[Debian-astro-maintainers] Bug#829029: Bug#829029: gyoto: building on kfreebsd
Jon Boden
jon at ubuntubsd.org
Tue Jul 5 20:29:59 UTC 2016
On Mon, Jul 04, 2016 at 02:15:26PM +0200, Thibaut Paumard wrote:
>
> The changelog says:
>
> gyoto (0.0.3-2) unstable; urgency=low
>
> * Bug fix: "FTBFS on kfreebsd-i386 and kfreebsd-amd64 (test suite)",
> (Closes: #679923). The previous "fix" did not work at all. The library
> and the Yorick interface work fine, but not the stand-alone application.
> Disable the "gyoto" binary package and the test suite on kfreebsd-*.
>
> -- Thibaut Paumard <paumard at users.sourceforge.net> Wed, 11 Jul 2012
> 11:20:09 +0200
>
> Can you check whether the package now runs fine (i.e. is able to pass
> the test suite)?
Looks good to me! I'm attaching the test suite log.
Thanks
--
Jon Boden
ubuntuBSD -- The power of FreeBSD kernel with familiarity of Ubuntu OS!
http://www.ubuntubsd.org/ -- https://twitter.com/ubuntuBSD
-------------- next part --------------
I: [playground chroot] Running command: ?LC_ALL=C.UTF-8 dh_auto_test?
make -j1 check
Making check in lib
make[1]: Entering directory '/root/playground/gyoto/gyoto-1.0.2/lib'
make[1]: Nothing to be done for 'check'.
make[1]: Leaving directory '/root/playground/gyoto/gyoto-1.0.2/lib'
Making check in bin
make[1]: Entering directory '/root/playground/gyoto/gyoto-1.0.2/bin'
rm -f example-thin-disk.fits example-thin-disk-KS.fits example-thin-disk-minkowski-cartesian.fits example-thin-disk-minkowski-spherical.fits example-complex-astrobj.fits example-fixed-star.fits example-fixed-star-minkowski-cartesian.fits example-fixed-star-minkowski-spherical.fits example-startrace.fits example-moving-star.fits example-page-thorne-disk-BL.fits example-page-thorne-disk-KS.fits example-page-thorne-disk-BL-with-basis.fits example-torus.fits example-torus-KS.fits example-fixed-star-KS.fits example-polish-doughnut.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-thin-disk.xml \!example-thin-disk.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-thin-disk.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 110 photons
Thread terminating after integrating 135 photons
Thread terminating after integrating 153 photons
Thread terminating after integrating 121 photons
Thread terminating after integrating 120 photons
Thread terminating after integrating 122 photons
Thread terminating after integrating 128 photons
Thread terminating after integrating 135 photons
Raytraced 1024 photons in 3.85936s using 8 thread(s)
Saving to file: !example-thin-disk.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-thin-disk-KS.xml \!example-thin-disk-KS.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-thin-disk-KS.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 102 photons
Thread terminating after integrating 131 photons
Thread terminating after integrating 142 photons
Thread terminating after integrating 141 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 134 photons
Thread terminating after integrating 120 photons
Raytraced 1024 photons in 8.78365s using 8 thread(s)
Saving to file: !example-thin-disk-KS.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-thin-disk-minkowski-cartesian.xml \!example-thin-disk-minkowski-cartesian.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-thin-disk-minkowski-cartesian.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 133 photons
Thread terminating after integrating 141 photons
Thread terminating after integrating 110 photons
Thread terminating after integrating 134 photons
Thread terminating after integrating 143 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 138 photons
Thread terminating after integrating 102 photons
Raytraced 1024 photons in 2.89842s using 8 thread(s)
Saving to file: !example-thin-disk-minkowski-cartesian.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-thin-disk-minkowski-spherical.xml \!example-thin-disk-minkowski-spherical.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-thin-disk-minkowski-spherical.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 123 photons
Thread terminating after integrating 122 photons
Thread terminating after integrating 139 photons
Thread terminating after integrating 120 photons
Thread terminating after integrating 117 photons
Thread terminating after integrating 142 photons
Thread terminating after integrating 107 photons
Thread terminating after integrating 154 photons
Raytraced 1024 photons in 3.89257s using 8 thread(s)
Saving to file: !example-thin-disk-minkowski-spherical.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-complex-astrobj.xml \!example-complex-astrobj.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-complex-astrobj.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 135 photons
Thread terminating after integrating 115 photons
Thread terminating after integrating 138 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 135 photons
