VTK  9.0.1
vtkStructuredData.h
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1 /*=========================================================================
2 
3  Program: Visualization Toolkit
4  Module: vtkStructuredData.h
5 
6  Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
7  All rights reserved.
8  See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
9 
10  This software is distributed WITHOUT ANY WARRANTY; without even
11  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
12  PURPOSE. See the above copyright notice for more information.
13 
14 =========================================================================*/
29 #ifndef vtkStructuredData_h
30 #define vtkStructuredData_h
31 
32 #include "vtkCommonDataModelModule.h" // For export macro
33 #include "vtkObject.h"
34 
35 class vtkIdList;
36 
37 #define VTK_UNCHANGED 0
38 #define VTK_SINGLE_POINT 1
39 #define VTK_X_LINE 2
40 #define VTK_Y_LINE 3
41 #define VTK_Z_LINE 4
42 #define VTK_XY_PLANE 5
43 #define VTK_YZ_PLANE 6
44 #define VTK_XZ_PLANE 7
45 #define VTK_XYZ_GRID 8
46 #define VTK_EMPTY 9
47 
48 class VTKCOMMONDATAMODEL_EXPORT vtkStructuredData : public vtkObject
49 {
50 public:
51  vtkTypeMacro(vtkStructuredData, vtkObject);
52 
54 
61  static int SetDimensions(int inDim[3], int dim[3]);
62  static int SetExtent(int inExt[6], int ext[6]);
64 
66 
70  static int GetDataDescription(int dims[3]);
71  static int GetDataDescriptionFromExtent(int ext[6]);
73 
75 
78  static int GetDataDimension(int dataDescription);
79  static int GetDataDimension(int ext[6]);
81 
87  static vtkIdType GetNumberOfPoints(const int ext[6], int dataDescription = VTK_EMPTY);
88 
94  static vtkIdType GetNumberOfCells(const int ext[6], int dataDescription = VTK_EMPTY);
95 
101  static void GetCellExtentFromPointExtent(
102  const int pntExtent[6], int cellExtent[6], int dataDescription = VTK_EMPTY);
103 
108  static void GetDimensionsFromExtent(
109  const int ext[6], int dims[3], int dataDescription = VTK_EMPTY);
110 
117  static void GetCellDimensionsFromExtent(
118  const int ext[6], int celldims[3], int dataDescription = VTK_EMPTY);
119 
125  static void GetCellDimensionsFromPointDimensions(const int pntdims[3], int cellDims[3]);
126 
133  static void GetLocalStructuredCoordinates(
134  const int ijk[3], const int ext[6], int lijk[3], int dataDescription = VTK_EMPTY);
135 
141  static void GetGlobalStructuredCoordinates(
142  const int lijk[3], const int ext[6], int ijk[3], int dataDescription = VTK_EMPTY);
143 
147  static void GetCellPoints(vtkIdType cellId, vtkIdList* ptIds, int dataDescription, int dim[3]);
148 
152  static void GetPointCells(vtkIdType ptId, vtkIdList* cellIds, int dim[3]);
153 
158  static void GetCellNeighbors(vtkIdType cellId, vtkIdList* ptIds, vtkIdList* cellIds, int dim[3]);
159  static void GetCellNeighbors(
160  vtkIdType cellId, vtkIdList* ptIds, vtkIdList* cellIds, int dim[3], int seedLoc[3]);
161 
167  static vtkIdType ComputePointIdForExtent(
168  const int extent[6], const int ijk[3], int dataDescription = VTK_EMPTY);
169 
175  static vtkIdType ComputeCellIdForExtent(
176  const int extent[6], const int ijk[3], int dataDescription = VTK_EMPTY);
177 
184  static vtkIdType ComputePointId(
185  const int dim[3], const int ijk[3], int dataDescription = VTK_EMPTY);
186 
193  static vtkIdType ComputeCellId(
194  const int dim[3], const int ijk[3], int dataDescription = VTK_EMPTY);
