Utility functions for 2D and 3D graph based conforming simplical meshes. More...

Functions
double	WlzCMeshElmMaxSqEdgLen2D (WlzCMeshElm2D *elm)
	Computes the mesh maximum edge length of the given element. More...

double	WlzCMeshElmMaxSqEdgLen2D5 (WlzCMeshElm2D5 *elm)
	Computes the mesh maximum edge length of the given element. More...

double	WlzCMeshElmMaxSqEdgLen3D (WlzCMeshElm3D *elm)
	Computes the mesh maximum edge length of the given element. More...

void	WlzCMeshUpdateMaxSqEdgLen2D (WlzCMesh2D *mesh)
	Computes the mesh maximum edge length which is used to terminate vertex location. This should not be allowed to become less than the actual maximum edge length or vertex location may fail, also if it is far larger than the actual maximum edge length then vertex location will be inefficient when vertices are outside the mesh. More...

void	WlzCMeshUpdateMaxSqEdgLen2D5 (WlzCMesh2D5 *mesh)
	Computes the mesh maximum edge length which is used to terminate vertex location. This should not be allowed to become less than the actual maximum edge length or vertex location may fail, also if it is far larger than the actual maximum edge length then vertex location will be inefficient when vertices are outside the mesh. More...

void	WlzCMeshUpdateMaxSqEdgLen3D (WlzCMesh3D *mesh)
	Computes the mesh maximum edge length which is used to terminate vertex location. This should not be allowed to become less than the actual maximum edge length or vertex location may fail, also if it is far larger than the actual maximum edge length then vertex location will be inefficient when vertices are outside the mesh. More...

void	WlzCMeshUpdateBBox2D (WlzCMesh2D *mesh)
	Updates the bounding box of the 2D conforming mesh. More...

void	WlzCMeshUpdateBBox2D5 (WlzCMesh2D5 *mesh)
	Updates the bounding box of the 2D5 conforming mesh. More...

void	WlzCMeshUpdateBBox3D (WlzCMesh3D *mesh)
	Updates the bounding box of the 3D conforming mesh. More...

void	WlzCMeshSetNodFlags (WlzCMeshP mesh, unsigned int flags)
	Sets the node flags for all valid nodes of the mesh. More...

void	WlzCMeshSetNodFlags2D (WlzCMesh2D *mesh, unsigned int flags)
	Sets node flags for all valid nodes of the 2D mesh. More...

void	WlzCMeshSetNodFlags3D (WlzCMesh3D *mesh, unsigned int flags)
	Sets node flags for all valid nodes of the 3D mesh. More...

void	WlzCMeshClearNodFlags (WlzCMeshP mesh, unsigned int flags)
	Clears the node flags for all valid nodes of the mesh. More...

void	WlzCMeshClearNodFlags2D (WlzCMesh2D *mesh, unsigned int flags)
	Clears node flags for all valid nodes of the 2D mesh. More...

void	WlzCMeshClearNodFlags3D (WlzCMesh3D *mesh, unsigned int flags)
	Clears node flags for all valid nodes of the 3D mesh. More...

void	WlzCMeshClearElmFlags (WlzCMeshP mesh, unsigned int flags)
	Clears the element flags for all valid elements of the mesh. More...

void	WlzCMeshClearElmFlags2D (WlzCMesh2D *mesh, unsigned int flags)
	Clears element flags for all valid elements of the 2D mesh. More...

void	WlzCMeshClearElmFlags3D (WlzCMesh3D *mesh, unsigned int flags)
	Clears element flags for all valid elements of the 3D mesh. More...

int	WlzCMeshSetBoundNodFlags (WlzCMeshP mesh)
	Sets or clears the boundary node flag bit for all nodes of the mesh. More...

int	WlzCMeshSetBoundNodFlags2D (WlzCMesh2D *mesh)
	Sets or clears the boundary node flag bit for all nodes of the 2D mesh. More...

int	WlzCMeshSetBoundNodFlags2D5 (WlzCMesh2D5 *mesh)
	Sets or clears the boundary node flag bit for all nodes of the 2D5 mesh. More...

int	WlzCMeshSetBoundNodFlags3D (WlzCMesh3D *mesh)
	Sets or clears the boundary node flag bit for all nodes of the 3D mesh. More...