Thread terminating after integrating 130 photons
Thread terminating after integrating 122 photons
Thread terminating after integrating 126 photons
Raytraced 1024 photons in 15.99s using 8 thread(s)
Saving to file: !example-complex-astrobj.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-fixed-star.xml \!example-fixed-star.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-fixed-star.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 136 photons
Thread terminating after integrating 109 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 98 photons
Thread terminating after integrating 121 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 188 photons
Thread terminating after integrating 122 photons
Raytraced 1024 photons in 2.83778s using 8 thread(s)
Saving to file: !example-fixed-star.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-fixed-star-minkowski-cartesian.xml \!example-fixed-star-minkowski-cartesian.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-fixed-star-minkowski-cartesian.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 187 photons
Thread terminating after integrating 97 photons
Thread terminating after integrating 135 photons
Thread terminating after integrating 121 photons
Thread terminating after integrating 118 photons
Thread terminating after integrating 102 photons
Thread terminating after integrating 162 photons
Thread terminating after integrating 102 photons
Raytraced 1024 photons in 1.44016s using 8 thread(s)
Saving to file: !example-fixed-star-minkowski-cartesian.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-fixed-star-minkowski-spherical.xml \!example-fixed-star-minkowski-spherical.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-fixed-star-minkowski-spherical.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 141 photons
Thread terminating after integrating 134 photons
Thread terminating after integrating 128 photons
Thread terminating after integrating 120 photons
Thread terminating after integrating 185 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 72 photons
Thread terminating after integrating 121 photons
Raytraced 1024 photons in 1.87425s using 8 thread(s)
Saving to file: !example-fixed-star-minkowski-spherical.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-startrace.xml \!example-startrace.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-startrace.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 117 photons
Thread terminating after integrating 152 photons
Thread terminating after integrating 119 photons
Thread terminating after integrating 124 photons
Thread terminating after integrating 144 photons
Thread terminating after integrating 107 photons
Thread terminating after integrating 131 photons
Thread terminating after integrating 130 photons
Raytraced 1024 photons in 1.42692s using 8 thread(s)
Saving to file: !example-startrace.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-moving-star.xml \!example-moving-star.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-moving-star.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 171 photons
Thread terminating after integrating 139 photons
Thread terminating after integrating 102 photons
Thread terminating after integrating 121 photons
Thread terminating after integrating 115 photons
Thread terminating after integrating 122 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 131 photons
Raytraced 1024 photons in 0.58637s using 8 thread(s)
Saving to file: !example-moving-star.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-page-thorne-disk-BL.xml \!example-page-thorne-disk-BL.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-page-thorne-disk-BL.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 114 photons
Thread terminating after integrating 117 photons
Thread terminating after integrating 108 photons
Thread terminating after integrating 125 photons
Thread terminating after integrating 133 photons
Thread terminating after integrating 160 photons
Thread terminating after integrating 147 photons
Thread terminating after integrating 120 photons
Raytraced 1024 photons in 1.39325s using 8 thread(s)
Saving to file: !example-page-thorne-disk-BL.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-page-thorne-disk-KS.xml \!example-page-thorne-disk-KS.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-page-thorne-disk-KS.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 125 photons
Thread terminating after integrating 126 photons
Thread terminating after integrating 110 photons
Thread terminating after integrating 146 photons
Thread terminating after integrating 102 photons
Thread terminating after integrating 163 photons
Thread terminating after integrating 132 photons
Thread terminating after integrating 120 photons
Raytraced 1024 photons in 2.36652s using 8 thread(s)
