** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: ir.h,v 1.25 2000/06/10 22:33:11 kevin Exp $
+** $Id: ir.h,v 1.27 2000/06/15 19:07:10 kevin Exp $
**
**
** This program is free software; you can redistribute it and/or modify
#define IR_H
-struct histo_st {
- int *b; /* Histogram array (# of elements in each bin) */
- int nbin; /* Number of histogram bins */
- double xmin, xmax, xinc; /* Limits of histogram boundaries */
-};
-
-typedef struct histo_st HISTOGRAM;
-
-/*---------------------------------------------------------------------------*/
-
-static const int POINTS_PER_CIRCLE=90;
-#define MAXREMARK 99
-
-typedef enum {
- RECTANGLE,
- TRIANGLE,
- ELLIPSE,
- SECTOR,
- SEGMENT
-} PElmType;
-
-struct pelm_st {
- PElmType type; /* pelm type (box, ellipse, etc) */
- double atten; /* X-ray attenuation coefficient */
- double cx,cy; /* center of pelm */
- double u,v; /* size of pelm */
- double rot; /* pelm rotation angle (in radians) */
- double *x, *y; /* ptr to array of points in obj world coord */
- int pts; /* number of points in outline arrays */
- double xmin, xmax, ymin, ymax; /* pelm limits */
- double radius; /* " */
- GRFMTX_2D p_to_o; /* map from phantom to standard pelm coords */
- GRFMTX_2D o_to_p; /* map from std pelm coords to phantom coords */
- struct pelm_st *next; /* pointer to next pelm in phantom */
-};
-typedef struct pelm_st PELM;
-
-typedef enum {
- P_PELMS, /* Phantom made of Pelms */
- P_UNIT_PULSE, /* Special phantom, not made of pelms */
- P_FILTER /* defined only by this type */
-} PhmType;
-
-struct phm_st { /* Phantom structure */
- PELM *pelm_list; /* pelm linked-list */
- PhmType type;
- int n_pelm; /* number of pelms in phantom */
- double xmin, xmax, ymin, ymax; /* extent of pelms in pelm coordinates */
- double radius; /* " " */
-};
-typedef struct phm_st PHANTOM;
+#include "phantom.h"
/*----------------------------------------------------------------------*/
typedef float DETECT_TYPE;
-struct detarray_st {
+struct DetectorArray
+{
DETECT_TYPE *detval; /* Pointer to array of values recorded by detector */
int ndet; /* Number of detectors in array */
double view_angle; /* View angle in radians */
};
-typedef struct detarray_st DETARRAY;
+typedef struct DetectorArray DETARRAY;
typedef enum {
DETECTOR_EQUILINEAR
} ScannerGeometry;
-struct detector_st {
+
+class Detector
+{
+ public:
ScannerGeometry geometry; /* Geometry of detectory */
int ndet; /* Number of detectors in array */
int nview; /* Number of rotated views */
double xs1,ys1,xs2,ys2; /* Coordinates of source endpoints */
double angle; /* Starting angle */
} init;
+
+ Detector (const Phantom& phm, const ScannerGeometry geometry, int ndet, int nview, int nsample, const double rot_anglen);
+ ~Detector();
+
};
-typedef struct detector_st DETECTOR;
-struct raysum_st {
+
+class Projections
+{
+ public:
int fd; /* Disk file descriptor */
int file_mode; /* Current file mode (read or write) */
int header_size; /* Size of disk file header */
int geometry; /* Geometry of scanner */
- struct detarray_st **view; /* Pointer to array of detarray_st pointers */
+ struct DetectorArray **view; /* Pointer to array of detarray_st pointers */
- char remark[MAXREMARK+1]; /* description of raysum data */
+ string remark; /* description of raysum data */
double calctime; /* time required to calculate raysums */
int ndet; /* number of detectors in array */
double det_inc; /* increment between detectors */
double phmlen; /* Length of PHANTOM edge (phm is square) */
};
-typedef struct raysum_st RAYSUM;
+typedef class Projections RAYSUM;
/*----------------------------------------------------------------------*/
/* USER SYMBOLS */
/*----------------------------------------------------------------------*/
-/* Codes for Coordinate Types */
-/* Defines coords for pelm_is_point_inside() */
-
-typedef enum {
- PELM_COORD, /* Normalized Pelm Coordinates */
- PHM_COORD /* User's phantom Coordinates */
-} CoordType;
-
/* Codes for Filter types */
typedef enum { /* filter types for filter_generate() */
I_LINEAR /* Linear interpolation */
} InterpolationType;
-/* Constants for sizing PHANTOM */
-
-static const double PERCENT_PHM_SIZE_INCR=0.0; /* Fractional increase in phantom limits compared to pelm size */
static const int N_EXTRA_DETECTORS=4; /* Number of extra detectors widths when calculating detlen */
static const char O_TRACE_NONE_STR[]= "none";
const static int RAYSUM_TRACE_ROW_ATTEN=18;
+
/*************************************************************************
* FUNCTION DECLARATIONS
************************************************************************/
-/* convolve.c */
+/* convolve.cpp */
double convolve (const double f1[], const double f2[], const double dx, const int n, const int np, const FunctionSymmetry func_type);
