source: trunk/MagicSoft/slalib/dcmpf.c@ 1993

Last change on this file since 1993 was 731, checked in by tbretz, 24 years ago
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1#include "slalib.h"
2#include "slamac.h"
3void slaDcmpf ( double coeffs[6],
4 double *xz, double *yz, double *xs,
5 double *ys, double *perp, double *orient )
6/*
7** - - - - - - - - -
8** s l a D c m p f
9** - - - - - - - - -
10**
11** Decompose an [x,y] linear fit into its constituent parameters:
12** zero points, scales, nonperpendicularity and orientation.
13**
14** Given:
15** coeffs double[6] transformation coefficients (see note)
16**
17** Returned:
18** *xz double x zero point
19** *yz double y zero point
20** *xs double x scale
21** *ys double y scale
22** *perp double nonperpendicularity (radians)
23** *orient double orientation (radians)
24**
25** The model relates two sets of [x,y] coordinates as follows.
26** Naming the elements of coeffs:
27**
28** coeffs[0] = a
29** coeffs[1] = b
30** coeffs[2] = c
31** coeffs[3] = d
32** coeffs[4] = e
33** coeffs[5] = f
34**
35** The model transforms coordinates [x1,y1] into coordinates
36** [x2,y2] as follows:
37**
38** x2 = a + b*x1 + c*y1
39** y2 = d + e*x1 + f*y1
40**
41** The transformation can be decomposed into four steps:
42**
43** 1) Zero points:
44**
45** x' = xz + x1
46** y' = yz + y1
47**
48** 2) Scales:
49**
50** x'' = xs*x'
51** y'' = ys*y'
52**
53** 3) Nonperpendicularity:
54**
55** x''' = cos(perp/2)*x'' + sin(perp/2)*y''
56** y''' = sin(perp/2)*x'' + cos(perp/2)*y''
57**
58** 4) Orientation:
59**
60** x2 = cos(orient)*x''' + sin(orient)*y'''
61** y2 =-sin(orient)*y''' + cos(orient)*y'''
62**
63** See also slaFitxy, slaPxy, slaInvf, slaXy2xy
64**
65** Last revision: 22 September 1995
66**
67** Copyright P.T.Wallace. All rights reserved.
68*/
69{
70 double a, b, c, d, e, f, rb2e2, rc2f2, xsc, ysc, p,
71 ws, wc, or, hp, shp, chp, sor, cor, det, x0, y0;
72
73/* Copy the six coefficients */
74 a = coeffs[0];
75 b = coeffs[1];
76 c = coeffs[2];
77 d = coeffs[3];
78 e = coeffs[4];
79 f = coeffs[5];
80
81/* Scales */
82 rb2e2 = sqrt ( b * b + e * e );
83 rc2f2 = sqrt ( c * c + f * f );
84 if ( ( b * f - c * e ) >= 0.0 )
85 xsc = rb2e2;
86 else {
87 b = -b;
88 c = -c;
89 xsc = -rb2e2;
90 }
91 ysc = rc2f2;
92
93/* Non-perpendicularity */
94 p = ( ( c != 0.0 || f != 0.0 ) ? atan2 ( c, f ) : 0.0 ) +
95 ( ( e != 0.0 || b != 0.0 ) ? atan2 ( e, b ) : 0.0 );
96
97/* Orientation */
98 ws = ( c * rb2e2 ) - ( e * rc2f2 );
99 wc = ( b * rc2f2 ) + ( f * rb2e2 );
100 or = ( ws != 0.0 || wc != 0.0 ) ? atan2 ( ws, wc ) : 0.0;
101
102/* Zero corrections */
103 hp = p / 2.0;
104 shp = sin ( hp );
105 chp = cos ( hp );
106 sor = sin ( or );
107 cor = cos ( or );
108 det = xsc * ysc * ( chp + shp ) * ( chp - shp );
109 if ( fabs ( det ) > 0.0 ) {
110 x0 = ysc * ( a * ( ( chp * cor ) - ( shp * sor ) )
111 - d * ( ( chp * sor ) + ( shp * cor ) ) ) / det;
112 y0 = xsc * ( a * ( ( chp * sor ) - ( shp * cor ) )
113 + d * ( ( chp * cor ) + ( shp * sor ) ) ) / det;
114 }
115 else {
116 x0 = 0.0;
117 y0 = 0.0;
118 }
119
120/* Results */
121 *xz = x0;
122 *yz = y0;
123 *xs = xsc;
124 *ys = ysc;
125 *perp = p;
126 *orient = or;
127}
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