WlzErrorNum	WlzCMeshGetBoundNodes (WlzCMeshP mesh, int dstNNod, int *dstNod)
	Gets the indeces of the boundary nodes of the mesh. The boundary nodes will be unordered. More...

WlzErrorNum	WlzCMeshGetBoundNodes2D (WlzCMesh2D mesh, int dstNNod, int **dstNod)
	Gets the indeces of the boundary nodes of the 2D mesh. More...

WlzErrorNum	WlzCMeshGetBoundNodes2D5 (WlzCMesh2D5 mesh, int dstNNod, int **dstNod, int ordered)
	Gets the indices of the boundary nodes of the 2D5 mesh. More...

WlzErrorNum	WlzCMeshGetBoundNodes3D (WlzCMesh3D mesh, int dstNNod, int **dstNod)
	Gets the indeces of the boundary nodes of the 3D mesh. More...

int	WlzCMeshCountBoundNodes (WlzCMeshP mesh)
	Counts the number of boundary nodes of the mesh. More...

int	WlzCMeshCountBoundNodes2D (WlzCMesh2D *mesh)
	Counts the number of boundary nodes of the 2D mesh. More...

int	WlzCMeshCountBoundNodes2D5 (WlzCMesh2D5 *mesh)
	Counts the number of boundary nodes of the 2D5 mesh. More...

int	WlzCMeshCountBoundNodes3D (WlzCMesh3D *mesh)
	Counts the number of boundary nodes of the 3D mesh. More...

int	WlzCMeshSetBoundElmFlags (WlzCMeshP mesh)
	Sets or clears the boundary element flag bit for all elements of the mesh. More...

int	WlzCMeshSetBoundElmFlags2D (WlzCMesh2D *mesh)
	Sets or clears the boundary element flag bit for all elements of the 2D mesh. More...

int	WlzCMeshSetBoundElmFlags3D (WlzCMesh3D *mesh)
	Sets or clears the boundary element flag bit for all elements of the 3D mesh. More...

int	WlzCMeshNodIsBoundary2D (WlzCMeshNod2D *nod)
	Checks whether the node is a boundary node by examining the edges which use the node. If one of these edges does not have an opposite edge (other than itself) the node is a boundary node. More...

int	WlzCMeshNodIsBoundary2D5 (WlzCMeshNod2D5 *nod)
	Checks whether the node is a boundary node by examining the edges which use the node. If one of these edges does not have an opposite edge (other than itself) the node is a boundary node. More...

int	WlzCMeshNodIsBoundary3D (WlzCMeshNod3D *nod)
	Checks whether the node is a boundary node by examining the faces which use the node. If one of these faces does not have an opposite face (other than itself) the node is a boundary node. More...

int	WlzCMeshElmIsBoundary2D (WlzCMeshElm2D *elm)
	Checks whether the element is a boundary node by examining the edges for opposite edges. More...

int	WlzCMeshElmIsBoundary3D (WlzCMeshElm3D *elm)
	Checks whether the element is a boundary node by examining the faces for opposite faces. More...

WlzErrorNum	WlzCMeshLaplacianSmooth (WlzCMeshP mesh, int itr, double alpha, int doBnd, int update)
	Applies a Laplacian smoothing to the 2D mesh in which nodes are iteratively moved to the centroid of their imediate neighbours. If a node is on a boundary of the mesh then it is moved on the boundary, ie to the centroid of it's neighboring boundary nodes. Before calling this function all nodes must have had the boundary node flag bit set or cleared appropriately. This function will shrink meshes when the boundary parameter is set. More...

WlzErrorNum	WlzCMeshLaplacianSmooth2D (WlzCMesh2D *mesh, int itr, double alpha, int doBnd, int update)
	Applies a Laplacian smoothing to the 2D mesh in which nodes are iteratively moved to the centroid of their imediate neighbours. See WlzCMeshLaplacianSmooth(). More...

WlzErrorNum	WlzCMeshLaplacianSmooth3D (WlzCMesh3D *mesh, int itr, double alpha, int doBnd, int update)
	Applies a Laplacian smoothing to the 3D mesh in which nodes are iteratively moved to the centroid of their imediate neighbours. See WlzCMeshLaplacianSmooth(). More...

