** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: scanner.h,v 1.13 2000/08/27 20:32:55 kevin Exp $
+** $Id: scanner.h,v 1.23 2003/04/01 19:49:41 kevin Exp $
**
**
** This program is free software; you can redistribute it and/or modify
static const int Scanner::GEOMETRY_PARALLEL;
static const int Scanner::GEOMETRY_EQUILINEAR;
static const int Scanner::GEOMETRY_EQUIANGULAR;
+ static const int Scanner::GEOMETRY_LINOGRAM;
- Scanner (const Phantom& phm, const char* const geometryName, int nDet, int nView, int nSample, const double rot_anglen, double dFieldOfView, double dFocalLength);
+ Scanner (const Phantom& phm, const char* const geometryName, int nDet,
+ int nView, int iOffsetView, int nSample, const double rot_anglen,
+ double dFocalLengthRatio, double dCenterDetectorRatio, double dViewRatio, double dScanRatio);
~Scanner();
- void collectProjections (Projections& proj, const Phantom& phm, const int trace = Trace::TRACE_NONE, SGP* pSGP = NULL);
+ void collectProjections (Projections& proj, const Phantom& phm, const int trace = Trace::TRACE_NONE,
+ SGP* pSGP = NULL);
- void collectProjections (Projections& proj, const Phantom& phm, const int iStartView, const int iNumViews, bool bStoreAtViewPosition, const int trace = Trace::TRACE_NONE, SGP* pSGP = NULL);
+ void collectProjections (Projections& proj, const Phantom& phm, const int iStartView, const int iNumViews, const int iOffsetView, bool bStoreAtViewPosition, const int trace = Trace::TRACE_NONE, SGP* pSGP = NULL);
+
+ void collectProjections (Projections& proj, const Phantom& phm, const int iStartView, const int iNumViews, const int iOffsetView, int iStorageOffset, const int trace = Trace::TRACE_NONE, SGP* pSGP = NULL);
void setNView (int nView);
+ void setOffsetView (int iOffsetView);
bool fail() const {return m_fail;}
- const string& failMessage() const {return m_failMessage;}
+ const std::string& failMessage() const {return m_failMessage;}
unsigned int nDet() const {return m_nDet;}
unsigned int nView() const {return m_nView;}
- double phmLen() const {return m_phmLen;}
+ unsigned int offsetView() const {return m_iOffsetView;}
+ unsigned int startView() const {return m_startView;}
double rotInc() const {return m_rotInc;}
double detInc() const {return m_detInc;}
double detLen() const {return m_detLen;}
+ double detStart() const {return m_detStart;}
double focalLength() const {return m_dFocalLength;}
- double fieldOfView() const {return m_dFieldOfView;}
+ double sourceDetectorLength() const {return m_dSourceDetectorLength;}
+ double centerDetectorLength() const {return m_dCenterDetectorLength;}
+
+ double viewDiameter() const {return m_dViewDiameter;}
+ double scanDiameter() const {return m_dScanDiameter;}
+ double fanBeamAngle() const {return m_dFanBeamAngle;}
+
+ int geometry() const {return m_idGeometry;}
static int getGeometryCount() {return s_iGeometryCount;}
static const char** getGeometryNameArray() {return s_aszGeometryName;}
private:
bool m_fail;
- string m_failMessage;
+ std::string m_failMessage;
int m_idGeometry;
unsigned int m_nDet; /* Number of detectors in array */
unsigned int m_nView; /* Number of rotated views */
+ unsigned int m_iOffsetView;
+ unsigned int m_startView;
unsigned int m_nSample; /* Number of rays per detector */
- double m_dFieldOfView; // Field of View
- double m_dFocalLength; // Focal Length
- double m_dFieldOfViewRatio; // Field of View Ratio to diameter phmLen
- double m_dFocalLengthRatio; // Focal Length ratio to radius phmLen
+ double m_dFocalLength; // Focal Length, distance from source to center
+ double m_dSourceDetectorLength; // Distance from source to detectors
+ double m_dCenterDetectorLength; // Distance from center to detectors
+ double m_dViewDiameter; // Diameter of area being processed
+ double m_dScanDiameter; // Diamer of area being scanned
+ double m_dViewRatio; // View Ratio to diameter phantom
+ double m_dFocalLengthRatio; // Source to Center Length as ratio to viewDiameter radius
+ double m_dCenterDetectorRatio; // Center to Detector Length as ratio of viewDiameter radius
+ double m_dScanRatio; // Scan length to view length ratio
+ double m_dFanBeamAngle;
double m_detLen; // Total length of detector array
double m_rotLen; // Rotation angle length in radians (norm 2PI)
double m_detInc; // Increment between centers of detectors
double m_rotInc; // Increment in rotation angle between views
- double m_phmLen; // Maximum Length of phantom or area of interest
+ double m_detStart;
double m_dXCenter; // Center of Phantom
double m_dYCenter;
+ double m_dAngularDetIncrement;
+ double m_dAngularDetLen;
int m_trace;
struct {
double xd1,yd1,xd2,yd2; /* Coordinates of detector endpoints */
double xs1,ys1,xs2,ys2; /* Coordinates of source endpoints */
double angle; /* Starting angle */
+ double dAngularDet;
} m_initPos;
GRFMTX_2D m_rotmtxIncrement;
-#if HAVE_SGP
+#ifdef HAVE_SGP
SGP* m_pSGP; // Pointer to graphics device
double m_dXMinWin; // Extent of graphics window
double m_dXMaxWin;
};
-const static int PROJECTION_TRACE_ROW_TITLE=0;
-const static int PROJECTION_TRACE_ROW_TITLE2=1;
-const static int PROJECTION_TRACE_ROW_PHANT_ID=3;
-const static int PROJECTION_TRACE_ROW_GEOMETRY=4;
-const static int PROJECTION_TRACE_ROW_FOCAL_LENGTH=5;
-const static int PROJECTION_TRACE_ROW_FIELD_OF_VIEW=6;
-const static int PROJECTION_TRACE_ROW_NDET=7;
-const static int PROJECTION_TRACE_ROW_NVIEW=8;
-const static int PROJECTION_TRACE_ROW_SAMPLES=9;
-const static int PROJECTION_TRACE_ROW_CURR_VIEW=10;
-const static int PROJECTION_TRACE_ROW_ATTEN=11;
+const static int PROJECTION_TRACE_ROW_PHANT_ID=0;
+const static int PROJECTION_TRACE_ROW_GEOMETRY=1;
+const static int PROJECTION_TRACE_ROW_FOCAL_LENGTH=2;
+const static int PROJECTION_TRACE_ROW_FIELD_OF_VIEW=3;
+const static int PROJECTION_TRACE_ROW_NDET=4;
+const static int PROJECTION_TRACE_ROW_NVIEW=5;
+const static int PROJECTION_TRACE_ROW_SAMPLES=6;
+const static int PROJECTION_TRACE_ROW_CURR_VIEW=7;
+const static int PROJECTION_TRACE_ROW_ATTEN=8;