/* ----------------------------------------------------------------------- Copyright: 2010-2015, iMinds-Vision Lab, University of Antwerp 2014-2015, CWI, Amsterdam Contact: astra@uantwerpen.be Website: http://sf.net/projects/astra-toolbox This file is part of the ASTRA Toolbox. The ASTRA Toolbox 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 3 of the License, or (at your option) any later version. The ASTRA Toolbox 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 the ASTRA Toolbox. If not, see . ----------------------------------------------------------------------- $Id$ */ #ifndef _INC_ASTRA_PROJECTIONGEOMETRY2D #define _INC_ASTRA_PROJECTIONGEOMETRY2D #include "Globals.h" #include "Config.h" #include "Vector3D.h" #include #include #include namespace astra { /** * This abstract base class defines the projection geometry. * It has a number of data fields, such as width of detector * pixels, projection angles, number of detector pixels and object offsets * for every projection angle. */ class _AstraExport CProjectionGeometry2D { protected: bool m_bInitialized; ///< Has the object been intialized? /** Number of projection angles */ int m_iProjectionAngleCount; /** Number of detectors, i.e., the number of detector measurements for each projection angle. */ int m_iDetectorCount; /** Width of a detector pixel, i.e., the distance between projected rays (or width of projected strips). */ float32 m_fDetectorWidth; /** Dynamically allocated array of projection angles. All angles are represented in radians and lie in * the [0,2pi[ interval. */ float32* m_pfProjectionAngles; /** Default constructor. Sets all numeric member variables to 0 and all pointer member variables to NULL. * * If an object is constructed using this default constructor, it must always be followed by a call * to one of the init() methods before the object can be used. Any use before calling init() is not * allowed, except calling the member function isInitialized(). * */ CProjectionGeometry2D(); /** Constructor. Create an instance of the CProjectionGeometry2D class. * * @param _iProjectionAngleCount Number of projection angles. * @param _iDetectorCount Number of detectors, i.e., the number of detector measurements for each projection angle. * @param _fDetectorWidth Width of a detector cell, in unit lengths. All detector cells are assumed to have equal width. * @param _pfProjectionAngles Pointer to an array of projection angles. The angles will be copied from this array. * All angles are represented in radians. */ CProjectionGeometry2D(int _iProjectionAngleCount, int _iDetectorCount, float32 _fDetectorWidth, const float32* _pfProjectionAngles, const float32* _pfExtraDetectorOffsets = 0); /** Copy constructor. */ CProjectionGeometry2D(const CProjectionGeometry2D& _projGeom); /** Check variable values. */ bool _check(); /** Clear all member variables, setting all numeric variables to 0 and all pointers to NULL. * Should only be used by constructors. Otherwise use the clear() function. */ void _clear(); /** Initialization. Initializes an instance of the CProjectionGeometry2D class. If the object has been * initialized before, the object is reinitialized and memory is freed and reallocated if necessary. * * @param _iProjectionAngleCount Number of projection angles. * @param _iDetectorCount Number of detectors, i.e., the number of detector measurements for each projection angle. * @param _fDetectorWidth Width of a detector cell, in unit lengths. All detector cells are assumed to have equal width. * @param _pfProjectionAngles Pointer to an array of projection angles. The angles will be copied from this array. */ bool _initialize(int _iProjectionAngleCount, int _iDetectorCount, float32 _fDetectorWidth, const float32* _pfProjectionAngles, const float32* _pfExtraDetectorOffsets = 0); public: /** Destructor */ virtual ~CProjectionGeometry2D(); /** Clear all member variables, setting all numeric variables to 0 and all pointers to NULL. */ virtual void clear(); /** Create a hard copy. */ virtual CProjectionGeometry2D* clone() = 0; /** Initialize the geometry with a config object. * * @param _cfg Configuration Object * @return initialization successful? */ virtual bool initialize(const Config& _cfg); /** Get the initialization state of the object. * * @return true iff the object has been initialized */ bool isInitialized() const; /** Return true if this geometry instance is the same as the one specified. * * @return true if this geometry instance is the same as the one specified. */ virtual bool isEqual(CProjectionGeometry2D*) const = 0; /** Get all settings in a Config object. * * @return Configuration Object. */ virtual Config* getConfiguration() const = 0; /** Get the number of projection angles. * * @return Number of projection angles */ int getProjectionAngleCount() const; /** Get the number of detectors. * * @return Number of detectors, i.e., the number of detector measurements for each projection angle. */ int getDetectorCount() const; /** Get the width of a detector. * * @return Width of a detector, in unit lengths */ float32 getDetectorWidth() const; /** Get a projection angle, given by its index. The angle is represented in Radians. * * @return Projection angle with index _iProjectionIndex */ float32 getProjectionAngle(int _iProjectionIndex) const; /** Returns a buffer containing all projection angles. The element count of the buffer is equal * to the number given by getProjectionAngleCount. * * The angles are in radians. * * @return