WlzErrorNum	WlzCMeshLPFilter (WlzCMeshP mesh, double kPB, double kSB, double dPB, double dSB, int maxItr, int doBnd, int update)
	Applies a low pass filter to the mesh in which nodes are moved. If a node is on a boundary of the mesh then it is moved on the boundary. Before calling this function all nodes must have had the boundary node flag bit set or cleared appropriately. This function should not significantly shrink meshes because it applies a low pass filter. More...

WlzErrorNum	WlzCMeshLPFilterLM (WlzCMeshP mesh, double lambda, double mu, int nItr, int doBnd, int update)
	Applies a low pass filter to the geometry of the given mesh. See WlzGMFilterGeomLPLM(). This will change the boundary node/element flags. More...

WlzErrorNum	WlzCMeshSetVertices (WlzCMeshP mesh, WlzVertexP vtxBuf, int update)
	Sets the position of all valid nodes in the mesh. The mesh will still need to have it's bounding box, maximum edge length and grid box set after this function has repositioned the nodes. Vertex type must be correct for mesh type, ie WlzDVertex2 for WlzCMesh2D and WlzDVertex3 for WlzCMesh3D. More...

void	WlzCMeshSetVertices2D (WlzCMesh2D mesh, WlzDVertex2 vtxBuf, int update)
	Sets the position of all valid nodes in the mesh. The mesh will still need to have it's bounding box, maximum edge length and grid box set after this function has repositioned the nodes. The parameters are assumed vaild. More...

void	WlzCMeshSetVertices3D (WlzCMesh3D mesh, WlzDVertex3 vtxBuf, int update)
	Sets the position of all valid nodes in the mesh. The mesh will still need to have it's bounding box, maximum edge length and grid box set after this function has repositioned the nodes. The parameters are assumed vaild. More...

WlzErrorNum	WlzCMeshVerify (WlzCMeshP mesh, void *dstElm, int allErr, FILE fP)
	Checks that the 2D or 3D mesh has valid connectivities. This function is slow and should only be used when debugging mesh connectivities - it is not intended for routine use. With an invalid mesh this checking function may provoke NULL pointer access or segmentation faults. More...

WlzErrorNum	WlzCMeshVerify2D (WlzCMesh2D mesh, WlzCMeshElm2D dstElm, int allErr, FILE fP)
	Checks that the 2D mesh has valid connectivities. This function is slow and should only be used when debugging mesh connectivities - it is not intended for routine use. With an invalid mesh this checking function may provoke NULL pointer access or segmentation faults. More...

WlzErrorNum	WlzCMeshVerify2D5 (WlzCMesh2D5 mesh, WlzCMeshElm2D5 dstElm, int allErr, FILE fP)
	Checks that the 2D5 mesh has valid connectivities. This function is slow and should only be used when debugging mesh connectivities - it is not intended for routine use. With an invalid mesh this checking function may provoke NULL pointer access or segmentation faults. More...

WlzErrorNum	WlzCMeshVerify3D (WlzCMesh3D mesh, WlzCMeshElm3D dstElm, int allErr, FILE fP)
	Checks that the 3D mesh has valid connectivities. This function is slow and should only be used when debugging mesh connectivities - it is not intended for routine use. With an invalid mesh this checking function may provoke NULL pointer access or segmentation faults. More...

WlzErrorNum	WlzCMeshCmpElmFeat (WlzCMeshP mesh, int dstNElm, int dstIdx, double dstVol, double dstMinLen, double *dstMaxLen)
	Computes some simple geometric features of all valid elements in a mesh. More...

WlzErrorNum	WlzCMeshCmpElmFeat2D (WlzCMesh2D mesh, int dstNElm, int dstIdx, double dstVol, double dstMinLen, double dstMaxLen)
	Computes some simple geometric features of all valid elements in a 2D mesh. More...

WlzErrorNum	WlzCMeshCmpElmFeat3D (WlzCMesh3D mesh, int dstNElm, int dstIdx, double dstVol, double dstMinLen, double dstMaxLen)
	Computes some simple geometric features of all valid elements in a 3D mesh. More...

double	WlzCMeshElmSnArea22D (WlzCMeshElm2D *elm)
	Computes twice the signed area of the 2D mesh element. More...

double	WlzCMeshElmSqArea22D5 (WlzCMeshElm2D5 *elm)
	Computes twice the square of te area of the 2D5 mesh element. More...

double	WlzCMeshElmSnVolume63D (WlzCMeshElm3D *elm)
	Computes six times the signed volume of the 3D mesh element. More...

