/usr/include/vtk-5.8/DICOMAppHelper.h is in libvtk5-dev 5.8.0-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Program: DICOMParser
Module: DICOMAppHelper.h
Language: C++
Date: $Date$
Version: $Revision$
Copyright (c) 2003 Matt Turek
All rights reserved.
See Copyright.txt 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.
=========================================================================*/
#ifndef __DICOM_APP_HELPER_H_
#define __DICOM_APP_HELPER_H_
#ifdef _MSC_VER
#pragma warning ( disable : 4514 )
#pragma warning ( disable : 4018 )
#pragma warning ( push, 3 )
#endif
#include <vector>
#include <string>
#include "DICOMConfig.h"
#include "DICOMTypes.h"
#include "DICOMCallback.h"
#ifdef _MSC_VER
#pragma warning ( default: 4018 )
#endif
class DICOMParser;
// Function object for sorting strings
struct ltstdstr
{
bool operator()(const dicom_stl::string &s1, const dicom_stl::string &s2) const
{
return s1 < s2;
}
};
// Helper structure for DICOM elements
struct DICOMTagInfo
{
doublebyte group;
doublebyte element;
DICOMParser::VRTypes datatype;
const char* description;
};
// Helper class use for ordering DICOM images based on different
// (group, element) tags.
class DICOM_EXPORT DICOMOrderingElements
{
public:
DICOMOrderingElements()
{
// Default values to something "valid"
SliceNumber = -1;
SliceLocation = 0.0;
ImagePositionPatient[0] = 0.0;
ImagePositionPatient[1] = 0.0;
ImagePositionPatient[2] = 0.0;
ImageOrientationPatient[0] = 1.0;
ImageOrientationPatient[1] = 0.0;
ImageOrientationPatient[2] = 0.0;
ImageOrientationPatient[3] = 0.0;
ImageOrientationPatient[4] = 1.0;
ImageOrientationPatient[5] = 0.0;
}
int SliceNumber;
float SliceLocation;
float ImagePositionPatient[3];
float ImageOrientationPatient[6];
};
class DICOMAppHelperImplementation;
/**
* \class DICOMAppHelper
* \brief Class to interface an application to a DICOMParser
*
* DICOMAppHelper assists an application in communicating with a
* DICOMParser. DICOMAppHelper registers a series of callbacks to the
* DICOMParser which allows it to cache the information from a DICOM
* file in a format that is appropriate for an application to
* use. Once a DICOM file is read, an application can query the
* DICOMAppHelper for the resolution, pixel size, and pixel data.
*
* If a DICOMParser scans more than one file, the DICOMAppHelper will
* group filesnames by SeriesUID. This allows an application to pass
* a series of DICOM files to the DICOMParser (which via the callback
* mechanism allows the DICOMAppHelper to cache information) and then
* query the DICOMAppHelper for the files that are from the same
* series. The application can request the filenames for a particular
* series to be sorted based on image number, slice location, or
* patient position. This allows the DICOMAppHelper to assist an
* application is collecting all the images from one series into a
* volume.
*/
class DICOM_EXPORT DICOMAppHelper
{
public:
/** Standard constructor */
DICOMAppHelper();
/** Standard destructor */
virtual ~DICOMAppHelper();
/** Callbacks that are registered with the DICOMParser. The
* DICOMParser will call one of these callbacks whenever it
* encounters a (group, element) that has an associated callback */
virtual void RescaleSlopeCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len);
virtual void ArrayCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len);
virtual void SliceNumberCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void SliceLocationCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void ImagePositionPatientCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void ImageOrientationPatientCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void SeriesUIDCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void TransferSyntaxCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void BitsAllocatedCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void ToggleSwapBytesCallback(DICOMParser *parser,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char*,
quadbyte);
virtual void PixelSpacingCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len) ;
virtual void HeightCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len);
virtual void WidthCallback( DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len);
virtual void PixelRepresentationCallback(DICOMParser *parser,
doublebyte group,
doublebyte element,
DICOMParser::VRTypes type,
unsigned char* val,
quadbyte len);