Saving to file: !example-page-thorne-disk-KS.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-page-thorne-disk-BL-with-basis.xml \!example-page-thorne-disk-BL-with-basis.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-page-thorne-disk-BL-with-basis.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 94 photons
Thread terminating after integrating 172 photons
Thread terminating after integrating 121 photons
Thread terminating after integrating 170 photons
Thread terminating after integrating 89 photons
Thread terminating after integrating 119 photons
Thread terminating after integrating 142 photons
Thread terminating after integrating 117 photons
Raytraced 1024 photons in 1.56608s using 8 thread(s)
Saving to file: !example-page-thorne-disk-BL-with-basis.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-torus.xml \!example-torus.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-torus.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 120 photons
Thread terminating after integrating 163 photons
Thread terminating after integrating 106 photons
Thread terminating after integrating 102 photons
Thread terminating after integrating 117 photons
Thread terminating after integrating 176 photons
Thread terminating after integrating 132 photons
Thread terminating after integrating 108 photons
Raytraced 1024 photons in 1.13632s using 8 thread(s)
Saving to file: !example-torus.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-torus-KS.xml \!example-torus-KS.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-torus-KS.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 155 photons
Thread terminating after integrating 124 photons
Thread terminating after integrating 103 photons
Thread terminating after integrating 106 photons
Thread terminating after integrating 128 photons
Thread terminating after integrating 150 photons
Thread terminating after integrating 119 photons
Thread terminating after integrating 139 photons
Raytraced 1024 photons in 1.71339s using 8 thread(s)
Saving to file: !example-torus-KS.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-fixed-star-KS.xml \!example-fixed-star-KS.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-fixed-star-KS.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 141 photons
Thread terminating after integrating 129 photons
Thread terminating after integrating 114 photons
Thread terminating after integrating 130 photons
Thread terminating after integrating 135 photons
Thread terminating after integrating 138 photons
Thread terminating after integrating 124 photons
Thread terminating after integrating 113 photons
Raytraced 1024 photons in 6.45371s using 8 thread(s)
Saving to file: !example-fixed-star-KS.fits
LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 ../doc/examples/example-polish-doughnut.xml \!example-polish-doughnut.fits
Copyright (c) 2011-2015 Frederic Vincent & Thibaut Paumard
GYOTO is distributed under the terms of the GPL v. 3 license.
We request that use of Gyoto in scientific publications be properly
acknowledged. Please cite:
GYOTO: a new general relativistic ray-tracing code,
F. H. Vincent, T. Paumard, E. Gourgoulhon & G. Perrin 2011,
Classical and Quantum Gravity 28, 225011 (2011) [arXiv:1109.4769]
Reading parameter file: ../doc/examples/example-polish-doughnut.xml
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 112 photons
Thread terminating after integrating 130 photons
Thread terminating after integrating 93 photons
Thread terminating after integrating 89 photons
Thread terminating after integrating 152 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 209 photons
Thread terminating after integrating 112 photons
Raytraced 1024 photons in 2.70927s using 8 thread(s)
Saving to file: !example-polish-doughnut.fits
make[1]: Leaving directory '/root/playground/gyoto/gyoto-1.0.2/bin'
Making check in yorick
make[1]: Entering directory '/root/playground/gyoto/gyoto-1.0.2/yorick'
Makefile:134: warning: overriding recipe for target 'check-dll'
../yorick/Makepkg:158: warning: ignoring old recipe for target 'check-dll'
cp custom1.i custom.i
unset GYOTO_PLUGINS && \
GYOTO_CHECK_NODISPLAY=true \
./yorick1 -i check.i
Copyright (c) 2005. The Regents of the University of California.
All rights reserved. Yorick 2.2.04 ready. For help type 'help'
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING BASIC FUNCTIONALITY
********************************************************************************
Checking gyoto_Kerr_new: done.
Checking gyoto_Kerr_MakeCoord: done.
Checking gyoto_Star(): done.
Trying gyoto_Star_xFill
Checking gg(prime2tdot= pos, vel): done.
Checking gg(position): done.
Checking gyoto_Screen(observerpos=...): done.
Checking gyoto_Metric(spin=): done.
Checking gyoto_Star(): done.
Checking gyoto_Photon(): done.
Checking gyoto_Photon_setInitialCondition: done.
Checking gyoto_Photon_setDelta: done.
Checking gyoto_Photon_hit: done.