void	WlzCMeshElmGetNodes2D (WlzCMeshElm2D elm, WlzCMeshNod2D dstNod0, WlzCMeshNod2D dstNod1, WlzCMeshNod2D *dstNod2)
	Gets the three nodes of a 2D element. More...

void	WlzCMeshElmGetNodes2D5 (WlzCMeshElm2D5 elm, WlzCMeshNod2D5 dstNod0, WlzCMeshNod2D5 dstNod1, WlzCMeshNod2D5 *dstNod2)
	Gets the three nodes of a 2D5 element. More...

void	WlzCMeshElmGetNodes3D (WlzCMeshElm3D elm, WlzCMeshNod3D dstNod0, WlzCMeshNod3D dstNod1, WlzCMeshNod3D dstNod2, WlzCMeshNod3D *dstNod3)
	Gets the four nodes of a 3D element. More...

WlzDBox2	WlzCMeshElmBBox2D (WlzCMeshElm2D *elm)
	Gets the axis aligned bounding box of a 2D element. More...

WlzDBox3	WlzCMeshElmBBox2D5 (WlzCMeshElm2D5 *elm)
	Gets the axis aligned bounding box of a 3D element. More...

WlzDBox3	WlzCMeshElmBBox3D (WlzCMeshElm3D *elm)
	Gets the axis aligned bounding box of a 3D element. More...

int	WlzCMeshElmUseNod3D (WlzCMeshNod3D gNod, int gMaxElm, int *gElmIdxAry, WlzErrorNum dstErr)
	Finds the elements which use the given node and returns their indices in an array. The indices are unique and in acending order. The array will be resized as needed. More...

WlzCMeshP	WlzCMeshCopy (WlzCMeshP gvnMesh, int squeeze, size_t datSz, AlcVector *newDat, AlcVector gvnDat, WlzErrorNum *dstErr)
	Creates a copy of the given constrained mesh. If the squeeze flag is set then the copy will have all invalid (deleted) entities squeezed out so that the mew mesh will only have valid mesh entities that are contiguous and start with index 0. As well as copying the given mesh this function will also copy data associated with the nodes of the mesh. The associated data are held in AlcVector data structures and are indexed using the node index. If (datSz == 0) \|\| (newDat == NULL) \|\| (gvnDat == NULL) then the associated data will be ignored. More...

WlzCMesh2D *	WlzCMeshCopy2D (WlzCMesh2D gvnMesh, int squeeze, size_t datSz, AlcVector newDat, AlcVector gvnDat, WlzErrorNum *dstErr)
	Creates a copy of the given constrained mesh. If the squeeze flag is set then the copy will have all invalid (deleted) entities squeezed out so that the mew mesh will only have valid mesh entities that are contiguous and start with index 0. As well as copying the given mesh this function will also copy data associated with the nodes of the mesh. The associated data are held in AlcVector data structures and are indexed using the node index. If (datSz == 0) \|\| (newDat == NULL) \|\| (gvnDat == NULL) then the associated data will be ignored. More...

WlzCMesh2D5 *	WlzCMeshCopy2D5 (WlzCMesh2D5 gvnMesh, int squeeze, size_t datSz, AlcVector newDat, AlcVector gvnDat, WlzErrorNum *dstErr)
	Creates a copy of the given constrained mesh. If the squeeze flag is set then the copy will have all invalid (deleted) entities squeezed out so that the mew mesh will only have valid mesh entities that are contiguous and start with index 0. As well as copying the given mesh this function will also copy data associated with the nodes of the mesh. The associated data are held in AlcVector data structures and are indexed using the node index. If (datSz == 0) \|\| (newDat == NULL) \|\| (gvnDat == NULL) then the associated data will be ignored. More...

WlzCMesh3D *	WlzCMeshCopy3D (WlzCMesh3D gvnMesh, int squeeze, size_t datSz, AlcVector newDat, AlcVector gvnDat, WlzErrorNum *dstErr)
	Creates a copy of the given constrained mesh. If the squeeze flag is set then the copy will have all invalid (deleted) entities squeezed out so that the mew mesh will only have valid mesh entities that are contiguous and start with index 0. As well as copying the given mesh this function will also copy data associated with the nodes of the mesh. The associated data are held in AlcVector data structures and are indexed using the node index. If (datSz == 0) \|\| (newDat == NULL) \|\| (gvnDat == NULL) then the associated data will be ignored. More...

