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root/Development/ray/src/cv/bsdfrep.h
Revision: 2.13
Committed: Thu Mar 6 00:40:37 2014 UTC (11 years, 8 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.12: +2 -2 lines
Log Message: 
Switched to calling Acos() wherever appropriate

File Contents

# User Rev Content
1 greg 2.13 /* RCSid $Id: bsdfrep.h,v 2.12 2014/02/19 05:16:06 greg Exp $ */
2 greg 2.1 /*
3     * Definitions for BSDF representation used to interpolate measured data.
4     *
5     * G. Ward
6     */
7    
8     #include "bsdf.h"
9    
10     #define DEBUG 1
11    
12     #ifndef GRIDRES
13 greg 2.10 #define GRIDRES (1<<8) /* grid resolution per side */
14 greg 2.1 #endif
15     /* convert to/from coded radians */
16     #define ANG2R(r) (int)((r)*((1<<16)/M_PI))
17     #define R2ANG(c) (((c)+.5)*(M_PI/(1<<16)))
18    
19     typedef struct {
20     float vsum; /* DSF sum */
21 greg 2.9 unsigned int nval; /* number of values in sum */
22 greg 2.1 unsigned short crad; /* radius (coded angle) */
23     } GRIDVAL; /* grid value */
24    
25     typedef struct {
26     float peak; /* lobe value at peak */
27     unsigned short crad; /* radius (coded angle) */
28     unsigned char gx, gy; /* grid position */
29     } RBFVAL; /* radial basis function value */
30    
31     struct s_rbfnode; /* forward declaration of RBF struct */
32    
33     typedef struct s_migration {
34     struct s_migration *next; /* next in global edge list */
35     struct s_rbfnode *rbfv[2]; /* from,to vertex */
36     struct s_migration *enxt[2]; /* next from,to sibling */
37     float mtx[1]; /* matrix (extends struct) */
38     } MIGRATION; /* migration link (winged edge structure) */
39    
40     typedef struct s_rbfnode {
41     int ord; /* ordinal position in list */
42     struct s_rbfnode *next; /* next in global RBF list */
43     MIGRATION *ejl; /* edge list for this vertex */
44     FVECT invec; /* incident vector direction */
45     double vtotal; /* volume for normalization */
46     int nrbf; /* number of RBFs */
47     RBFVAL rbfa[1]; /* RBF array (extends struct) */
48     } RBFNODE; /* RBF representation of DSF @ 1 incidence */
49    
50     /* symmetry operations */
51     #define MIRROR_X 1 /* mirror(ed) x-coordinate */
52     #define MIRROR_Y 2 /* mirror(ed) y-coordinate */
53    
54     /* represented incident quadrants */
55     #define INP_QUAD1 1 /* 0-90 degree quadrant */
56     #define INP_QUAD2 2 /* 90-180 degree quadrant */
57     #define INP_QUAD3 4 /* 180-270 degree quadrant */
58     #define INP_QUAD4 8 /* 270-360 degree quadrant */
59    
60 greg 2.11 /* name and manufacturer if known */
61     extern char bsdf_name[];
62     extern char bsdf_manuf[];
63 greg 2.5 /* active grid resolution */
64     extern int grid_res;
65 greg 2.3 /* coverage/symmetry using INP_QUAD? flags */
66 greg 2.1 extern int inp_coverage;
67    
68     /* all incident angles in-plane so far? */
69     extern int single_plane_incident;
70    
71     /* input/output orientations */
72     extern int input_orient;
73     extern int output_orient;
74    
75 greg 2.7 /* log BSDF histogram */
76     #define HISTLEN 256
77     #define BSDF2BIG (1./M_PI)
78     #define BSDF2SML 1e-8
79     #define HISTLNR 17.2759509 /* log(BSDF2BIG/BSDF2SML) */
80 greg 2.9 extern unsigned long bsdf_hist[HISTLEN];
81 greg 2.7 #define histndx(v) (int)(log((v)*(1./BSDF2SML))*(HISTLEN/HISTLNR))
82     #define histval(i) (exp(((i)+.5)*(HISTLNR/HISTLEN))*BSDF2SML)
83    
84     /* BSDF value for boundary regions */
85     extern double bsdf_min;
86    
87 greg 2.1 /* processed incident DSF measurements */
88     extern RBFNODE *dsf_list;
89    
90     /* RBF-linking matrices (edges) */
91     extern MIGRATION *mig_list;
92    
93 greg 2.3 #define mtx_nrows(m) (m)->rbfv[0]->nrbf
94     #define mtx_ncols(m) (m)->rbfv[1]->nrbf
95 greg 2.2 #define mtx_coef(m,i,j) (m)->mtx[(i)*mtx_ncols(m) + (j)]
96 greg 2.1 #define is_src(rbf,m) ((rbf) == (m)->rbfv[0])
97     #define is_dest(rbf,m) ((rbf) == (m)->rbfv[1])
98     #define nextedge(rbf,m) (m)->enxt[is_dest(rbf,m)]