"_________________________"
*** Column 1 ***
*** Column 2 ***
*** Column 3 ***
*** Column 4 ***
*** Column 5 ***
*** Column 6 ***
*** Column 7 ***
*** Column 8 ***
*** Column 9 ***
*** Column 10 ***
*** Column 11 ***
*** Column 12 ***
*** Column 13 ***
*** Column 14 ***
*** Column 15 ***
*** Column 16 ***
*** Column 17 ***
*** Column 18 ***
*** Column 19 ***
*** Column 20 ***
*** Column 21 ***
*** Column 22 ***
*** Column 23 ***
*** Column 24 ***
*** Column 25 ***
*** Column 26 ***
*** Column 27 ***
*** Column 28 ***
*** Column 29 ***
*** Column 30 ***
*** Column 31 ***
*** Column 32 ***
*** Column 33 ***
*** Column 34 ***
*** Column 35 ***
*** Column 36 ***
*** Column 37 ***
*** Column 38 ***
*** Column 39 ***
*** Column 40 ***
*** Column 41 ***
*** Column 42 ***
*** Column 43 ***
*** Column 44 ***
*** Column 45 ***
*** Column 46 ***
*** Column 47 ***
*** Column 48 ***
*** Column 49 ***
*** Column 50 ***
*** Column 51 ***
"_________________________"
********************************************************************************
ALL TESTS PASSED FOR BASIC FUNCTIONALITY
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING PHOTON IN KERRBL METRIC
********************************************************************************
Creating Photon: done.
Attaching metric: done.
Checking gyoto_Kerr_MakeCoord: [0,6,1.5708,0,1.38165,0,0,0.0555556]
done.
Setting metric spin... done.
Computing initial coordinate... done.
Checking gyoto_Star... done.
Trying gyoto_Star_xFill... done.
Checking gyoto_Metric_setObserverPos: done.
Checking gyoto_Metric_setSpin: done.
Checking gyoto_Star(): done.
Checking gyoto_Photon_setInitialCondition: done.
Checking gyoto_Photon(delta=1): done.
Checking gyoto_Photon(is_hit=1): done.
"_________________________"
*** Column 1 ***
*** Column 2 ***
*** Column 3 ***
*** Column 4 ***
*** Column 5 ***
*** Column 6 ***
*** Column 7 ***
*** Column 8 ***
*** Column 9 ***
*** Column 10 ***
*** Column 11 ***
*** Column 12 ***
*** Column 13 ***
*** Column 14 ***
*** Column 15 ***
*** Column 16 ***
*** Column 17 ***
*** Column 18 ***
*** Column 19 ***
*** Column 20 ***
*** Column 21 ***
Mutating metric spin... done.
"_________________________"
********************************************************************************
ALL TESTS PASSED FOR PHOTON IN KERRBL METRIC
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING SCENERY
********************************************************************************
New scenery... done.
Printing this Scenery:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Scenery kind="">
<NThreads> 0 </NThreads>
<NProcesses> 0 </NProcesses>
<Quantities></Quantities>
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
</Scenery>
Pointer to this Scenery: 8199296
Using maxiter()... done.
Using MaxIter()... done.
Comparing... done.
Checking MaxIter(val)... done.
Checking maxiter(val)... done.
New scenery, setting only "time"... done.
Printing this Scenery:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Scenery kind="">
<Screen kind="">
<Time> 1 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 0 </PALN>
<Inclination> 0 </Inclination>
<Argument> 0 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 1001 </Resolution>
<Distance dmax="DBL_MAX" unit="m"> 1</Distance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<Screen kind="">
<Time> 1 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 0 </PALN>
<Inclination> 0 </Inclination>
<Argument> 0 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 1001 </Resolution>
<Distance dmax="DBL_MAX" unit="m"> 1</Distance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<NThreads> 0 </NThreads>
<NProcesses> 0 </NProcesses>
<Quantities></Quantities>
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
</Scenery>
Pointer to this Scenery: 9161136
Attaching metric to scenery... done.