WlzErrorNum	WlzCMeshFixNegativeElms (WlzCMeshP mesh)
	Reorders nodes in any elements which have negative area. More...

WlzErrorNum	WlzCMeshFixNegativeElms2D (WlzCMesh2D *mesh)
	Reorders nodes in any elements which have negative area. More...

WlzErrorNum	WlzCMeshFixNegativeElms3D (WlzCMesh3D *mesh)
	Reorders nodes in any elements which have negative area. More...

void	WlzCMeshGetCellStats (WlzCMeshP mesh, int dstMinNodPerCell, int dstMaxNodPerCell, double dstMeanNodPerCell, int dstMinElmPerCell, int dstMaxElmPerCell, double dstMeanElmPerCell)
	Computes simple mesh node and element grid cell location statistics. This function is probably only useful for optimising the number of location cells allocated. More...

void	WlzCMeshGetCellStats2D (WlzCMesh2D mesh, int dstMinNodPerCell, int dstMaxNodPerCell, double dstMeanNodPerCell, int dstMinElmPerCell, int dstMaxElmPerCell, double *dstMeanElmPerCell)
	Computes simple 2D mesh node and element grid cell location statistics. This function is probably only useful for optimising the number of location cells allocated. More...

void	WlzCMeshGetCellStats3D (WlzCMesh3D mesh, int dstMinNodPerCell, int dstMaxNodPerCell, double dstMeanNodPerCell, int dstMinElmPerCell, int dstMaxElmPerCell, double *dstMeanElmPerCell)
	Computes simple 3D mesh node and element grid cell location statistics. This function is probably only useful for optimising the number of location cells allocated. More...

int *	WlzCMeshMakeNodIdxTbl2D (WlzCMesh2D mesh, int dstNNod)
	Allocates and populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table is the maximum number of nodes allocated in the mesh. More...

int *	WlzCMeshMakeNodIdxTbl2D5 (WlzCMesh2D5 mesh, int dstNNod)
	Allocates and populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table is the maximum number of nodes allocated in the mesh. More...

int *	WlzCMeshMakeNodIdxTbl3D (WlzCMesh3D mesh, int dstNNod)
	Allocates and populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table is the maximum number of nodes allocated in the mesh. More...

int	WlzCMeshSetNodIdxTbl2D (WlzCMesh2D mesh, int idxTb)
	Populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table must be at least the maximum number of nodes allocated in the mesh. More...

int	WlzCMeshSetNodIdxTbl2D5 (WlzCMesh2D5 mesh, int idxTb)
	Populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table must be at least the maximum number of nodes allocated in the mesh. More...

int	WlzCMeshSetNodIdxTbl3D (WlzCMesh3D mesh, int idxTb)
	Populates a node look up table which maps node indices to the range 0 - (n nodes - 1). The size of the look up table must be at least the maximum number of nodes allocated in the mesh. More...

int *	WlzCMeshMakeElmIdxTbl2D (WlzCMesh2D mesh, int dstNElm)
	Allocates and populates an element look up table which maps element indices to the range 0 - (n elements - 1). The size of the look up table is the maximum number of elements allocated in the mesh. More...

int *	WlzCMeshMakeElmIdxTbl2D5 (WlzCMesh2D5 mesh, int dstNElm)
	Allocates and populates an element look up table which maps element indices to the range 0 - (n elements - 1). The size of the look up table is the maximum number of elements allocated in the mesh. More...

int *	WlzCMeshMakeElmIdxTbl3D (WlzCMesh3D mesh, int dstNElm)
	Allocates and populates an element look up table which maps element indices to the range 0 - (n elements - 1). The size of the look up table is the maximum number of elements allocated in the mesh. More...

int	WlzCMeshSetElmIdxTbl2D (WlzCMesh2D mesh, int idxTb)
	Populates a element look up table which maps ellement indices to the range 0 - (n elements - 1). The size of the look up table must be at least the maximum number of elements allocated in the mesh. More...

int	WlzCMeshSetElmIdxTbl2D5 (WlzCMesh2D5 mesh, int idxTb)
	Populates a element look up table which maps ellement indices to the range 0 - (n elements - 1). The size of the look up table must be at least the maximum number of elements allocated in the mesh. More...