195 
202  static void ComputeCellStructuredCoordsForExtent(
203  const vtkIdType cellIdx, const int ext[6], int ijk[3], int dataDescription = VTK_EMPTY);
204 
210  static void ComputeCellStructuredCoords(
211  const vtkIdType cellId, const int dim[3], int ijk[3], int dataDescription = VTK_EMPTY);
212 
218  static void ComputePointStructuredCoordsForExtent(
219  const vtkIdType ptId, const int ext[6], int ijk[3], int dataDescription = VTK_EMPTY);
220 
226  static void ComputePointStructuredCoords(
227  const vtkIdType ptId, const int dim[3], int ijk[3], int dataDescription = VTK_EMPTY);
228 
229 protected:
231  ~vtkStructuredData() override {}
232 
240  static vtkIdType GetLinearIndex(const int i, const int j, const int k, const int N1, const int N2)
241  {
242  return ((static_cast<vtkIdType>(k) * N2 + j) * N1 + i);
243  }
244 
246 
253  const vtkIdType idx, const int N1, const int N2, int& i, int& j, int& k)
254  {
255  vtkIdType N12 = N1 * N2;
256  k = static_cast<int>(idx / N12);
257  j = static_cast<int>((idx - k * N12) / N1);
258  i = static_cast<int>(idx - k * N12 - j * N1);
259  }
261 
262  // Want to avoid importing <algorithm> in the header...
263  template <typename T>
264  static T Max(const T& a, const T& b)
265  {
266  return (a > b) ? a : b;
267  }
268 
269 private:
270  vtkStructuredData(const vtkStructuredData&) = delete;
271  void operator=(const vtkStructuredData&) = delete;
272 };
273 
274 //------------------------------------------------------------------------------
275 inline void vtkStructuredData::GetCellDimensionsFromExtent(const int ext[6], int celldims[3], int)
276 {
277  celldims[0] = vtkStructuredData::Max(ext[1] - ext[0], 0);
278  celldims[1] = vtkStructuredData::Max(ext[3] - ext[2], 0);
279  celldims[2] = vtkStructuredData::Max(ext[5] - ext[4], 0);
280 }
281 
282 //------------------------------------------------------------------------------
283 inline vtkIdType vtkStructuredData::ComputePointId(const int dims[3], const int ijk[3], int)
284 {
285  return vtkStructuredData::GetLinearIndex(ijk[0], ijk[1], ijk[2], dims[0], dims[1]);
286 }
287 
288 //------------------------------------------------------------------------------
289 inline vtkIdType vtkStructuredData::ComputeCellId(const int dims[3], const int ijk[3], int)
290 {
291  return vtkStructuredData::GetLinearIndex(ijk[0], ijk[1], ijk[2],
292  vtkStructuredData::Max(dims[0] - 1, 1), vtkStructuredData::Max(dims[1] - 1, 1));
293 }
294 
295 //------------------------------------------------------------------------------
296 inline vtkIdType vtkStructuredData::GetNumberOfPoints(const int ext[6], int)
297 {
298  return static_cast<vtkIdType>(ext[1] - ext[0] + 1) * static_cast<vtkIdType>(ext[3] - ext[2] + 1) *
299  static_cast<vtkIdType>(ext[5] - ext[4] + 1);
300 }
301 
302 //------------------------------------------------------------------------------
303 inline vtkIdType vtkStructuredData::GetNumberOfCells(const int ext[6], int)
304 {
305  int cellDims[3];
307 
308  // Replace 0's with 1's so we can just multiply them regardless of cell type.
309  cellDims[0] = vtkStructuredData::Max(cellDims[0], 1);
310  cellDims[1] = vtkStructuredData::Max(cellDims[1], 1);
311  cellDims[2] = vtkStructuredData::Max(cellDims[2], 1);
312 
313  // Note, when we compute the result below, we statically cast to vtkIdType to
314  // ensure the compiler will generate a 32x32=64 instruction.