Printing this Scenery:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Scenery kind="">
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 1 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<Screen kind="">
<Time> 0 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 0 </PALN>
<Inclination> 0 </Inclination>
<Argument> 0 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 1001 </Resolution>
<Distance dmax="DBL_MAX" unit="geometrical"> 1.34659495958734e+27</Dis\
tance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<Screen kind="">
<Time> 0 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 0 </PALN>
<Inclination> 0 </Inclination>
<Argument> 0 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 1001 </Resolution>
<Distance dmax="DBL_MAX" unit="geometrical"> 1.34659495958734e+27</Dis\
tance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<NThreads> 0 </NThreads>
<NProcesses> 0 </NProcesses>
<Quantities></Quantities>
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
</Scenery>
Pointer to this Scenery: 8199296
Creating star... done.
Attaching astrobj to scenery... done.
Retrieving astrobj... done.
Setting time... done.
Checking time: 1.000000e+04
Setting field-of-view... done.
Checking field-of-view: 7.853982e-01
Setting resolution... done.
Checking resolution: 16
Setting inclination... done.
Checking inclination: 1.047198e+00
Writing XML description... done.
Reading Scenery from XML description... WARNING: Unable to read Screen mask file '/root/playground/gyoto/gyoto-1.0.2/yorick/example-startrace.fits', ignoring.
done.
Ray-tracing on 1 thread (sc())...
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 1024 photons
Raytraced 1024 photons in 8.75076s using 1 thread(s)
8.75777
done.
Ray-tracing on 2 threads (sc())...
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 562 photons
Thread terminating after integrating 462 photons
Raytraced 1024 photons in 4.85723s using 2 thread(s)
4.86275
done.
Ray-tracing on 2 threads (gyoto_Scenery_rayTrace())...
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 435 photons
Thread terminating after integrating 589 photons
Raytraced 1024 photons in 5.50931s using 2 thread(s)
done.
Ray-tracing on 1 thread...
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 1024 photons
Raytraced 1024 photons in 8.4443s using 1 thread(s)
8.48161
done.
Setting mask... done.
Checking mask... done.
Ray-tracing on 1 thread with mask...
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 1024 photons
Raytraced 1024 photons in 1.04824s using 1 thread(s)
1.09317
done.
Ray-tracing with mask (sc())...
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 1024 photons
Raytraced 1024 photons in 0.948651s using 1 thread(s)
1.006
done.
Cloning...DONE.
Printing clone:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Scenery kind="">
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 1 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<Screen kind="">
<Spectrometer kind="wave" nsamples="1"> 2e-06 \
2.4e-06</Spectrometer>
<Time> 2.477093002786614e-33 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 3.141592653589793 </PALN>
<Inclination> 2.361592653589793 </Inclination>
<Argument> -1.570796326794897 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 32 </Resolution>
<Distance dmax="DBL_MAX" unit="geometrical"> 100</Dis\
tance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<Astrobj kind="Star">
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
<Position> 600 9 \
1.5708 0</Position>
<Velocity> 0 0 \
0.037037</Velocity>
<Spectrum kind="BlackBody">
<Temperature> 6000 </Temperature>
<Scaling> 1.4744992e-50 </Scaling>
</Spectrum>
<Opacity kind="PowerLaw">
<Exponent> 0 </Exponent>
<Constant> 0.1 </Constant>
</Opacity>
<TrueEmittedIntensity/>
<DeltaMaxOverDistance> 0.1 </DeltaMaxOverDistance>
<DeltaMaxOverRadius> 0.1 </DeltaMaxOverRadius>
<Alpha> 1 </Alpha>
<Radius> 2 </Radius>
<SafetyValue> 4.5 </SafetyValue>
<RMax> 50 </RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThin/>
</Astrobj>
<Screen kind="">
<Spectrometer kind="wave" nsamples="1"> 2e-06 \
2.4e-06</Spectrometer>
<Time> 2.477093002786614e-33 </Time>
<FieldOfView> 0.3141592653589793 </FieldOfView>
<PALN> 3.141592653589793 </PALN>
<Inclination> 2.361592653589793 </Inclination>
<Argument> -1.570796326794897 </Argument>
<Alpha0> 0 </Alpha0>
<Delta0> 0 </Delta0>
<Resolution> 32 </Resolution>
<Distance dmax="DBL_MAX" unit="geometrical"> 100</Dis\
tance>
<FreqObs> 1 </FreqObs>
<AngleKind>EquatorialAngles</AngleKind>
<ObserverKind>ObserverAtInfinity</ObserverKind>
<Mask></Mask>
<FourVelocity> 0 0 \
0 0</FourVelocity>
<ScreenVector1> 0 0 \
0 0</ScreenVector1>
<ScreenVector2> 0 0 \
0 0</ScreenVector2>
<ScreenVector3> 0 0 \
0 0</ScreenVector3>
</Screen>
<NThreads> 1 </NThreads>
<NProcesses> 0 </NProcesses>
<Quantities>Intensity </Quantities>
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime> 0 </MinimumTime>
<Delta> 0.01 </Delta>
<InitCoord> 1000 100 \
0.78 0 1.01015254455221 0.984\
113191820916 0.000343544083996823 0.0014622964567923</InitCoord>
</Scenery>
1
Reading Scenery...... done.
