This file is indexed.

/usr/lib/lapack/sgd.in is in liblapack-test 3.6.0-2ubuntu2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

 1
 2
 3
 4
 5
 6
 7
 8
 9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
SGS               Data for the Real Nonsymmetric Schur Form Driver
5                 Number of matrix dimensions
2 6 10 12 20 30   Matrix dimensions  
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold for test ratios
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
SGS 26            Test all 26 matrix types
SGV               Data for the Real Nonsymmetric Eigenvalue Problem Driver
6                 Number of matrix dimensions
2 6 8 10 15 20    Matrix dimensions  
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold value
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
SGV 26            Test all 26 matrix types
SGX               Data for the Real Nonsymmetric Schur Form Expert Driver 
2                 Largest matrix dimension (0 <= NSIZE <= 5)
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold for test ratios
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
SGX               Data for the Real Nonsymmetric Schur Form Expert Driver 
0                 Largest matrix dimension (0 <= NSIZE <= 5)
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold for test ratios
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
   4 
   2
   8.0000E+00   4.0000E+00  -1.3000E+01   4.0000E+00   Input matrix A
   0.0000E+00   7.0000E+00  -2.4000E+01  -3.0000E+00
   0.0000E+00   0.0000E+00   3.0000E+00  -5.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.6000E+01
   9.0000E+00  -1.0000E+00   1.0000E+00  -6.0000E+00   Input matrix B
   0.0000E+00   4.0000E+00   1.6000E+01  -2.4000E+01
   0.0000E+00   0.0000E+00  -1.1000E+01   6.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   4.0000E+00
   2.5901E-01   1.7592E+00     Condition #'s for cluster selected from lower 2x2
   4 
   2
   1.0000E+00   2.0000E+00   3.0000E+00   4.0000E+00   Input matrix A
   0.0000E+00   5.0000E+00   6.0000E+00   7.0000E+00
   0.0000E+00   0.0000E+00   8.0000E+00   9.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.0000E+01
  -1.0000E+00  -1.0000E+00  -1.0000E+00  -1.0000E+00   Input matrix B
   0.0000E+00  -1.0000E+00  -1.0000E+00  -1.0000E+00
   0.0000E+00   0.0000E+00   1.0000E+00  -1.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.0000E+00
   9.8173E-01   6.3649E-01     Condition #'s for cluster selected from lower 2x2
0
SXV               Data for the Real Nonsymmetric Eigenvalue Expert Driver 
5                 Largest matrix dimension
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold for test ratios
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
SXV               Data for the Real Nonsymmetric Eigenvalue Expert Driver 
0                 Largest matrix dimension
1 1 1 2 1         Parameters NB, NBMIN, NXOVER, NS, NBCOL
10                Threshold for test ratios
.TRUE.            Put T to test the error exits
0                 Code to interpret the seed
   4
   8.0000E+00   4.0000E+00  -1.3000E+01   4.0000E+00   Input matrix A
   0.0000E+00   7.0000E+00  -2.4000E+01  -3.0000E+00
   0.0000E+00   0.0000E+00   3.0000E+00  -5.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.6000E+01
   9.0000E+00  -1.0000E+00   1.0000E+00  -6.0000E+00   Input matrix B
   0.0000E+00   4.0000E+00   1.6000E+01  -2.4000E+01
   0.0000E+00   0.0000E+00  -1.1000E+01   6.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   4.0000E+00
   3.1476E+00   2.5286E+00   4.2241E+00   3.4160E+00   eigenvalue condition #'s
   6.7340E-01   1.1380E+00   3.5424E+00   9.5917E-01   eigenvector condition #'s
   4
   1.0000E+00   2.0000E+00   3.0000E+00   4.0000E+00   Input matrix A
   0.0000E+00   5.0000E+00   6.0000E+00   7.0000E+00
   0.0000E+00   0.0000E+00   8.0000E+00   9.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.0000E+01
  -1.0000E+00  -1.0000E+00  -1.0000E+00  -1.0000E+00   Input matrix B
   0.0000E+00  -1.0000E+00  -1.0000E+00  -1.0000E+00
   0.0000E+00   0.0000E+00   1.0000E+00  -1.0000E+00
   0.0000E+00   0.0000E+00   0.0000E+00   1.0000E+00
   1.3639E+00   4.0417E+00   6.4089E-01   6.8030E-01   eigenvalue condition #'s
   7.6064E-01   8.4964E-01   1.1222E-01   1.1499E-01   eigenvector condition #'s
0