Pointer to buffer containing the angles. */ const float32* getProjectionAngles() const; /** Get a projection angle, given by its index. The angle is represented in degrees. * * @return Projection angle with index _iProjectionIndex */ float32 getProjectionAngleDegrees(int _iProjectionIndex) const; /** Get the index coordinate of a point on a detector array. * * @param _fOffset distance between the center of the detector array and a certain point * @return the location of the point in index coordinates (still float, not rounded) */ virtual float32 detectorOffsetToIndexFloat(float32 _fOffset) const; /** Get the index coordinate of a point on a detector array. * * @param _fOffset distance between the center of the detector array and a certain point * @return the index of the detector that is hit, -1 if detector array isn't hit. */ virtual int detectorOffsetToIndex(float32 _fOffset) const; /** Get the offset of a detector based on its index coordinate. * * @param _iIndex the index of the detector. * @return the offset from the center of the detector array. */ virtual float32 indexToDetectorOffset(int _iIndex) const; /** Get the angle and detector index of a sinogram pixel * * @param _iIndex the index of the detector pixel in the sinogram. * @param _iAngleIndex output: index of angle * @param _iDetectorIndex output: index of detector */ virtual void indexToAngleDetectorIndex(int _iIndex, int& _iAngleIndex, int& _iDetectorIndex) const; /** Get the value for t and theta, based upon the row and column index. * * @param _iRow row index * @param _iColumn column index * @param _fT output: value of t * @param _fTheta output: value of theta, always lies within the [0,pi[ interval. */ virtual void getRayParams(int _iRow, int _iColumn, float32& _fT, float32& _fTheta) const; /** Returns true if the type of geometry defined in this class is the one specified in _sType. * * @param _sType geometry type to compare to. * @return true if the type of geometry defined in this class is the one specified in _sType. */ virtual bool isOfType(const std::string& _sType) = 0; /** * Returns a vector describing the direction of a ray belonging to a certain detector * * @param _iProjectionIndex index of projection * @param _iProjectionIndex index of detector * * @return a unit vector describing the direction */ virtual CVector3D getProjectionDirection(int _iProjectionIndex, int _iDetectorIndex) = 0; //< For Config unused argument checking ConfigCheckData* configCheckData; friend class ConfigStackCheck; }; //---------------------------------------------------------------------------------------- // Inline member functions //---------------------------------------------------------------------------------------- // Get the initialization state. inline bool CProjectionGeometry2D::isInitialized() const { return m_bInitialized; } // Get the number of detectors. inline int CProjectionGeometry2D::getDetectorCount() const { ASTRA_ASSERT(m_bInitialized); return m_iDetectorCount; } // Get the width of a single detector (in unit lengths). inline float32 CProjectionGeometry2D::getDetectorWidth() const { ASTRA_ASSERT(m_bInitialized); return m_fDetectorWidth; } // Get the number of projection angles. inline int CProjectionGeometry2D::getProjectionAngleCount() const { ASTRA_ASSERT(m_bInitialized); return m_iProjectionAngleCount; } // Get pointer to buffer used to store projection angles. inline const float32* CProjectionGeometry2D::getProjectionAngles() const { ASTRA_ASSERT(m_bInitialized); return m_pfProjectionAngles; } // Get a projection angle, represented in Radians. inline float32 CProjectionGeometry2D::getProjectionAngle(int _iProjectionIndex) const { // basic checks ASTRA_ASSERT(m_bInitialized); ASTRA_ASSERT(_iProjectionIndex >= 0); ASTRA_ASSERT(_iProjectionIndex < m_iProjectionAngleCount); return m_pfProjectionAngles[_iProjectionIndex]; } // Get a projection angle, represented in degrees. inline float32 CProjectionGeometry2D::getProjectionAngleDegrees(int _iProjectionIndex) const { // basic checks ASTRA_ASSERT(m_bInitialized); ASTRA_ASSERT(_iProjectionIndex >= 0); ASTRA_ASSERT(_iProjectionIndex < m_iProjectionAngleCount); return (m_pfProjectionAngles[_iProjectionIndex] * 180.0f / PI32); } // Get T and Theta inline void CProjectionGeometry2D::getRayParams(int _iRow, int _iColumn, float32& _fT, float32& _fTheta) const { ASTRA_ASSERT(m_bInitialized); _fT = indexToDetectorOffset(_iColumn); _fTheta = getProjectionAngle(_iRow); if (PI <= _fTheta) { _fTheta -= PI; _fT = -_fT; } } // detector offset -> detector index inline int CProjectionGeometry2D::detectorOffsetToIndex(float32 _fOffset) const { int res = (int)(detectorOffsetToIndexFloat(_fOffset) + 0.5f); return (res > 0 && res <= m_iDetectorCount) ? res : -1; } // detector offset -> detector index (float) inline float32 CProjectionGeometry2D::detectorOffsetToIndexFloat(float32 _fOffset) const { return (_fOffset / m_fDetectorWidth) + ((m_iDetectorCount-1.0f) * 0.5f); } // detector index -> detector offset inline float32 CProjectionGeometry2D::indexToDetectorOffset(int _iIndex) const { return (_iIndex - (m_iDetectorCount-1.0f) * 0.5f) * m_fDetectorWidth; } // sinogram index -> angle and detecor index inline void CProjectionGeometry2D::indexToAngleDetectorIndex(int _iIndex, int& _iAngleIndex, int& _iDetectorIndex) const { _iAngleIndex = _iIndex / m_iDetectorCount; _iDetectorIndex = _iIndex % m_iDetectorCount; } } // end namespace astra #endif /* _INC_ASTRA_PROJECTIONGEOMETRY2D */