/*========================================================================= Program: Visualization Toolkit Module: vtkImageReader.h Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen All rights reserved. See Copyright.txt or http://www.kitware.com/Copyright.htm for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notice for more information. =========================================================================*/ /** * @class vtkImageReader * @brief Superclass of transformable binary file readers. * * vtkImageReader provides methods needed to read a region from a file. * It supports both transforms and masks on the input data, but as a result * is more complicated and slower than its parent class vtkImageReader2. * * @sa * vtkBMPReader vtkPNMReader vtkTIFFReader */ #ifndef vtkImageReader_h #define vtkImageReader_h #include "vtkIOImageModule.h" // For export macro #include "vtkImageReader2.h" class vtkTransform; #define VTK_FILE_BYTE_ORDER_BIG_ENDIAN 0 #define VTK_FILE_BYTE_ORDER_LITTLE_ENDIAN 1 class VTKIOIMAGE_EXPORT vtkImageReader : public vtkImageReader2 { public: static vtkImageReader* New(); vtkTypeMacro(vtkImageReader, vtkImageReader2); void PrintSelf(ostream& os, vtkIndent indent) override; ///@{ /** * Set/get the data VOI. You can limit the reader to only * read a subset of the data. */ vtkSetVector6Macro(DataVOI, int); vtkGetVector6Macro(DataVOI, int); ///@} ///@{ /** * Set/Get the Data mask. The data mask is a simply integer whose bits are * treated as a mask to the bits read from disk. That is, the data mask is * bitwise-and'ed to the numbers read from disk. This ivar is stored as 64 * bits, the largest mask you will need. The mask will be truncated to the * data size required to be read (using the least significant bits). */ vtkGetMacro(DataMask, vtkTypeUInt64); vtkSetMacro(DataMask, vtkTypeUInt64); ///@} ///@{ /** * Set/Get transformation matrix to transform the data from slice space * into world space. This matrix must be a permutation matrix. To qualify, * the sums of the rows must be + or - 1. */ virtual void SetTransform(vtkTransform*); vtkGetObjectMacro(Transform, vtkTransform); ///@} // Warning !!! // following should only be used by methods or template helpers, not users void ComputeInverseTransformedExtent(int inExtent[6], int outExtent[6]); void ComputeInverseTransformedIncrements(vtkIdType inIncr[3], vtkIdType outIncr[3]); int OpenAndSeekFile(int extent[6], int slice); ///@{ /** * Set/get the scalar array name for this data set. */ vtkSetStringMacro(ScalarArrayName); vtkGetStringMacro(ScalarArrayName); ///@} /** * vtkImageReader itself can read raw binary files. That being the case, * we need to implement `CanReadFile` to return success for any file. * Subclasses that read specific file format should override and implement * appropriate checks for file format. */ int CanReadFile(VTK_FILEPATH const char*) override { return 1; // I think I can read the file but I cannot prove it } protected: vtkImageReader(); ~vtkImageReader() override; vtkTypeUInt64 DataMask; vtkTransform* Transform; void ComputeTransformedSpacing(double Spacing[3]); void ComputeTransformedOrigin(double origin[3]); void ComputeTransformedExtent(int inExtent[6], int outExtent[6]); void ComputeTransformedIncrements(vtkIdType inIncr[3], vtkIdType outIncr[3]); int DataVOI[6]; char* ScalarArrayName; int RequestInformation(vtkInformation* request, vtkInformationVector** inputVector, vtkInformationVector* outputVector) override; void ExecuteDataWithInformation(vtkDataObject* data, vtkInformation* outInfo) override; private: vtkImageReader(const vtkImageReader&) = delete; void operator=(const vtkImageReader&) = delete; }; #endif