/usr/include/InsightToolkit/IO/itkSiemensVisionImageIO.h is in libinsighttoolkit3-dev 3.20.1-1.
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: Insight Segmentation & Registration Toolkit
Module: itkSiemensVisionImageIO.h
Language: C++
Date: $Date$
Version: $Revision$
Copyright (c) Insight Software Consortium. All rights reserved.
See ITKCopyright.txt or http://www.itk.org/HTML/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 notices for more information.
=========================================================================*/
/**
* \file Much of the code for this file reader/writer was taken from
* the University of Iowa Imaging Group library with the
* permission of the authors, Milan Sonka, Joseph Reinhardt,
* Ryan Long, Hans Johnson, Gary Christensen, and others.
* The specification for this file format is taken from the
* web site http://www.mayo.edu/bir/PDF/ANALYZE75.pdf.
* \author Kent Williams
* The University of Iowa 2003
* \brief This file was written as a modification to the itkMetaImageIO
* as a new method for reading in files from the GE4 scanner.
*/
#ifndef __itkSiemensVisionImageIO_h
#define __itkSiemensVisionImageIO_h
#ifdef _MSC_VER
#pragma warning ( disable : 4786 )
#endif
#include "itkIPLCommonImageIO.h"
namespace itk
{
/** \class SiemensVisionImageIO
*
* \author Hans J. Johnson
* \brief Class that defines how to read SiemensVision file format.
*
* \ingroup IOFilters
*/
class ITK_EXPORT SiemensVisionImageIO : public IPLCommonImageIO
{
public:
/** Standard class typedefs. */
typedef SiemensVisionImageIO Self;
typedef IPLCommonImageIO Superclass;
typedef SmartPointer<Self> Pointer;
/** Method for creation through the object factory. */
itkNewMacro(Self);
/** Run-time type information (and related methods). */
itkTypeMacro(SiemensVisionImageIO, Superclass);
/*-------- This part of the interfaces deals with reading data. ----- */
/** Determine if the file can be read with this ImageIO implementation.
* \author Hans J Johnson
* \param FileNameToRead The name of the file to test for reading.
* \post Sets classes ImageIOBase::m_FileName variable to be FileNameToWrite
* \return Returns true if this ImageIO can read the file specified.
*/
virtual bool CanReadFile(const char* FileNameToRead);
/* * Set the spacing and dimension information for the set filename. */
// Implemented in superclass
// virtual void ReadImageInformation();
/* * Get the type of the pixel. */
// Implemented in superclass
// virtual const std::type_info& GetPixelType() const;
/* * Reads the data from disk into the memory buffer provided. */
// Implemented in superclass
// virtual void Read(void* buffer);
/* * Compute the size (in bytes) of the components of a pixel. For
* example, and RGB pixel of unsigned char would have a
* component size of 1 byte. */
// Implemented in superclass
// virtual unsigned int GetComponentSize() const;
/*-------- This part of the interfaces deals with writing data. ----- */
/* * Determine if the file can be written with this ImageIO implementation.
* \param FileNameToWrite The name of the file to test for writing.
* \author Hans J. Johnson
* \post Sets classes ImageIOBase::m_FileName variable to be FileNameToWrite
* \return Returns true if this ImageIO can write the file specified.