virtual void PhotometricInterpretationCallback(DICOMParser *parser,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte len);
virtual void PixelDataCallback(DICOMParser *parser,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte len);
virtual void RescaleOffsetCallback( DICOMParser *parser,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte);
/** Register all the standard callbacks with the DICOM Parser. This
* associates a callback with each (group, element) tag pair in the
* header of the file whose data needs to be cached. */
virtual void RegisterCallbacks(DICOMParser* parser);
/** Register a callback for retrieving the pixel data from a DICOM
* file */
virtual void RegisterPixelDataCallback(DICOMParser* parser);
/** Output information associated with a DICOM series */
void OutputSeries();
/** The next set of methods are for accessing information which is
* cached when a DICOM file is processed. This allows access to
* information from the header as well as the pixel data. */
/** Get the pixel spacing of the last image processed by the
* DICOMParser */
float* GetPixelSpacing()
{
return this->PixelSpacing;
}
/** Get the image width of the last image processed by the
* DICOMParser */
int GetWidth()
{
return this->Width;
}
/** Get the image height of the last image processed by the
* DICOMParser */
int GetHeight()
{
return this->Height;
}
/** Get the dimensions (width, height) of the last image processed
* by the DICOMParser */
int* GetDimensions()
{
return this->Dimensions;
}
/** Get the (DICOM) x,y,z coordinates of the first pixel in the
* image (upper left hand corner) of the last image processed by the
* DICOMParser */
float *GetImagePositionPatient()
{
return this->ImagePositionPatient;
}
/** Get the (DICOM) directions cosines. It consist of the components
* of the first two vectors. The third vector needs to be computed
* to form an orthonormal basis. */
float *GetImageOrientationPatient()
{
return this->ImageOrientationPatient;
}
/** Get the number of bits allocated per pixel of the last image
* processed by the DICOMParser */
int GetBitsAllocated()
{
return this->BitsAllocated;
}
/** Get the pixel representation of the last image processed by the
* DICOMParser. A zero is a unsigned quantity. A one indicates a
* signed quantity. */
int GetPixelRepresentation()
{
return this->PixelRepresentation;
}
/** Get the number of components of the last image processed by the
* DICOMParser. */
int GetNumberOfComponents()
{
if (!this->PhotometricInterpretation)
{
return 1;
}
//
// DICOM standard says that spaces (0x20) are to
// be ignored for CS types. We don't handle this
// well yet.
//
dicom_stl::string str1(*this->PhotometricInterpretation);
dicom_stl::string rgb("RGB ");
if (str1 == rgb)
{
return 3;
}
else
{
return 1;
}
}
/** Get the transfer syntax UID for the last image processed by the
* DICOMParser. */
dicom_stl::string GetTransferSyntaxUID()
{
return *(this->TransferSyntaxUID);
}
/** Get a textual description of the transfer syntax of the last
* image processed by the DICOMParser. */
const char* TransferSyntaxUIDDescription(const char* uid);
/** Get the image data from the last image processed by the
* DICOMParser. The data is only valid if the PixelDataCallback was
* registered.
* \sa RegisterPixelDataCallback()
*/
void GetImageData(void* & data, DICOMParser::VRTypes& dataType, unsigned long& len);
/** Determine whether the image data was rescaled (by the
* RescaleSlope tag) to be floating point. */
bool RescaledImageDataIsFloat();
/** Determine whether the image data was rescaled (by the
* RescaleSlope tag) to be a signed data type. */
bool RescaledImageDataIsSigned();
/** Get the slice number of the last image processed by the
DICOMParser. */
int GetSliceNumber()
{
return this->SliceNumber;
}
/** Clear the internal databases. This will reset the internal
* databases that are grouping filenames based on SeriesUID's and
* ordering filenames based on image locations. */
void Clear();
/** Get the series UIDs for the files processed since the last
* clearing of the cache. */
void GetSeriesUIDs(dicom_stl::vector<dicom_stl::string> &v);
/** Get the filenames for a series ordered by slice number. */
void GetSliceNumberFilenamePairs(const dicom_stl::string &seriesUID,
dicom_stl::vector<dicom_stl::pair<int, dicom_stl::string> > &v, bool ascending = true);
/** Get the filenames for a series order by slice number. Use the
first series by default. */