int	WlzCMeshSetElmIdxTbl3D (WlzCMesh3D mesh, int idxTb)
	Populates a element look up table which maps ellement indices to the range 0 - (n elements - 1). The size of the look up table must be at least the maximum number of elements allocated in the mesh. More...

int	WlzCMeshNodNbrCnt2D5 (WlzCMeshNod2D5 *nod)
	Computes the number of nodes directly connected to the given node. More...

int	WlzCMeshNodRingNodIndices2D (WlzCMeshNod2D nod, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the nodes that form a ring or partial rings around the given node. Where members of the ring are the immediate neighbours of the given node. The given node's index will always be the first in the buffer but the remainder of the node indices may be unsorted. More...

int	WlzCMeshNodRingNodIndices2D5 (WlzCMeshNod2D5 nod, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the nodes that form a ring or partial rings around the given node. Where members of the ring are the immediate neighbours of the given node. The given node's index will always be the first in the buffer but the remainder of the node indices may be unsorted. More...

int	WlzCMeshNodRingNodIndices3D (WlzCMeshNod3D nod, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the nodes that form a ring or partial rings around the given node. Where members of the ring are the immediate neighbours of the given node. The given node's index will always be the first in the buffer but the remainder of the node indices may be unsorted. More...

int	WlzCMeshNodRingElmIndices2D5 (WlzCMeshNod2D5 nod, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the elements that form a ring or partial rings around the given node. Where members of the ring are immediate neighbours of the given node. The element indices may be unsorted. More...

int	WlzCMeshElmRingNodIndices2D (WlzCMeshElm2D elm, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the nodes that form a ring or partial rings around the given element. Where members of the ring are the nodes of the element followed by the immediate edge neighbours of these nodes. The node indices may be unsorted (apart from the element nodes being first and in edge use order) but they will not have duplicates. More...

int	WlzCMeshElmRingElmIndices2D (WlzCMeshElm2D elm, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the elements that form a ring around (ie are directly connected to) the given element. The element indices will be partially ordered with the given element's index first, followed by edge connected neighbouring elements and then the remaining node only connected elements. There will not be duplicates. More...

int	WlzCMeshElmRingElmIndices3D (WlzCMeshElm3D elm, int maxIdxBuf, int *idxBuf, WlzErrorNum dstErr)
	Gathers the indices of the elements that form a ring around (ie are directly connected to) the given element. The element indices will be partially ordered with the given element's index first, followed by face connected neighbouring elements and then the remaining node or edge only connected elements. There will not be duplicates. More...

WlzErrorNum	WlzCMeshValuesNormalise (WlzObject *cObj, int mapZero, double vZero, double vMin, double vMax, double oFrac)
	Given a conforming mesh with attached values; this function normalises the values to the given range in place. If the zero value is not mapped to a given value explicitly then the the output values will be given using: \[ V = \frac{U - L}{u - l} (v - l) + L \] otherwise with the zero value explicitly mapped the values will be \[ \begin{array}{l} f = \min{\frac{U - V_0}{u}, \frac{L - V_0}{l}} \\ V = f v + V_0 \end{array} \] Here \(U\) and \(L\) are the required maximum and minimum values on return, \(u\) and \(l\) are the given mesh maximum and minimum values, \(v\) is a given value and \(V\) is a returned value. \(V_0\) is the returned value corresponding to the given value of zero. More...

WlzUByte *	WlzCMeshIndexMaskFromValueRange (WlzObject obj, double lo, double hi, int in, WlzErrorNum dstErr)
	Allocates and array of byte values and then sets these to non-zero values for the conforming mesh value indices where the values satisfy the given range test. If either the lower or upper limit is NaN then the test is simply for the conforming meshes values being NaN. More...

Detailed Description

Utility functions for 2D and 3D graph based conforming simplical meshes.

Author: Bill Hill

Date: June 2003

Version

Id: ecfe53b92228f09d5ab961c45d4626f3eeccafb1

: Address: MRC Human Genetics Unit, MRC Institute of Genetics and Molecular Medicine, University of Edinburgh, Western General Hospital, Edinburgh, EH4 2XU, UK.

: Copyright (C), [2012], The University Court of the University of Edinburgh, Old College, Edinburgh, UK.

This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.

Functions

Detailed Description