*/
// Implemented in superclass
// virtual bool CanWriteFile(const char * FileNameToWrite);
/* * Set the spacing and dimension information for the set filename. */
// Implemented in superclass
// virtual void WriteImageInformation();
/* * Writes the data to disk from the memory buffer provided. Make sure
* that the IORegions has been set properly. */
// Implemented in superclass
// virtual void Write(const void* buffer);
protected:
SiemensVisionImageIO();
~SiemensVisionImageIO();
// Implemented in superclass
// void PrintSelf(std::ostream& os, Indent indent) const;
virtual GEImageHeader *ReadHeader(const char *FileNameToRead);
private:
typedef enum {
HDR_STUDY_YEAR= 0, // Study date year, u_int
HDR_STUDY_YEAR_LEN= 4,
HDR_STUDY_MONTH= 4, // Study date month, u_int
HDR_STUDY_MONTH_LEN= 4,
HDR_STUDY_DAY= 8, // Study date day, u_int
HDR_STUDY_DAY_LEN= 4,
HDR_ACQ_YEAR= 12, // Acquisition date year, u_int
HDR_ACQ_YEAR_LEN= 4,
HDR_ACQ_MONTH= 16, // Acquisition date month, u_int
HDR_ACQ_MONTH_LEN= 4,
HDR_ACQ_DAY= 20, // Acquisition date day, u_int
HDR_ACQ_DAY_LEN= 4,
HDR_IMAGE_YEAR= 24, // Image date year, u_int
HDR_IMAGE_YEAR_LEN= 4,
HDR_IMAGE_MONTH= 28, // Image date month, u_int
HDR_IMAGE_MONTH_LEN= 4,
HDR_IMAGE_DAY= 32, // Image date day, u_int
HDR_IMAGE_DAY_LEN= 4,
HDR_STUDY_HOUR= 36, // Study time hour, u_int
HDR_STUDY_HOUR_LEN= 4,
HDR_STUDY_MIN= 40, // Study time minute, u_int
HDR_STUDY_MIN_LEN= 4,
HDR_STUDY_SEC= 44, // Study time second, u_int
HDR_STUDY_SEC_LEN= 4,
HDR_ACQ_HOUR= 52, // Acquisition time second, u_int
HDR_ACQ_HOUR_LEN= 4,
HDR_ACQ_MIN= 56, // Acquisition time second, u_int
HDR_ACQ_MIN_LEN= 4,
HDR_ACQ_SEC= 60, // Acquisition time second, u_int
HDR_ACQ_SEC_LEN= 4,
HDR_IMAGE_HOUR= 68, // Image Creation time second, u_int
HDR_IMAGE_HOUR_LEN= 4,
HDR_IMAGE_MIN= 72, // Image Creation time second, u_int
HDR_IMAGE_MIN_LEN= 4,
HDR_IMAGE_SEC= 76, // Image Creation time second, u_int
HDR_IMAGE_SEC_LEN= 4,
HDR_MANUFAC= 96, // Scanner Manufacturer, char
HDR_MANUFAC_LEN= 7,
HDR_INSTUTE_NAME= 105, // Institution Name, char
HDR_INSTUTE_NAME_LEN= 25,
HDR_ANNOTATION= 186, // Annotation, char
HDR_ANNOTATION_LEN= 32,
HDR_MODEL_NAME= 281, // Scanner Model Name, char
HDR_MODEL_NAME_LEN= 12,
HDR_LMOVE_YEAR= 412, // Date of Last Image Move - year, u_int
HDR_LMOVE_YEAR_LEN= 4,
HDR_LMOVE_MONTH= 416, // Date of Last Image Move - month, u_int
HDR_LMOVE_MONTH_LEN= 4,
HDR_LMOVE_DAY= 420, // Date of Last Image Move - day, u_int
HDR_LMOVE_DAY_LEN= 4,
HDR_LMOVE_HOUR= 424, // Date of Last Image Move - hour, u_int
HDR_LMOVE_HOUR_LEN= 4,
HDR_LMOVE_MIN= 428, // Date of Last Image Move - minute, u_int
HDR_LMOVE_MIN_LEN= 4,
HDR_LMOVE_SEC= 432, // Date of Last Image Move - second, u_int
HDR_LMOVE_SEC_LEN= 4,
HDR_PAT_NAME= 768, // Patient Name, char
HDR_PAT_NAME_LEN= 25,
HDR_PAT_ID= 795, // Patient ID Number, char
HDR_PAT_ID_LEN= 12,