void GetSliceNumberFilenamePairs(dicom_stl::vector<dicom_stl::pair<int, dicom_stl::string> > &v, bool ascending = true);
/* Get the filenames for a series ordered by slice location. */
void GetSliceLocationFilenamePairs(const dicom_stl::string &seriesUID,
dicom_stl::vector<dicom_stl::pair<float, dicom_stl::string> > &v, bool ascending = true);
/* Get the filenames for a series ordered by slice location. Use the
* first series by default. */
void GetSliceLocationFilenamePairs(dicom_stl::vector<dicom_stl::pair<float, dicom_stl::string> > &v, bool ascending = true);
/* Get the filenames for a series ordered by image position
patient. This is the most reliable way to order the images in a
series. */
void GetImagePositionPatientFilenamePairs(const dicom_stl::string &seriesUID,
dicom_stl::vector<dicom_stl::pair<float, dicom_stl::string> > &v, bool ascending = true);
/* Get the filenames for a series ordered by image position
patient. This is the most reliable way to order the images in a
series. Use the first series by default. */
void GetImagePositionPatientFilenamePairs(dicom_stl::vector<dicom_stl::pair<float, dicom_stl::string> > &v, bool ascending = true);
float GetRescaleSlope()
{
return this->RescaleSlope;
}
float GetRescaleOffset()
{
return this->RescaleOffset;
}
dicom_stl::string GetPatientName()
{
return *(this->PatientName);
}
dicom_stl::string GetStudyUID()
{
return *(this->StudyUID);
}
dicom_stl::string GetStudyID()
{
return *(this->StudyID);
}
void PatientNameCallback(DICOMParser *,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte);
void StudyUIDCallback(DICOMParser *,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte);
void StudyIDCallback(DICOMParser *,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte);
void GantryAngleCallback(DICOMParser *,
doublebyte,
doublebyte,
DICOMParser::VRTypes,
unsigned char* val,
quadbyte);
float GetGantryAngle()
{
return this->GantryAngle;
}
protected:
int BitsAllocated;
bool ByteSwapData;
float PixelSpacing[3];
int Width;
int Height;
int SliceNumber;
int Dimensions[2];
float ImagePositionPatient[3];
float ImageOrientationPatient[6];
// map from series UID to vector of files in the series
// dicom_stl::map<dicom_stl::string, dicom_stl::vector<dicom_stl::string>, ltstdstr> SeriesUIDMap;
// map from filename to intraseries sortable tags
// dicom_stl::map<dicom_stl::string, DICOMOrderingElements, ltstdstr> SliceOrderingMap;
typedef dicom_stl::map<dicom_stl::pair<doublebyte, doublebyte>, DICOMTagInfo> TagMapType;
// TagMapType TagMap;
dicom_stream::ofstream HeaderFile;
// 0 unsigned
// 1 2s complement (signed)
int PixelRepresentation;
dicom_stl::string* PhotometricInterpretation;
dicom_stl::string* TransferSyntaxUID;
float RescaleOffset;
float RescaleSlope;
void* ImageData;
DICOMParser::VRTypes ImageDataType;
unsigned long ImageDataLengthInBytes;
dicom_stl::string* PatientName;
dicom_stl::string* StudyUID;
dicom_stl::string* StudyID;
float GantryAngle;
DICOMMemberCallback<DICOMAppHelper>* SeriesUIDCB;
DICOMMemberCallback<DICOMAppHelper>* SliceNumberCB;
DICOMMemberCallback<DICOMAppHelper>* SliceLocationCB;
DICOMMemberCallback<DICOMAppHelper>* ImagePositionPatientCB;
DICOMMemberCallback<DICOMAppHelper>* ImageOrientationPatientCB;
DICOMMemberCallback<DICOMAppHelper>* TransferSyntaxCB;
DICOMMemberCallback<DICOMAppHelper>* ToggleSwapBytesCB;
DICOMMemberCallback<DICOMAppHelper>* BitsAllocatedCB;
DICOMMemberCallback<DICOMAppHelper>* PixelSpacingCB;
DICOMMemberCallback<DICOMAppHelper>* HeightCB;
DICOMMemberCallback<DICOMAppHelper>* WidthCB;
DICOMMemberCallback<DICOMAppHelper>* PixelRepresentationCB;
DICOMMemberCallback<DICOMAppHelper>* PhotometricInterpretationCB;
DICOMMemberCallback<DICOMAppHelper>* RescaleOffsetCB;
DICOMMemberCallback<DICOMAppHelper>* RescaleSlopeCB;
DICOMMemberCallback<DICOMAppHelper>* PixelDataCB;
DICOMMemberCallback<DICOMAppHelper>* PatientNameCB;
DICOMMemberCallback<DICOMAppHelper>* StudyUIDCB;
DICOMMemberCallback<DICOMAppHelper>* StudyIDCB;
DICOMMemberCallback<DICOMAppHelper>* GantryAngleCB;
//
// Implementation contains stl templated classes that
// can't be exported from a DLL in Windows. We hide
// them in the implementation to get rid of annoying
// compile warnings.
//
DICOMAppHelperImplementation* Implementation;
private:
DICOMAppHelper(const DICOMAppHelper&);
void operator=(const DICOMAppHelper&);
};
#ifdef _MSC_VER
#pragma warning ( pop )
#endif
#endif
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