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root/radiance/ray/src/common/fvect.h
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Comparing ray/src/common/fvect.h (file contents):
Revision 2.8 by greg, Tue Feb 25 02:47:21 2003 UTC vs.
Revision 2.19 by greg, Fri Feb 12 00:41:18 2021 UTC

# Line 2 | Line 2
2   /*
3   * Declarations for floating-point vector operations.
4   */
5 + #ifndef _RAD_FVECT_H_
6 + #define _RAD_FVECT_H_
7 + #ifdef __cplusplus
8 + extern "C" {
9 + #endif
10  
6 #include "copyright.h"
7
11   #ifdef  SMLFLT
12 < #define  FLOAT          float
12 > #define  RREAL          float
13   #define  FTINY          (1e-3)
14 + #define  FVFORMAT       "%f %f %f"
15   #else
16 < #define  FLOAT          double
16 > #define  RREAL          double
17   #define  FTINY          (1e-6)
18 + #define  FVFORMAT       "%lf %lf %lf"
19   #endif
20   #define  FHUGE          (1e10)
21  
22 < typedef FLOAT  FVECT[3];
22 > #define  FABSEQ(x1,x2)  ((x1)+FTINY > (x2) && (x2)+FTINY > (x1))
23 > #define  FRELEQ(x1,x2)  ((x1)*(1.+FTINY) >= (x2) && (x2)*(1.+FTINY) >= (x1))
24  
25 + #define  VABSEQ(v,w)    (FABSEQ((v)[0],(w)[0]) && FABSEQ((v)[1],(w)[1]) \
26 +                                && FABSEQ((v)[2],(w)[2]))
27 + #define  VRELEQ(v,w)    (FRELEQ((v)[0],(w)[0]) && FRELEQ((v)[1],(w)[1]) \
28 +                                && FRELEQ((v)[2],(w)[2]))
29 +
30 + typedef RREAL  FVECT[3];
31 +
32   #define  VCOPY(v1,v2)   ((v1)[0]=(v2)[0],(v1)[1]=(v2)[1],(v1)[2]=(v2)[2])
33   #define  DOT(v1,v2)     ((v1)[0]*(v2)[0]+(v1)[1]*(v2)[1]+(v1)[2]*(v2)[2])
34   #define  VLEN(v)        sqrt(DOT(v,v))
# Line 33 | Line 46 | typedef FLOAT  FVECT[3];
46                          (vr)[1]=(v1)[2]*(v2)[0]-(v1)[0]*(v2)[2], \
47                          (vr)[2]=(v1)[0]*(v2)[1]-(v1)[1]*(v2)[0])
48  
49 < #ifdef NOPROTO
49 > #define GEOD_RAD        0       /* geodesic distance specified in radians */
50 > #define GEOD_ABS        1       /* absolute geodesic distance */
51 > #define GEOD_REL        2       /* relative geodesic distance */
52  
53 < extern double  fdot(), dist2(), dist2lseg(), dist2line(), normalize();
54 < extern void  fcross(), fvsum(), spinvector();
55 <
56 < #else
57 <
58 < extern double   fdot(FVECT v1, FVECT v2);
59 < extern double   dist2(FVECT v1, FVECT v2);
60 < extern double   dist2line(FVECT p, FVECT ep1, FVECT ep2);
46 < extern double   dist2lseg(FVECT p, FVECT ep1, FVECT ep2);
47 < extern void     fcross(FVECT vres, FVECT v1, FVECT v2);
48 < extern void     fvsum(FVECT vres, FVECT v0, FVECT v1, double f);
53 > extern double   Acos(double x);
54 > extern double   Asin(double x);
55 > extern double   fdot(const FVECT v1, const FVECT v2);
56 > extern double   dist2(const FVECT v1, const FVECT v2);
57 > extern double   dist2line(const FVECT p, const FVECT ep1, const FVECT ep2);
58 > extern double   dist2lseg(const FVECT p, const FVECT ep1, const FVECT ep2);
59 > extern void     fcross(FVECT vres, const FVECT v1, const FVECT v2);
60 > extern void     fvsum(FVECT vres, const FVECT v0, const FVECT v1, double f);
61   extern double   normalize(FVECT v);
62 < extern void     spinvector(FVECT vres, FVECT vorig, FVECT vnorm, double theta);
63 <
62 > extern int      getperpendicular(FVECT vp, const FVECT v, int randomize);
63 > extern int      closestapproach(RREAL t[2],
64 >                        const FVECT rorg0, const FVECT rdir0,
65 >                        const FVECT rorg1, const FVECT rdir1);
66 > extern void     spinvector(FVECT vres, const FVECT vorig,
67 >                        const FVECT vnorm, double theta);
68 > extern double   geodesic(FVECT vres, const FVECT vorig,
69 >                        const FVECT vtarg, double t, int meas);
70 > #ifdef __cplusplus
71 > }
72   #endif
73 + #endif /* _RAD_FVECT_H_ */
74 +

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