WARNING: MPI_Init not called yet: not spawning processes
Integrating whole field......
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 133 photons
Thread terminating after integrating 124 photons
Thread terminating after integrating 123 photons
Thread terminating after integrating 130 photons
Thread terminating after integrating 118 photons
Thread terminating after integrating 130 photons
Thread terminating after integrating 131 photons
Thread terminating after integrating 135 photons
Raytraced 1024 photons in 16.9901s using 8 thread(s)
done.
Integrating subfield......
j = 1/9
j = 5/9
j = 8/9
j = 11/9
j = 14/9
j = 17/9
j = 20/9
j = 23/9
j = 26/9
j = 29/9
Thread terminating after integrating 7 photons
Thread terminating after integrating 7 photons
Thread terminating after integrating 7 photons
Thread terminating after integrating 5 photons
Thread terminating after integrating 5 photons
Thread terminating after integrating 7 photons
Thread terminating after integrating 6 photons
Thread terminating after integrating 6 photons
Raytraced 36 photons in 1.28974s using 8 thread(s)
done.
Comparing...... done.
Integrating subfield......
j = 1/3
j = 20/3
j = 22/3
Thread terminating after integrating 2 photons
Thread terminating after integrating 2 photons
Thread terminating after integrating 1 photons
Thread terminating after integrating 1 photons
Thread terminating after integrating 1 photons
Thread terminating after integrating 0 photons
Thread terminating after integrating 1 photons
Thread terminating after integrating 1 photons
Raytraced 9 photons in 0.422373s using 8 thread(s)
done.
Comparing...... done.
Integrating subfield......
j = 1/16
j = 13/16
j = 14/16
j = 15/16
j = 1/16
j = 2/16
j = 3/16
j = 4/16
j = 10/16
j = 11/16
j = 16/16
j = 17/16
j = 7/16
j = 8/16
j = 20/16
j = 22/16
Thread terminating after integrating 7 photons
Thread terminating after integrating 5 photons
Thread terminating after integrating 7 photons
Thread terminating after integrating 9 photons
Thread terminating after integrating 6 photons
Thread terminating after integrating 7 photons
Thread terminating after integrating 15 photons
Thread terminating after integrating 8 photons
Raytraced 64 photons in 0.947109s using 8 thread(s)
done.
Comparing...... done.
Integrating subfield......
j = 1/3
j = 20/3
j = 22/3
Thread terminating after integrating 1 photons
Thread terminating after integrating 2 photons
Thread terminating after integrating 3 photons
Thread terminating after integrating 2 photons
Thread terminating after integrating 1 photons
Thread terminating after integrating 2 photons
Thread terminating after integrating 2 photons
Thread terminating after integrating 2 photons
Raytraced 12 photons in 0.372675s using 8 thread(s)
done.
Comparing...... done.
Integrating subfield......
j = 1/9
j = 5/9
j = 8/9
j = 11/9
j = 14/9
j = 17/9
j = 20/9
j = 23/9
j = 26/9
j = 29/9
Thread terminating after integrating 4 photons
Thread terminating after integrating 4 photons
Thread terminating after integrating 4 photons
Thread terminating after integrating 3 photons
Thread terminating after integrating 3 photons
Thread terminating after integrating 3 photons
Thread terminating after integrating 5 photons
Thread terminating after integrating 4 photons
Raytraced 27 photons in 0.496991s using 8 thread(s)
done.
