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EmptyDimensionV.EmptyDimension(int) -> bool C++: bool EmptyDimension(int i) Whether dimension i is empty, e.g. if the data set is type VTK_XY_PLANE SetDimensionsV.SetDimensions(int, int, int, int, int, int, int) C++: void SetDimensions(int ilo, int jlo, int klo, int ihi, int jhi, int khi, int desc=VTK_XYZ_GRID) V.SetDimensions((int, int, int), (int, int, int), int) C++: void SetDimensions(const int lo[3], const int hi[3], int desc=VTK_XYZ_GRID) V.SetDimensions((int, int, int, int, int, int), int) C++: void SetDimensions(const int dims[6], int desc=VTK_XYZ_GRID) Set the dimensions of the box. ilo,jlo,klo,ihi,jhi,khi GetDimensionsV.GetDimensions([int, int, int], [int, int, int]) C++: void GetDimensions(int lo[3], int hi[3]) V.GetDimensions([int, int, int, int, int, int]) C++: void GetDimensions(int dims[6]) Get the dimensions of this box. (ilo,jlo,jhi),(ihi,jhi,khi) GetNumberOfCellsV.GetNumberOfCells() -> int C++: vtkIdType GetNumberOfCells() V.GetNumberOfCells([int, int, int]) C++: void GetNumberOfCells(int num[3]) Gets the number of cells enclosed by the box. GetNumberOfNodesV.GetNumberOfNodes([int, int, int]) C++: void GetNumberOfNodes(int ext[3]) V.GetNumberOfNodes() -> int C++: vtkIdType GetNumberOfNodes() Gets the number of nodes required to construct a physical representation of the box. ComputeDimensionV.ComputeDimension() -> int C++: int ComputeDimension() Determines the dimension of the AMR box given the box indices. Note, the AMR box can be on an arbitrary axis-aligned plane, i.e., XZ or YZ. GetLoCornerV.GetLoCorner() -> (int, ...) C++: const int *GetLoCorner() Get the low corner index. GetHiCornerV.GetHiCorner() -> (int, ...) C++: const int *GetHiCorner() GetValidHiCornerV.GetValidHiCorner([int, int, int]) C++: void GetValidHiCorner(int hi[3]) Return a high corner. If dimension j is empty, then hi[j] is set from lo[j]. This is convenient For algorithm that must iterate over all cells EmptyV.Empty() -> bool C++: bool Empty() IsInvalidV.IsInvalid() -> bool C++: bool IsInvalid() Check to see if the AMR box instance is invalid. SerializeV.Serialize([int, ...], int) C++: void Serialize(unsigned char *&buffer, vtkIdType &bytesize) V.Serialize([int, ...]) C++: void Serialize(int *buffer) Serializes this object instance into a byte-stream. buffer -- user-supplied pointer where the serialized object is stored. bytesize -- number of bytes, i.e., the size of the buffer. NOTE: buffer is allocated internally by this method. Pre-conditions: buffer == nullptr Post-conditions: buffer != nullptr bytesize != 0 DeserializeV.Deserialize([int, ...], int) C++: void Deserialize(unsigned char *buffer, const vtkIdType &bytesize) Deserializes this object instance from the given byte-stream. Pre-conditions: buffer != nullptr bytesize != 0 DoesBoxIntersectAlongDimensionV.DoesBoxIntersectAlongDimension(vtkAMRBox, int) -> bool C++: bool DoesBoxIntersectAlongDimension(const vtkAMRBox &other, const int q) Checks if this instance of vtkAMRBox intersects with the box passed through the argument list along the given dimension q. True is returned iff the box intersects successfully. Otherwise, there is no intersection along the given dimension and false is returned. DoesIntersectV.DoesIntersect(vtkAMRBox) -> bool C++: bool DoesIntersect(const vtkAMRBox &other) CoarsenV.Coarsen(int) C++: void Coarsen(int r) Coarsen the box. RefineV.Refine(int) C++: void Refine(int r) Refine the box. GrowV.Grow(int) C++: void Grow(int byN) Grows the box in all directions. ShrinkV.Shrink(int) C++: void Shrink(int byN) Grows the box in all directions. ShiftV.Shift(int, int, int) C++: void Shift(int i, int j, int k) V.Shift((int, int, int)) C++: void Shift(const int I[3]) Shifts the box in index space IntersectV.Intersect(vtkAMRBox) -> bool C++: bool Intersect(const vtkAMRBox &other) Intersect this box with another box in place. Returns true if the boxes do intersect. Note that the box is modified to be the intersection or is made