HDR_DOB_YEAR= 808, // Date of Birth year, u_int
HDR_DOB_YEAR_LEN= 4,
HDR_DOB_MONTH= 812, // Date of Birth month, u_int
HDR_DOB_MONTH_LEN= 4,
HDR_DOB_DAY= 816, // Date of Birth day, u_int
HDR_DOB_DAY_LEN= 4,
HDR_PAT_AGE= 851, // Patient Age, char
HDR_PAT_AGE_LEN= 3,
HDR_AGE_UNIT= 854, // Patient Age Unit, char
HDR_AGE_UNIT_LEN= 1,
HDR_REG_YEAR= 1052, // Registration Date year, u_int
HDR_REG_YEAR_LEN= 4,
HDR_REG_MONTH= 1056, // Registration Date month, u_int
HDR_REG_MONTH_LEN= 4,
HDR_REG_DAY= 1060, // Registration Date day, u_int
HDR_REG_DAY_LEN= 4,
HDR_REG_HOUR= 1064, // Registration Time hour, u_int
HDR_REG_HOUR_LEN= 4,
HDR_REG_MIN= 1068, // Registration Time minute, u_int
HDR_REG_MIN_LEN= 4,
HDR_REG_SEC= 1072, // Registration Time second, u_int
HDR_REG_SEC_LEN= 4,
HDR_SLICE_THCK= 1544, // Slice thickness, double
HDR_SLICE_THCK_LEN= 8,
HDR_TR= 1560, // TR, double
HDR_TR_LEN= 8,
HDR_TE= 1568, // TE, double
HDR_TE_LEN= 8,
HDR_FREQ= 1592, // Center Frequency, double
HDR_FREQ_LEN= 8,
HDR_STATION= 1639, // Station Name, char
HDR_STATION_LEN= 5,
HDR_CAL_YEAR= 1712, // Calibration Date - year, u_int
HDR_CAL_YEAR_LEN= 4,
HDR_CAL_MONTH= 1716, // Calibration Date - month, u_int
HDR_CAL_MONTH_LEN= 4,
HDR_CAL_DAY= 1720, // Calibration Date - day, u_int
HDR_CAL_DAY_LEN= 4,
HDR_CAL_HOUR= 1724, // Calibration Time - hour, u_int
HDR_CAL_HOUR_LEN= 4,
HDR_CAL_MIN= 1728, // Calibration Time - minute, u_int
HDR_CAL_MIN_LEN= 4,
HDR_CAL_SEC= 1732, // Calibration Time - second, u_int
HDR_CAL_SEC_LEN= 4,
HDR_COIL= 1767, // Recieve Coil, char
HDR_COIL_LEN= 16,
HDR_IMAGE_NUC= 1828, // Imaged Nucleus, char
HDR_IMAGE_NUC_LEN= 4,
HDR_FLIP_ANGLE= 2112, // Flip Angle, double
HDR_FLIP_ANGLE_LEN= 8,
HDR_FIELD= 2560, // Field Strength, double
HDR_FIELD_LEN= 8,
HDR_DISPLAY_SIZE= 2864, // Displayed Matrix Size, u_int
HDR_DISPLAY_SIZE_LEN= 4,
HDR_SEQPROG_NAME= 2944, // Pulse Sequence Program Name, cha
HDR_SEQPROG_NAME_LEN= 65,
HDR_WKC_NAME= 3009, // Pulse Sequence Name, char
HDR_WKC_NAME_LEN= 65,
HDR_AUTHOR= 3074, // Pulse Sequence Author, char
HDR_AUTHOR_LEN= 9,
HDR_SEQUENCE_TYPE= 3083, // Pulse Sequence Type, char
HDR_SEQUENCE_TYPE_LEN= 8,
HDR_FOV_ROW= 3744, // Row FOV, double
HDR_FOV_ROW_LEN= 8,
HDR_FOV_COLUMN= 3752, // Column FOV, double
HDR_FOV_COLUMN_LEN= 8,
HDR_CENTER_X= 3768, // X Center Point, double
HDR_CENTER_X_LEN= 8,
HDR_CENTER_Y= 3776, // Y Center Point, double
HDR_CENTER_Y_LEN= 8,
HDR_CENTER_Z= 3784, // Z Center Point, double
HDR_CENTER_Z_LEN= 8,
HDR_NORMV_X= 3792, // Nornal Vector X, double
HDR_NORMV_X_LEN= 8,
HDR_NORMV_Y= 3800, // Nornal Vector Y, double
HDR_NORMV_Y_LEN= 8,
HDR_NORMV_Z= 3808, // Nornal Vector Z, double
HDR_NORMV_Z_LEN= 8,
HDR_DIST_ISO= 3816, // Distance from Isocenter, double
HDR_DIST_ISO_LEN= 8,
HDR_ROWV_X= 3832, // Row vector X, double
HDR_ROWV_X_LEN= 8,
HDR_ROWV_Y= 3840, // Row vector Y, double
HDR_ROWV_Y_LEN= 8,
