X-Git-Url: http://git.kpe.io/?p=ctsim.git;a=blobdiff_plain;f=include%2Fir.h;h=a834ea3b4486e29c649f59afac810c85594f9dec;hp=3493e75ac90769500fdc2e448fa2622b64a78643;hb=cda35cc393bfef9a53de1a5c611e09992fb77022;hpb=8fc6888d2599bb288f8ff7008994f2b66ecf6d93 diff --git a/include/ir.h b/include/ir.h index 3493e75..a834ea3 100644 --- a/include/ir.h +++ b/include/ir.h @@ -2,8 +2,20 @@ ** This is part of the CTSim program ** Copyright (C) 1983-2000 Kevin Rosenberg ** -** $Id: ir.h,v 1.2 2000/04/28 14:14:16 kevin Exp $ +** $Id: ir.h,v 1.6 2000/05/03 08:49:49 kevin Exp $ ** $Log: ir.h,v $ +** Revision 1.6 2000/05/03 08:49:49 kevin +** Code cleanup +** +** Revision 1.5 2000/05/02 20:00:25 kevin +** *** empty log message *** +** +** Revision 1.4 2000/05/02 15:31:39 kevin +** code cleaning +** +** Revision 1.3 2000/04/29 23:24:29 kevin +** *** empty log message *** +** ** Revision 1.2 2000/04/28 14:14:16 kevin ** *** empty log message *** ** @@ -76,7 +88,7 @@ struct image_st { IMAGE_VAL v; /* values of voxels in matrix form */ SDF_2D *dfp_2d; /* Pointer to disk image file */ int nx, ny; /* size of voxel matrix */ - double xmin, xmax, ymin, ymax; /* extent of voxel matrix in pic coord */ + double xmin, xmax, ymin, ymax; /* extent of voxel matrix in phm coord */ char remark[LENREMARK]; /* description of voxel data */ float calctime; /* time to calculate voxels in seconds */ }; @@ -92,27 +104,27 @@ struct object_st { double xmin, xmax, ymin, ymax; /* object limits */ double radius; /* " */ struct { /* transform matrices */ - GRFMTX_2D p_to_o; /* map from pic to standard obj coords */ - GRFMTX_2D o_to_p; /* map from std object coords to pic coords */ + GRFMTX_2D p_to_o; /* map from phm to standard obj coords */ + GRFMTX_2D o_to_p; /* map from std object coords to phm coords */ } xform; - struct object_st *next; /* pointer to next object in picture */ + struct object_st *next; /* pointer to next object in PHANTOM */ }; typedef struct object_st OBJECT; -struct pic_st { /* Picture structure */ +struct phm_st { /* PHANTOM structure */ OBJECT *objlist; /* object list */ int type; - int numobj; /* number of objects in picture */ + int numobj; /* number of objects in PHANTOM */ double xmin, xmax, ymin, ymax; /* extent of objects in object coordinates */ double radius; /* " " */ }; typedef struct image_st IMAGE; -typedef struct pic_st PICTURE; +typedef struct phm_st PHANTOM; -#define P_OBJECTS 0 /* Picture made of objects */ -#define P_UNIT_PULSE 1 /* Special picture, not made of objects */ +#define P_OBJECTS 0 /* PHANTOM made of objects */ +#define P_UNIT_PULSE 1 /* Special PHANTOM, not made of objects */ #define P_FILTER 9 /* defined only by a type */ /*----------------------------------------------------------------------*/ @@ -127,11 +139,16 @@ typedef struct pic_st PICTURE; struct detarray_st { DETECT_TYPE *detval; /* Pointer to array of values recorded by detector */ - int ndet; /* Number of detectors in array */ + int ndet; /* Number of detectors in array */ double view_angle; /* View angle in radians */ }; +#define DETECTOR_PARALLEL 1 +#define DETECTOR_EQUIANGLE 2 +#define DETECTOR_EQUILINEAR 3 + struct detect_st { + int geometry; /* Geometry of detectory */ int ndet; /* Number of detectors in array */ int nview; /* Number of rotated views */ int nsample; /* Number of rays per detector */ @@ -140,8 +157,8 @@ struct detect_st { double det_inc; /* Increment between centers of detectors */ double rot_inc; /* Increment in rotation angle between views */ double radius; /* Radius of rotation. Distance from */ - /* center of pic to center of det */ - double piclen; /* Maximum Length of