315  return static_cast<vtkIdType>(cellDims[0]) * static_cast<vtkIdType>(cellDims[1]) *
316  static_cast<vtkIdType>(cellDims[2]);
317 }
318 
319 //------------------------------------------------------------------------------
321  const int nodeExtent[6], int cellExtent[6], int)
322 {
323  cellExtent[0] = nodeExtent[0];
324  cellExtent[2] = nodeExtent[2];
325  cellExtent[4] = nodeExtent[4];
326 
327  cellExtent[1] = vtkStructuredData::Max(nodeExtent[0], nodeExtent[1] - 1);
328  cellExtent[3] = vtkStructuredData::Max(nodeExtent[2], nodeExtent[3] - 1);
329  cellExtent[5] = vtkStructuredData::Max(nodeExtent[4], nodeExtent[5] - 1);
330 }
331 
332 //------------------------------------------------------------------------------
333 inline void vtkStructuredData::GetDimensionsFromExtent(const int ext[6], int dims[3], int)
334 {
335  dims[0] = ext[1] - ext[0] + 1;
336  dims[1] = ext[3] - ext[2] + 1;
337  dims[2] = ext[5] - ext[4] + 1;
338 }
339 
340 //------------------------------------------------------------------------------
342  const int nodeDims[3], int cellDims[3])
343 {
344  cellDims[0] = vtkStructuredData::Max(nodeDims[0] - 1, 0);
345  cellDims[1] = vtkStructuredData::Max(nodeDims[1] - 1, 0);
346  cellDims[2] = vtkStructuredData::Max(nodeDims[2] - 1, 0);
347 }
348 
349 //------------------------------------------------------------------------------
351  const int ijk[3], const int ext[6], int lijk[3], int)
352 {
353  lijk[0] = ijk[0] - ext[0];
354  lijk[1] = ijk[1] - ext[2];
355  lijk[2] = ijk[2] - ext[4];
356 }
357 
358 //------------------------------------------------------------------------------
360  const int lijk[3], const int ext[6], int ijk[3], int)
361 {
362  ijk[0] = ext[0] + lijk[0];
363  ijk[1] = ext[2] + lijk[1];
364  ijk[2] = ext[4] + lijk[2];
365 }
366 
367 //------------------------------------------------------------------------------
369  const int extent[6], const int ijk[3], int)
370 {
371  int dims[3];
373 
374  int lijk[3];
376 
377  return vtkStructuredData::ComputePointId(dims, lijk);
378 }
379 
380 //------------------------------------------------------------------------------
382  const int extent[6], const int ijk[3], int)
383 {
384  int nodeDims[3];
386 
387  int lijk[3];
389 
390  return vtkStructuredData::ComputeCellId(nodeDims, lijk);
391 }
392 
393 //------------------------------------------------------------------------------
395  const vtkIdType cellId, const int dims[3], int ijk[3], int)
396 {
398  cellId, dims[0] - 1, dims[1] - 1, ijk[0], ijk[1], ijk[2]);
399 }
400 
401 //------------------------------------------------------------------------------
403  const vtkIdType cellIdx, const int ext[6], int ijk[3], int)
404 {
405  int nodeDims[3];
407 
408  int lijk[3];
409  vtkStructuredData::ComputeCellStructuredCoords(cellIdx, nodeDims, lijk);
410 
412 }
413 
414 //------------------------------------------------------------------------------
416  const vtkIdType ptId, const int dim[3], int ijk[3], int)
417 {
418  vtkStructuredData::GetStructuredCoordinates(ptId, dim[0], dim[1], ijk[0], ijk[1], ijk[2]);
419 }
420 
421 //------------------------------------------------------------------------------
423  const vtkIdType ptId, const int ext[6], int ijk[3], int)
424 {
425  int nodeDims[3];
427 
428  int lijk[3];
430 
432 }
433 
434 #endif
435 
436 // VTK-HeaderTest-Exclude: vtkStructuredData.h
static void ComputeCellStructuredCoordsForExtent(const vtkIdType cellIdx, const int ext[6], int ijk[3], int dataDescription=VTK_EMPTY)
Given the global grid extent and the linear index of a cell within the grid extent, this method computes the corresponding structured coordinates of the given cell.
static void GetCellDimensionsFromExtent(const int ext[6], int celldims[3], int dataDescription=VTK_EMPTY)
Returns the cell dimensions, i.e., the number of cells along the i,j,k for the grid with the given gr...
static void GetLocalStructuredCoordinates(const int ijk[3], const int ext[6], int lijk[3], int dataDescription=VTK_EMPTY)
Given the global structured coordinates for a point or cell, ijk, w.r.t.