invalid. ContainsV.Contains(int, int, int) -> bool C++: bool Contains(int i, int j, int k) V.Contains((int, int, int)) -> bool C++: bool Contains(const int I[3]) V.Contains(vtkAMRBox) -> bool C++: bool Contains(const vtkAMRBox &) Test to see if a given cell index is inside this box. GetGhostVectorV.GetGhostVector(int, [int, int, int, int, int, int]) C++: void GetGhostVector(int r, int nghost[6]) Given an AMR box and the refinement ratio, r, this method computes the number of ghost layers in each of the 6 directions, i.e., [imin,imax,jmin,jmax,kmin,kmax] RemoveGhostsV.RemoveGhosts(int) C++: void RemoveGhosts(int r) Given an AMR box and the refinement ratio, r, this shrinks the AMRBox GetBytesizeV.GetBytesize() -> int C++: static vtkIdType GetBytesize() Returns the number of bytes allocated by this instance. In addition, this number of bytes corresponds to the buffer size required to serialize any vtkAMRBox instance. GetCellLinearIndexV.GetCellLinearIndex(vtkAMRBox, int, int, int, [int, int, int]) -> int C++: static int GetCellLinearIndex(const vtkAMRBox &box, const int i, const int j, const int k, int imageDimension[3]) Returns the linear index of the given cell structured coordinates GetBoundsV.GetBounds(vtkAMRBox, (float, float, float), (float, float, float), [float, float, float, float, float, float]) C++: static void GetBounds(const vtkAMRBox &box, const double origin[3], const double spacing[3], double bounds[6]) Get the bounds of this box. GetBoxOriginV.GetBoxOrigin(vtkAMRBox, (float, float, float), (float, float, float), [float, float, float]) C++: static void GetBoxOrigin(const vtkAMRBox &box, const double X0[3], const double spacing[3], double x0[3]) Get the world space origin of this box. The origin is the location of the lower corner cell's lower corner node, HasPointV.HasPoint(vtkAMRBox, (float, float, float), (float, float, float) , float, float, float) -> bool C++: static bool HasPoint(const vtkAMRBox &box, const double origin[3], const double spacing[3], double x, double y, double z) Checks if the point is inside this AMRBox instance. x,y,z the world point ComputeStructuredCoordinatesV.ComputeStructuredCoordinates(vtkAMRBox, (float, float, float), ( float, float, float), (float, float, float), [int, int, int], [float, float, float]) -> int C++: static int ComputeStructuredCoordinates(const vtkAMRBox &box, const double dataOrigin[3], const double h[3], const double x[3], int ijk[3], double pcoords[3]) Compute structured coordinates @PP|i *i *i@P|i *ip_void@P *i@W vtkAMRBoxCPI!A9{ &P ` pXA9!@ a a a!!!pa a5a!!5XA8:#XAl:a a0!a!a"a@#a#!%a&%!'vap)a *`*z,./]@1k36a4a6a7a8!A:8!A:zRx $HCAC $D{AC B$l&AC B$ AC ,AC K$AC G$AC I$<(AC I$d AC I$AC G$AC G$XAC G$ЭAC I$,XAC I$T5AC I$|AC G$AC G$AC I$AC I$xAC I$DAC I$lAC I$AC I$AC G$0AC I$ %AC G$4 vAC I$\xAC I$`AC E$8zAC E$AC H$xAC H$$ ]AC H$LXkAC H$t6AC I$AC I$AC I$xAC IzPLRx ,$IAC C4TpAC P4X5AC M4`#AC M,hAC G,,AC G9L-9-9=y9Q-j9-\9=U9F-M9F9v-79-)9Y-98=8L-8-8I-8Q-8F-|8u8x-g8-U8S-H8"877-7I-7Q-7;-7-x7S-k7>7R-76=6Q-6-6=67-6;-6-6Y-\6R-26 6=5-5=5J=5;-5g-5[-5Y-z5Q-<5R-55=4-4=4Q-4J=4;-4f-o4[-Q4Y-;4Y-3R-33=3-3=3I-m3Q-R3>-E3;-@3]-3;-2_-2;-2j-E2W-%2Y-2W-1W-1W-1S-1d1O1=91-1=1I-1Q-07-0;-0q-0Z-0Z-0Z-p0W-V0W-80S-+00/=/-/=/I-/Q-l/J=`/;-[/]--+;-+_-|+;-]+i-2+Y-+[-+[-*[-*S-***=o*?-\*;-U*Q-0* *Q-)J=);-)e-)[-)R-)b)-;)=2)Q-)J=);- )_-(;-(~-(Y-u([-?(R-((='Q-'P-''b-'&'7-';-'-l'[-['[-J'[-'R-&&7-}&I-h&Q-?&;-8&s-(&S-&%R-%%-%Q-z%Q-Y%=P%P-I%=%J=1%;-,%l-%Y-$R-$$m-$[-$[-|$[-N$R-%$#=#Q-#J=#;-#o-#[-~#R-T#-#Q-#J= #;-#k-"[-"R-"}"Q-e"J=Y";-T"n-E"[-"R-!!Q-!J=!;-!p-![-n!R-D!!7- I- Q- ;- {- S- ^ R-4  7-I-Q-;--[-xS-k>R-L--J=-;-}^-g;-Dc-HQ-\-xX-@U--M-R-L--J=o-P;-K_-5;--.Q-Q-P-QY-V-M-R-;-O-;-N-u;-pt-X\-CX-U-M-R-o7-eQ-M;- R-7-Q-;-LR-"=Q--=J=;-_-;-v-TY-R-=E-`-Q-y;-^R-4E-`-Q-;-R-P>-FQ-.;-'- R--=Q-Q-~=uP-n\=R?-E;-=-#R-=J=;-_-;--`Y--R-=Q--=Q-z=qP-jX=NJ=B;-=_-$;--Y-R-f=\?-K;-C-R-=-Q-Q-y=pP-i]J=Q;-L_-3;-|- Y- R- l ;-B _-) ;- }- Y- Y- R-W 0 = Q- P-  - b-  -m J=a ;-X h-/ [- [- [- [- [- [- [-h R-9  Q- 7- ;- [-~ R-T ! 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