HDR_ROWV_Z= 3848, // Row vector Z, double
HDR_ROWV_Z_LEN= 8,
HDR_COLMNV_X= 3856, // Column vector X, double
HDR_COLMNV_X_LEN= 8,
HDR_COLMNV_Y= 3864, // Column vector Y, double
HDR_COLMNV_Y_LEN= 8,
HDR_COLMNV_Z= 3872, // Column vector Z, double
HDR_COLMNV_Z_LEN= 8,
HDR_ORNT_SET1X= 3880, // Orientation Set 1 - X, char
HDR_ORNT_SET1X_LEN= 3,
HDR_ORNT_SET1Y= 3884, // Orientation Set 1 - Y, char
HDR_ORNT_SET1Y_LEN= 3,
HDR_ORNT_SET1Z= 3888, // Orientation Set 1 - Z, char
HDR_ORNT_SET1Z_LEN= 3,
HDR_ORNT_SET2X= 3892, // Orientation Set 2 - X, char
HDR_ORNT_SET2X_LEN= 3,
HDR_ORNT_SET2Y= 3896, // Orientation Set 2 - Y, char
HDR_ORNT_SET2Y_LEN= 3,
HDR_ORNT_SET2Z= 3900, // Orientation Set 2 - Z, char
HDR_ORNT_SET2Z_LEN= 3,
HDR_PROTOCOL_NAME= 2944, // Pulse Sequence Name, char
HDR_PROTOCOL_NAME_LEN= 64,
HDR_PIXELSIZE_ROW= 5000, // Row Pixel Size, double
HDR_PIXELSIZE_ROW_LEN= 8,
HDR_PIXELSIZE_CLMN= 5008, // Column Pixel Size, double
HDR_PIXELSIZE_CLMN_LEN= 8,
TEXT_PAT_ID= 5504, // Text Patient ID, char
TEXT_PAT_ID_LEN= 12,
TEXT_PAT_SEX= 5517, // Text Patient Sex, char
TEXT_PAT_SEX_LEN= 1,
TEXT_PAT_AGE= 5518, // Text Patient Age, char
TEXT_PAT_AGE_LEN= 3,
TEXT_AGE_UNIT= 5521, // Text Patient Age Unit (Y=year), char
TEXT_AGE_UNIT_LEN= 1,
TEXT_PAT_POS= 5529, // Text Patient Postion, char
TEXT_PAT_POS_LEN= 7,
TEXT_IMG_FLAG= 5541, // Text Image Flag (IMAGE=image), char
TEXT_IMG_FLAG_LEN= 5,
TEXT_IMG_NUMBER= 5546, // Text Image Number, char
TEXT_IMG_NUMBER_LEN= 4,
TEXT_IMG_DAY= 5559, // Text Date - Day, char
TEXT_IMG_DAY_LEN= 2,
TEXT_IMG_MONTH= 5562, // Text Date - Month, char
TEXT_IMG_MONTH_LEN= 3,
TEXT_IMG_YEAR= 5566, // Text Date - Year, char
TEXT_IMG_YEAR_LEN= 4,
TEXT_IMG_HOUR= 5571, // Text Time - hour, char
TEXT_IMG_HOUR_LEN= 2,
TEXT_IMG_MIN= 5574, // Text Time - minute, char
TEXT_IMG_MIN_LEN= 2,
TEXT_ACQ_FLAG= 5577, // Text Acq. Time Flag (TA=time of acq), char
TEXT_ACQ_FLAG_LEN= 2,
TEXT_ACQ_MIN= 5583, // Text Acq Time - minute, char
TEXT_ACQ_MIN_LEN= 2,
TEXT_ACQ_SEC= 5586, // Text Acq Time - second, char
TEXT_ACQ_SEC_LEN= 2,
TEXT_ANNOTATION= 5601, // Text Annotation, char
TEXT_ANNOTATION_LEN= 32,
TEXT_ORGANIZATION= 5655, // Text Organization, char
TEXT_ORGANIZATION_LEN= 25,
TEXT_STATION= 5682, // Text Station Name, char
TEXT_STATION_LEN= 5,
TEXT_ACQ_MTRX_PHASE= 5695, // Acq. Matrix Phase Axis, char
TEXT_ACQ_MTRX_PHASE_LEN= 3,
TEXT_ACQ_PHASE_DIR= 5698, // Acq. phase direction (h=hor, v=vert), char
TEXT_ACQ_PHASE_DIR_LEN= 1,
TEXT_ACQ_MTRX_FREQ= 5700, // Acq. matrix Freq Axis, char
TEXT_ACQ_MTRX_FREQ_LEN= 3,
TEXT_ACQ_MTRX_FREQO= 5703, // Acq freq (o=o " "=blank), char
TEXT_ACQ_MTRX_FREQO_LEN= 1,
TEXT_ACQ_MTRX_FREQS= 5704, // Acq freq (s=s " "=blank), char
TEXT_ACQ_MTRX_FREQS_LEN= 1,
TEXT_SEQUENCE= 5706, // Sequence Type, char
TEXT_SEQUENCE_LEN= 8,
TEXT_FLIP_ANGLE= 5714, // Flip Angle, char
TEXT_FLIP_ANGLE_LEN= 3,