-double convolve_both (const double f1[], const double f2[], const double dx, const int n, const int np);
-/* dialogs.c */
-int phm_add_pelm_kb (PHANTOM *phm);
-PHANTOM *phm_select (void);
+/* dialogs.cpp */
+bool phm_add_pelem_kb (Phantom& phm);
+const Phantom& phm_select (Phantom& phm);
int interpolation_select (void);
int filter_select (double *filter_param);
-/* filter.c */
+/* filter.cpp */
double *filter_generate (const FilterType filt_type, double bw, double xmin, double xmax, int n, double param, const DomainType domain, int numint);
double filter_spatial_response_calc (int filt_type, double x, double bw, double param, int n);
double filter_spatial_response_analytic (int filt_type, double x, double bw, double param);
double sinc (double x, double mult);
double integral_abscos(double u, double w);
-/* options.c */
+/* options.cpp */
int opt_set_trace(const char *optarg);
const char *name_of_phantom(const int phmid);
int opt_set_phantom(const char *optarg);
BackprojType opt_set_backproj(const char *optarg);
const char *name_of_backproj(const BackprojType backproj);
-/* phm.c */
-PHANTOM *phm_create(const int phmid);
-PHANTOM *phm_create_from_file(const char *fname);
-PHANTOM *phm_init(void);
-void phm_free (PHANTOM *phm);
-int phm_add_pelm_file(PHANTOM *phm, const char *fname);
-void phm_add_pelm (PHANTOM *phm, const char *type, const double cx, const double cy,
- const double u, const double v, const double rot, const double atten);
-int pelm_make_points(PELM *obj);
-void pelm_make_xform (PELM *obj);
-PELM *pelm_alloc(void);
-void calc_arc(double x[], double y[], const int pts, const double xcent, const double ycent,
- const double r, const double start, const double stop);
-void calc_ellipse(double x[], double y[], const int pts, const double u, const double v);
-int circle_pts(double theta);
-void phm_print(PHANTOM *phm);
-#if HAVE_SGP
-void phm_show(const PHANTOM *phm);
-void phm_draw(const PHANTOM *phm);
-#endif
-
-/* phmstd.c */
-void phm_std_herman (PHANTOM *phm);
-void phm_std_rowland (PHANTOM *phm);
-void phm_std_rowland_bordered (PHANTOM *phm);
-
-/* raycollect.c */
-int raysum_collect(RAYSUM *rs, const DETECTOR *det, const PHANTOM *phm, const int start_view, const int trace, const int unit_pulse);
-void rayview(const PHANTOM *phm, DETARRAY *darray, const DETECTOR *det, const double xd1, const double yd1, const double xd2, const double yd2, const double xs1, const double ys1, const double xs2, const double ys2, const int unit_pulse);
-double phm_ray_attenuation (const PHANTOM *phm, const double x1, const double y1, const double x2, const double y2);
-double pelm_ray_attenuation (PELM *pelm, const double x1, const double y1, const double x2, const double y2);
-int pelm_clip_line (const PELM *pelm, double& x1, double& y1, double& x2, double& y2);
+/* raycollect.cpp */
+int raysum_collect (RAYSUM *rs, const Detector& det, const Phantom& phm, const int start_view, const int trace, const int unit_pulse);
+void rayview (const Phantom& phm, DETARRAY *darray, const Detector& det, const double xd1, const double yd1, const double xd2, const double yd2, const double xs1, const double ys1, const double xs2, const double ys2, const int unit_pulse);
+double phm_ray_attenuation (const Phantom& phm, const double x1, const double y1, const double x2, const double y2);
+double pelem_ray_attenuation (PhantomElement& pelem, const double x1, const double y1, const double x2, const double y2);
void raysum_trace_show_param (const char *label, const char *fmt, int row, int color, ...);
-/* scanner.c */
-DETECTOR *detector_create(const PHANTOM *phm, const ScannerGeometry geometry, int ndet, int nview, int nsample, const double rot_anglen);
-void detector_free(DETECTOR *det);
-
-/* rayio.c */
+/* rayio.cpp */
RAYSUM *raysum_create(const char *fname, const int nview, const int ndet);
-RAYSUM *raysum_create_from_det(const char *fname, const DETECTOR *det);
+RAYSUM *raysum_create_from_det(const char *fname, const Detector& det);
RAYSUM *raysum_open(const char *filename);
void raysum_alloc_views(RAYSUM *rs);
void raysum_free(RAYSUM *rs);
int detarray_write(RAYSUM *rs, const DETARRAY *darray, const int view_num);
/* From phm2image.cpp */
-void phm_to_imagefile (const PHANTOM *phm, ImageFile& im, const int col_start, const int col_count, const int nsample, const int trace);
-int pelm_is_point_inside(PELM *obj, const double x, const double y, const CoordType coord_type);
+void phm_to_imagefile (const Phantom& phm, ImageFile& im, const int col_start, const int col_count, const int nsample, const int trace);
/* image.cpp */
void image_filter_response(ImageFile& im, const DomainType domain, double bw, const FilterType filt_type, double filt_param, const int opt_trace);