picture or area of interest */ + /* center of phm to center of det */ + double phmlen; /* Maximum Length of PHANTOM or area of interest */ struct { double xd1,yd1,xd2,yd2; /* Coordinates of detector endpoints */ double xs1,ys1,xs2,ys2; /* Coordinates of source endpoints */ @@ -163,9 +180,9 @@ struct raysum_st { double rot_start; /* starting view rotation */ double rot_inc; /* angle between rotations */ double det_start; /* distance of beginning detector to center */ - /* of picture */ + /* of PHANTOM */ double det_inc; /* increment between detectors */ - double piclen; /* Length of picture edge (pic is square) */ + double phmlen; /* Length of PHANTOM edge (phm is square) */ }; typedef struct detarray_st DETARRAY; @@ -188,7 +205,7 @@ typedef struct raysum_st RAYSUM; /* Defines coords for inside_obj() */ #define OBJ_COORD -1 /* Normalized Object Coordinates */ -#define PIC_COORD -2 /* User's Picture Coordinates */ +#define PHM_COORD -2 /* User's PHANTOM Coordinates */ /* Codes for Filter types */ @@ -228,9 +245,9 @@ typedef struct raysum_st RAYSUM; #define I_2BSPLINE 4 #define I_3BSPLINE 5 -/* Constants for sizing picture */ +/* Constants for sizing PHANTOM */ -#define PERCENT_PIC_SIZE_INCR 0.0 /* Fractional increase in picture */ +#define PERCENT_PHM_SIZE_INCR 0.0 /* Fractional increase in PHANTOM */ /* limits compared to object size */ #define N_EXTRA_DETECTORS 4 /* Number of extra detectors */ /* widths when calculating detlen */ @@ -240,7 +257,7 @@ typedef struct raysum_st RAYSUM; #define O_TRACE_NONE_STR "none" #define O_TRACE_TEXT_STR "text" -#define O_TRACE_PIC_STR "pic" +#define O_TRACE_PHM_STR "phm" #define O_TRACE_RAYS_STR "rays" #define O_TRACE_PLOT_STR "plot" #define O_TRACE_CLIPPING_STR "clipping" @@ -248,20 +265,20 @@ typedef struct raysum_st RAYSUM; #define TRACE_NONE 0 /* No tracing */ #define TRACE_TEXT 1 /* Minimal status */ -#define TRACE_PIC 2 /* Show picture */ +#define TRACE_PHM 2 /* Show PHANTOM */ #define TRACE_RAYS 3 /* Show all rays */ #define TRACE_PLOT 4 /* Plot raysums */ #define TRACE_CLIPPING 5 /* Plot clipping */ -#define O_PIC_HERMAN 1 /* Herman head phantom */ -#define O_PIC_ROWLAND 2 /* Rowland head phantom */ -#define O_PIC_BROWLAND 3 /* Bordered Rowland head phantom */ -#define O_PIC_UNITPULSE 4 /* Unit pulse phantom */ +#define O_PHM_HERMAN 1 /* Herman head phantom */ +#define O_PHM_ROWLAND 2 /* Rowland head phantom */ +#define O_PHM_BROWLAND 3 /* Bordered Rowland head phantom */ +#define O_PHM_UNITPULSE 4 /* Unit pulse phantom */ -#define O_PIC_HERMAN_STR "herman" -#define O_PIC_ROWLAND_STR "rowland" -#define O_PIC_BROWLAND_STR "browland" -#define O_PIC_UNITPULSE_STR "unitpulse" +#define O_PHM_HERMAN_STR "herman" +#define O_PHM_ROWLAND_STR "rowland" +#define O_PHM_BROWLAND_STR "browland" +#define O_PHM_UNITPULSE_STR "unitpulse" #define O_INTERP_NEAREST_STR "nearest" #define O_INTERP_LINEAR_STR "linear" @@ -373,96 +390,86 @@ int main(const int argc, char * const argv[]); /* bspline.c */ int bspline(int samples, int zoom_factor, int spline_order, double input[], double output[]); -/* clip.c */ -int inside_obj(const OBJECT *obj, double x, double y, const int coord_type); -int clipsegment(double *x1, double *y1, double *x2, double *y2, const double u, const double v); -int clipsector(double *x1, double *y1, double *x2, double *y2, const double u, const double v); -int clipcircle(double *x1, double *y1, double *x2, double *y2, const double cx, const double cy, const double radius, double t1, double t2); -int cliptriangle(double *x1, double *y1, double *x2, double *y2, const double u, const double v, const int clip_xaxis); /* convolve.c */ double convolve(const double f1[], const double f2[], const double dx, const int n, const int np, const int func_type); double convolve_both(const double f1[], const double f2[], const double dx, const int n, const int np); -/* ctsub.c */ -OBJECT *alloc_obj(int n); -void dminmax(const double array[], const int pts, double *xmin, double *xmax); void rotate2d(double x[], double y[], int pts, double angle); void xlat2d(double x[], double y[], int pts, double xoffset, double yoffset); void scale2d(double x[], double y[], int pts, double xfact, double yfact); int circle_pts(double theta); -/* filt.c */ -const char *interp_name_of(int interp_type); -const char *filter_name_of(int filt_type); -int interp_select(void); -int filter_select(double *filt_param); -double d_filtfunc(int filt_type, double x, double bw, double param, int n); -double filter_freq(int filt_type, double u, double bw, double param); -double a_filtfunc(int filt_type, double x, double bw, double param); +/* dialogs.c */ +int add_objs_kb(PHANTOM *phm); +PHANTOM *phm_select(void); +int interpolation_select(void); +int filter_select(double *filter_param); +/* filter.c */ +double *filter_generate(int filt_type, double bw, double xmin, double xmax, int n, double param, int 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 filter_frequency_response(int filt_type, double u, double bw, double param); double sinc(double x, double mult); double abscos_int(double u, double w); -double *filter_generate(int filt_type, double bw, double xmin, double xmax, int n, double param, int domain, int numint); -void image_filter_init(IMAGE *im, int domain, double bw, int filt_type, double filt_param, int opt_trace); -/* im_draw.c */ -void image_show(IMAGE *im, int nxcell, int nycell, double densmin, double densmax, bool disp_scale); -int image_paint(int dev, IMAGE *im, int xmin, int ymin, int nxcell, int nycell, double densmin, double densmax, bool disp_scale); -int gs_image(GREYSCALE *gs, IMAGE *im, double densmin, double densmax, bool disp_scale); -void paint_cscale(GREYSCALE *gs, int nx, int ny); -GREYSCALE *gs_init(int dev, int xmin, int ymin, int nxcell, int nycell); -void gs_pixel(GREYSCALE *gs, int x, int y, int gs_level); -void gs_set_pos(GREYSCALE *gs, int x, int y); -void gs_set_at_addr(GREYSCALE *gs, int gs_level); -void gs_set_color_scale(void); /* image.c */ IMAGE *image_create(const char *fname, const int nx, const int ny); int image_clear(IMAGE *im); int image_save(IMAGE *im); IMAGE *image_load(const char *fname); -/* ir_vars.c */ +void image_filter_response(IMAGE *im, int domain, double bw, int filt_type, double filt_param, int opt_trace); /* options.c */ int opt_set_trace(const char *optarg, const char *program); -const char *name_of_picture(const int picnum); -int opt_set_picture(const char *optarg, const char *program); +const char *name_of_phantom(const int phmid); +int opt_set_phantom(const char *optarg, const char *program); int opt_set_interpolation(const char *optarg, const char *program); +const char *name_of_interpolation(int interp_type); int opt_set_filter(const char *optarg, const char *program); const char *name_of_filter(const int filter); int opt_set_filter_domain(const char *optarg, const char *program); const char *name_of_filter_domain(const int domain); int opt_set_backproj(const char *optarg, const char *program); const char *name_of_backproj(const int backproj); -/* pic.c */ -PICTURE *select_pic(void); -PICTURE *create_pic_from_file(const char *fname); -PICTURE *create_pic(const int picnum); -PICTURE *init_pic(void); -int add_objs_kb(PICTURE *pic); -int add_objs_file(PICTURE *pic, const char *fname); -void addobject(PICTURE *pic, const int type, const double cx, const double cy, +/* phm.c */ +PHANTOM *phm_create(const int phmid); +PHANTOM *phm_create_from_file(const char *fname); +PHANTOM *phm_init(void); +int add_objs_kb(PHANTOM *phm); +int add_objs_file(PHANTOM *phm, const char *fname); +void addobject(PHANTOM *phm, const int type, const double cx, const double cy, const double u, const double v, const double rot, const double atten); int makeobjpts(OBJECT *obj); void makeobjxform(OBJECT *obj); 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); -void prt_pic(PICTURE *pic); -void show_pic(const PICTURE *pic); -void draw_pic(const PICTURE *pic); -/* pic2image.c */ -void pic_to_image(const PICTURE *pic, IMAGE *im, const int col_start, const int col_count, +OBJECT *alloc_obj(void); +void phm_print(PHANTOM *phm); +#if HAVE_INTERACTIVE_GRAPHICS +void phm_show(const PHANTOM *phm); +void phm_draw(const PHANTOM *phm); +#endif +/* phm2image.c */ +void phm_to_image(const PHANTOM *phm, IMAGE *im, const int col_start, const int col_count, const int nsample, const int trace); +int inside_obj(const OBJECT *obj, double x, double y, const int coord_type); +/* phmstd.c */ +void herm_head(PHANTOM *phm); +void row_head(PHANTOM *phm); +void row_bord_head(PHANTOM *phm); /* ray.c */ -void rs_trace_showprm (const char *label, const char *fmt, int row, int color, ...); -DETECTOR *detect_create(const PICTURE *pic, int ndet, int nview, int nsample, const double rot_anglen); +DETECTOR *detect_create(const PHANTOM *phm, int ndet, int nview, int nsample, const double rot_anglen); void detect_free(DETECTOR *det); -int raysum_collect(RAYSUM *rs, const DETECTOR *det, const PICTURE *pic, const int start_view, +double calc_rsum(const PHANTOM *phm, const double x1, const double y1, const double x2, const double y2); +double calc_objsum(const OBJECT *obj, const double x1, const double y1, const double x2, const double y2); +int clipobj(const OBJECT *obj, double *x1, double *y1, double *x2, double *y2); +/* 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 PICTURE *pic, DETARRAY *darray, const DETECTOR *det, +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 calc_rsum(const PICTURE *pic, const double x1, const double y1, const double x2, const double y2); -double calc_objsum(const OBJECT *obj, const double x1, const double y1, const double x2, const double y2); -int clipobj(const OBJECT *obj, double *x1, double *y1, double *x2, double *y2); +void rs_trace_showprm (const char *label, const char *fmt, int row, int color, ...); /* rayio.c */ -RAYSUM *raysum_create(const char *fname, const int nview, const int ndet, const int in_memory); -RAYSUM *raysum_create_from_det(const char *fname, const DETECTOR *det, const int in_memory); +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_open(const char *filename); void raysum_alloc_views(RAYSUM *rs); void raysum_free(RAYSUM *rs); @@ -477,16 +484,6 @@ void detarray_free(DETARRAY *darray); int detarray_read(RAYSUM *rs, DETARRAY *darray, const int view_num); int detarray_write(RAYSUM *rs, const DETARRAY *darray, const int view_num); int raysum_print(const RAYSUM *rs); -/* phantom.c */ -void herm_head(PICTURE *pic); -void row_head(PICTURE *pic); -void row_bord_head(PICTURE *pic); -/* xform.c */ -void indent_mtx2(GRFMTX_2D m); -void xlat_mtx2(GRFMTX_2D m, const double x, const double y); -void scale_mtx2(GRFMTX_2D m, const double sx, const double sy); -void rot_mtx2(GRFMTX_2D m, const double theta); -void mult_mtx2(GRFMTX_2D m1, GRFMTX_2D m2, GRFMTX_2D result); -void xform_mtx2(GRFMTX_2D m, double *x, double *y); + #endif