Singleton class for topologically regular data.
abstract base class for most VTK objects
Definition: vtkObject.h:62
static vtkIdType GetNumberOfCells(const int ext[6], int dataDescription=VTK_EMPTY)
Given the grid extent, this method returns the total number of cells within the extent.
static void ComputeCellStructuredCoords(const vtkIdType cellId, const int dim[3], int ijk[3], int dataDescription=VTK_EMPTY)
Given a cellId and grid dimensions &#39;dim&#39;, get the structured coordinates (i-j-k). ...
static void GetDimensionsFromExtent(const int ext[6], int dims[3], int dataDescription=VTK_EMPTY)
Computes the structured grid dimensions based on the given extent.
static T Max(const T &a, const T &b)
static void ComputePointStructuredCoordsForExtent(const vtkIdType ptId, const int ext[6], int ijk[3], int dataDescription=VTK_EMPTY)
Given a pointId and the grid extent ext, get the structured coordinates (i-j-k).
int vtkIdType
Definition: vtkType.h:338
static void GetGlobalStructuredCoordinates(const int lijk[3], const int ext[6], int ijk[3], int dataDescription=VTK_EMPTY)
Given local structured coordinates, and the corresponding global sub-grid extent, this method compute...
~vtkStructuredData() override
#define VTK_EMPTY
static void GetCellDimensionsFromPointDimensions(const int pntdims[3], int cellDims[3])
Given the dimensions of the grid, in pntdims, this method returns the corresponding cell dimensions f...
static vtkIdType ComputePointId(const int dim[3], const int ijk[3], int dataDescription=VTK_EMPTY)
Given a location in structured coordinates (i-j-k), and the dimensions of the structured dataset...
static vtkIdType GetLinearIndex(const int i, const int j, const int k, const int N1, const int N2)
Computes the linear index for the given i-j-k structured of a grid with of N1 and N2 dimensions along...
list of point or cell ids
Definition: vtkIdList.h:30
static vtkIdType GetNumberOfPoints(const int ext[6], int dataDescription=VTK_EMPTY)
Given the grid extent, this method returns the total number of points within the extent.
static void ComputePointStructuredCoords(const vtkIdType ptId, const int dim[3], int ijk[3], int dataDescription=VTK_EMPTY)
Given a pointId and grid dimensions &#39;dim&#39;, get the structured coordinates (i-j-k).
static vtkIdType ComputeCellIdForExtent(const int extent[6], const int ijk[3], int dataDescription=VTK_EMPTY)
Given a location in structured coordinates (i-j-k), and the extent of the structured dataset...
static vtkIdType ComputeCellId(const int dim[3], const int ijk[3], int dataDescription=VTK_EMPTY)
Given a location in structured coordinates (i-j-k), and the dimensions of the structured dataset...
static vtkIdType ComputePointIdForExtent(const int extent[6], const int ijk[3], int dataDescription=VTK_EMPTY)
Given a location in structured coordinates (i-j-k), and the extent of the structured dataset...
static void GetStructuredCoordinates(const vtkIdType idx, const int N1, const int N2, int &i, int &j, int &k)
Returns the structured coordinates (i,j,k) for the given linear index of a grid with N1 and N2 dimens...
static void GetCellExtentFromPointExtent(const int pntExtent[6], int cellExtent[6], int dataDescription=VTK_EMPTY)
Given the point extent of a grid, this method computes the corresponding cell extent for the grid...