99     #define opp_rbf(rbf,m) (m)->rbfv[is_src(rbf,m)]
100    
101     #define round(v) (int)((v) + .5 - ((v) < -.5))
102    
103 greg 2.2 #define BSDFREP_FMT "BSDF_RBFmesh"
104 greg 2.1
105     /* global argv[0] */
106     extern char *progname;
107    
108     /* get theta value in degrees [0,180) range */
109 greg 2.13 #define get_theta180(v) ((180./M_PI)*Acos((v)[2]))
110 greg 2.1 /* get phi value in degrees, [0,360) range */
111 greg 2.4 #define get_phi360(v) ((180./M_PI)*atan2((v)[1],(v)[0]) + 360.*((v)[1]<0))
112 greg 2.1
113     /* our loaded grid for this incident angle */
114     extern double theta_in_deg, phi_in_deg;
115     extern GRIDVAL dsf_grid[GRIDRES][GRIDRES];
116    
117     /* Register new input direction */
118     extern int new_input_direction(double new_theta, double new_phi);
119    
120     #define new_input_vector(v)\
121     new_input_direction(get_theta180(v),get_phi360(v))
122    
123     /* Apply symmetry to the given vector based on distribution */
124     extern int use_symmetry(FVECT vec);
125    
126     /* Reverse symmetry based on what was done before */
127     extern void rev_symmetry(FVECT vec, int sym);
128    
129     /* Reverse symmetry for an RBF distribution */
130     extern void rev_rbf_symmetry(RBFNODE *rbf, int sym);
131    
132 greg 2.6 /* Rotate RBF to correspond to given incident vector */
133     extern void rotate_rbf(RBFNODE *rbf, const FVECT invec);
134    
135 greg 2.1 /* Compute volume associated with Gaussian lobe */
136     extern double rbf_volume(const RBFVAL *rbfp);
137    
138     /* Compute outgoing vector from grid position */
139     extern void ovec_from_pos(FVECT vec, int xpos, int ypos);
140    
141     /* Compute grid position from normalized input/output vector */
142     extern void pos_from_vec(int pos[2], const FVECT vec);
143    
144     /* Evaluate RBF for DSF at the given normalized outgoing direction */
145     extern double eval_rbfrep(const RBFNODE *rp, const FVECT outvec);
146    
147     /* Insert a new directional scattering function in our global list */
148     extern int insert_dsf(RBFNODE *newrbf);
149    
150     /* Get the DSF indicated by its ordinal position */
151     extern RBFNODE * get_dsf(int ord);
152    
153     /* Get triangle surface orientation (unnormalized) */
154     extern void tri_orient(FVECT vres, const FVECT v1,
155     const FVECT v2, const FVECT v3);
156    
157     /* Determine if vertex order is reversed (inward normal) */
158     extern int is_rev_tri(const FVECT v1,
159     const FVECT v2, const FVECT v3);
160    
161     /* Find vertices completing triangles on either side of the given edge */
162     extern int get_triangles(RBFNODE *rbfv[2], const MIGRATION *mig);
163    
164 greg 2.3 /* Clear our BSDF representation and free memory */
165     extern void clear_bsdf_rep(void);
166    
167 greg 2.1 /* Write our BSDF mesh interpolant out to the given binary stream */
168     extern void save_bsdf_rep(FILE *ofp);
169    
170     /* Read a BSDF mesh interpolant from the given binary stream */
171     extern int load_bsdf_rep(FILE *ifp);
172    
173     /* Start new DSF input grid */
174     extern void new_bsdf_data(double new_theta, double new_phi);
175    
176     /* Add BSDF data point */
177     extern void add_bsdf_data(double theta_out, double phi_out,
178     double val, int isDSF);
179    
180     /* Count up filled nodes and build RBF representation from current grid */
181     extern RBFNODE * make_rbfrep(void);
182    
183     /* Build our triangle mesh from recorded RBFs */
184     extern void build_mesh(void);
185    
186     /* Find edge(s) for interpolating the given vector, applying symmetry */
187     extern int get_interp(MIGRATION *miga[3], FVECT invec);
188    
189 greg 2.12 /* Advect and allocate new RBF along edge (internal call) */
190     extern RBFNODE * e_advect_rbf(const MIGRATION *mig,
191     const FVECT invec, int lobe_lim);
192    
193 greg 2.1 /* Partially advect between recorded incident angles and allocate new RBF */
194 greg 2.8 extern RBFNODE * advect_rbf(const FVECT invec, int lobe_lim);