtkMultiBlockPLOT3DReader_GetTwoDimensionalGeometryP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SafeDownCastP7_objectS0___ZL43PyvtkMultiBlockPLOT3DReader_SetHasByteCountP7_objectS0___ZL43PyvtkMultiBlockPLOT3DReader_GetHasByteCountP7_objectS0___ZL47PyvtkMultiBlockPLOT3DReader_SetAutoDetectFormatP7_objectS0___ZL47PyvtkMultiBlockPLOT3DReader_GetAutoDetectFormatP7_objectS0___ZL46PyvtkMultiBlockPLOT3DReader_RemoveAllFunctionsP7_objectS0___ZL60PyvtkMultiBlockPLOT3DReader_SetPreserveIntermediateFunctionsP7_objectS0___ZL60PyvtkMultiBlockPLOT3DReader_GetPreserveIntermediateFunctionsP7_objectS0___ZL41PyvtkMultiBlockPLOT3DReader_SetControllerP7_objectS0___ZL41PyvtkMultiBlockPLOT3DReader_GetControllerP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SetByteOrderP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_GetByteOrderP7_objectS0___ZL51PyvtkMultiBlockPLOT3DReader_SetVectorFunctionNumberP7_objectS0___ZL51PyvtkMultiBlockPLOT3DReader_GetVectorFunctionNumberP7_objectS0___ZL51PyvtkMultiBlockPLOT3DReader_SetScalarFunctionNumberP7_objectS0___ZL51PyvtkMultiBlockPLOT3DReader_GetScalarFunctionNumberP7_objectS0___ZL42PyvtkMultiBlockPLOT3DReader_RemoveFunctionP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_AddFunctionP7_objectS0___ZL46PyvtkMultiBlockPLOT3DReader_SetDoublePrecisionP7_objectS0___ZL46PyvtkMultiBlockPLOT3DReader_GetDoublePrecisionP7_objectS0___ZL51PyvtkMultiBlockPLOT3DReader_SetByteOrderToBigEndianP7_objectS0___ZL54PyvtkMultiBlockPLOT3DReader_SetByteOrderToLittleEndianP7_objectS0___ZL52PyvtkMultiBlockPLOT3DReader_TwoDimensionalGeometryOnP7_objectS0___ZL42PyvtkMultiBlockPLOT3DReader_HasByteCountOnP7_objectS0___ZL46PyvtkMultiBlockPLOT3DReader_AutoDetectFormatOnP7_objectS0___ZL59PyvtkMultiBlockPLOT3DReader_PreserveIntermediateFunctionsOnP7_objectS0___ZL45PyvtkMultiBlockPLOT3DReader_DoublePrecisionOnP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_IBlankingOnP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_BinaryFileOnP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_MultiGridOnP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_ForceReadOnP7_objectS0___ZL48PyvtkMultiBlockPLOT3DReader_GetByteOrderAsStringP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SetIBlankingP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_GetIBlankingP7_objectS0___ZL53PyvtkMultiBlockPLOT3DReader_TwoDimensionalGeometryOffP7_objectS0___ZL43PyvtkMultiBlockPLOT3DReader_HasByteCountOffP7_objectS0___ZL47PyvtkMultiBlockPLOT3DReader_AutoDetectFormatOffP7_objectS0___ZL60PyvtkMultiBlockPLOT3DReader_PreserveIntermediateFunctionsOffP7_objectS0___ZL46PyvtkMultiBlockPLOT3DReader_DoublePrecisionOffP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_IBlankingOffP7_objectS0___ZL41PyvtkMultiBlockPLOT3DReader_BinaryFileOffP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_MultiGridOffP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_ForceReadOffP7_objectS0___ZL36PyvtkMultiBlockPLOT3DReader_IsTypeOfP7_objectS0___ZL43PyvtkMultiBlockPLOT3DReader_AddFunctionNameP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_SetFileNameP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_GetFileNameP7_objectS0___ZL47PyvtkMultiBlockPLOT3DReader_SetFunctionFileNameP7_objectS0___ZL47PyvtkMultiBlockPLOT3DReader_GetFunctionFileNameP7_objectS0___ZL42PyvtkMultiBlockPLOT3DReader_SetXYZFileNameP7_objectS0___ZL42PyvtkMultiBlockPLOT3DReader_GetXYZFileNameP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SetQFileNameP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_GetQFileNameP7_objectS0___ZL41PyvtkMultiBlockPLOT3DReader_SetBinaryFileP7_objectS0___ZL41PyvtkMultiBlockPLOT3DReader_GetBinaryFileP7_objectS0___ZL45PyvtkMultiBlockPLOT3DReader_CanReadBinaryFileP7_objectS0___ZL39PyvtkMultiBlockPLOT3DReader_NewInstanceP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SetMultiGridP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_GetMultiGridP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_SetForceReadP7_objectS0___ZL40PyvtkMultiBlockPLOT3DReader_GetForceReadP7_objectS0___ZL36PyvtkMultiBlockPLOT3DReader_SetGammaP7_objectS0___ZL36PyvtkMultiBlockPLOT3DReader_GetGammaP7_objectS0___ZL32PyvtkMultiBlockPLOT3DReader_SetRP7_objectS0___ZL32PyvtkMultiBlockPLOT3DReader_GetRP7_objectS0___ZL31PyvtkMultiBlockPLOT3DReader_IsAP7_objectS0___ZN13vtkPythonArgs8GetValueERNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEE__ZN25vtkMultiBlockPLOT3DReader15AddFunctionNameERKNSt3__112basic_stringIcNS0_11char_traitsIcEENS0_9allocatorIcEEEEGCC_except_table72GCC_except_table71___gxx_personality_v0GCC_except_table70