TEXT_SCAN_FLAG= 5718, // Scan flag ("SCAN"), char */
TEXT_SCAN_FLAG_LEN= 4,
TEXT_SCANA_NUM= 5723, // Scan Number A, char
TEXT_SCANA_NUM_LEN= 3,
TEXT_SCANB_NUM= 5726, // Scan Number B, char
TEXT_SCANB_NUM_LEN= 3,
TEXT_TR_FLAG= 5730, // TR flag ("TR"), char
TEXT_TR_FLAG_LEN= 2,
TEXT_TR= 5734, // TR, char
TEXT_TR_LEN= 7,
TEXT_TE_FLAG= 5742, // TE flag ("TE"), char
TEXT_TE_FLAG_LEN= 2,
TEXT_TE= 5746, // TE, char
TEXT_TE_LEN= 5,
TEXT_ECHO_NUM= 5752, // Echo number, char
TEXT_ECHO_NUM_LEN= 1,
TEXT_THCK_FLAG= 5790, // SLice thickness flag ("SL"), char
TEXT_THCK_FLAG_LEN= 2,
TEXT_SLICE_THCK= 5794, // Slice thickness
TEXT_SLICE_THCK_LEN= 7,
TEXT_POS_FLAG= 5802, // Slice postion flag ("SP"), char
TEXT_POS_FLAG_LEN= 2,
TEXT_SLICE_POS= 5806, // Slice postion, char
TEXT_SLICE_POS_LEN= 7,
TEXT_ANGLE_FLAG1= 5814, // Angle flag 1 ("Sag","Cor",or,"Tra"), char
TEXT_ANGLE_FLAG1_LEN= 3,
TEXT_ANGLE_FLAG2= 5817, // Angle flag 2 ("<", or ">"), char
TEXT_ANGLE_FLAG2_LEN= 1,
TEXT_ANGLE_FLAG3= 5818, // Angle flag 3 ("Sag","Cor",or,"Tra"), char
TEXT_ANGLE_FLAG3_LEN= 3,
TEXT_ANGLE= 5821, // Angle, char
TEXT_ANGLE_LEN= 4,
TEXT_FOV_FLAG= 5838, // FOV flag ("FOV"), char
TEXT_FOV_FLAG_LEN= 3,
TEXT_FOVH= 5842, // Horizontal FOV, char
TEXT_FOVH_LEN= 3,
TEXT_FOVV= 5846, // Vertical FOV, char
TEXT_FOVV_LEN= 3,
TEXT_TABLEPOS_FLAG= 5874, // Table Postion flag ("TP"), char
TEXT_TABLEPOS_FLAG_LEN= 2,
TEXT_TABLE_POS= 5878, // Table postion
TEXT_TABLE_POS_LEN= 7,
TEXT_STUDY_FLAG= 5938, // Study flag ("STUDY"), char
TEXT_STUDY_FLAG_LEN= 5,
TEXT_STUDY_NUM= 5943, // Study number, char
TEXT_STUDY_NUM_LEN= 2,
TEXT_DOB_DAY= 5956, // Date of Birth - day, char
TEXT_DOB_DAY_LEN= 2,
TEXT_DOB_MONTH= 5959, // Date of Birth - month, char
TEXT_DOB_MONTH_LEN= 3,
TEXT_DOB_YEAR= 5963, // Date of Birth - year, char
TEXT_DOB_YEAR_LEN= 4,
TEXT_STUDY_FLAG2= 5992, // Study flag 2 ("STU"), char
TEXT_STUDY_FLAG2_LEN= 3,
TEXT_IMAGE_FLAG2= 5996, // Image flag 2 ("IMA"), char
TEXT_IMAGE_FLAG2_LEN= 3,
TEXT_STUDY_NUM2= 5999, // Study number 2, char
TEXT_STUDY_NUM2_LEN= 2,
TEXT_IMAGE_NUM2= 6002, // Image number 2, char
TEXT_IMAGE_NUM2_LEN= 2,
TEXT_IMAGE_NUM3= 6013, // Image number 3, char
TEXT_IMAGE_NUM3_LEN= 5,
TEXT_MODEL_NAME= 6031, // Model Name, char
TEXT_MODEL_NAME_LEN= 15,
TEXT_PAT_NAME= 6058, // Patient Name, char
TEXT_PAT_NAME_LEN= 25,
TEXT_START_HOUR= 6085, // Scan start time - hour, char
TEXT_START_HOUR_LEN= 2,
TEXT_START_MIN= 6088, // Scan start time - minute, char
TEXT_START_MIN_LEN= 2,
TEXT_START_SEC= 6091, // Scan start time - second, char
TEXT_START_SEC_LEN= 2,
HDR_TOTAL_LENGTH= 6144 // Total length of Siemens Header
} SiemensVisionHeaderInfo;
SiemensVisionImageIO(const Self&); //purposely not implemented
void operator=(const Self&); //purposely not implemented
};
} // end namespace itk
#endif // __itkSiemensVisionImageIO_h
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