Comparing...... done.
integrating pix. by pix., specifying angles...
...
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
done.
Comparing results... OK (max rel. dif.: 1.04549e-10)
integrating whole field, specifying angles...
...
Thread terminating after integrating 127 photons
Thread terminating after integrating 133 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 124 photons
Thread terminating after integrating 122 photons
Thread terminating after integrating 127 photons
Thread terminating after integrating 138 photons
Thread terminating after integrating 126 photons
Raytraced 1024 photons in 17.6403s using 8 thread(s)
done.
Comparing results... OK (max rel. dif.: 1.04549e-10)
********************************************************************************
ALL TESTS PASSED FOR SCENERY
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING KERRBL METRIC (Kerr in Boyer-Lindquist coordinates)
********************************************************************************
Checking gyoto_KerrBL: done.
checking metric coefficients. done.
checking gmunu_up method. done.
checking christoffel methods. done.
Checking makecoord: done.
Creating metric using gyoto_Kerr(spin=0.7)
done.
Setting spin... done.
Getting spin... done.
8893776
Printing object. "gg" yields:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Metric kind="KerrBL">
<Spin> 0.9 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 1 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
Setting deltamin... done.
Setting deltamax... done.
Setting difftol... done.
Setting deltamaxoverr... done.
Cloning... done.
comparing the various integrators... done.
********************************************************************************
ALL TESTS PASSED FOR KERRBL METRIC (Kerr in Boyer-Lindquist coordinates)
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING KERRKS METRIC (Kerr in Kerr-Schild coordinates)
********************************************************************************
creating KerrKS metric... done.
checking metric coefficients.... done.
checking gmunu_up method.... done.
checking dk... done.
checking df... done.
checking Jacobian.... done.
checking christoffel methods.... done.
********************************************************************************
ALL TESTS PASSED FOR KERRKS METRIC (Kerr in Kerr-Schild coordinates)
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING MINKOWSKI METRIC (in cartesian coordinates)
********************************************************************************
creating Minkowski metric... done.
checking metric coefficients.... done.
checking christoffel methods.... done.
creating Star in this metric... done.
integrating geodesic... done.
checking results...(integration produced 100001 rows)... done.
checking another star... done.
checking a photon... done.
********************************************************************************
CHECKING MINKOWSKI METRIC (in spherical coordinates)
********************************************************************************
changing coordinate system... done.
checking metric coefficients... done.
checking christoffel methods... done.
checking motionless star...(integration produced 255 rows)... done.
checking moving star...(integration produced 25 rows)... done.
********************************************************************************
ALL TESTS PASSED FOR MINKOWSKI METRIC
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING STAR ASTROBJ (in KerrBL metric)
********************************************************************************
Attempting star construction:
Printing star:<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="Star">
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
<Spectrum kind="BlackBody">
<Temperature> 10000 </Temperature>
<Scaling> 1.4744992e-50 </Scaling>
</Spectrum>
<Opacity kind="PowerLaw">
<Exponent> 0 </Exponent>
<Constant> 1 </Constant>
</Opacity>
<TrueEmittedIntensity/>
<DeltaMaxOverDistance> 0.1 </DeltaMaxOverDistance>
<DeltaMaxOverRadius> 0.1 </DeltaMaxOverRadius>
<Alpha> 1 </Alpha>
<Radius> 0 </Radius>
<SafetyValue> 0.1 </SafetyValue>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
Cloning...DONE.
Printing clone:<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="Star">
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
<Spectrum kind="BlackBody">
<Temperature> 10000 </Temperature>
<Scaling> 1.4744992e-50 </Scaling>
</Spectrum>
<Opacity kind="PowerLaw">
<Exponent> 0 </Exponent>
<Constant> 1 </Constant>
</Opacity>
<TrueEmittedIntensity/>
<DeltaMaxOverDistance> 0.1 </DeltaMaxOverDistance>
<DeltaMaxOverRadius> 0.1 </DeltaMaxOverRadius>
<Alpha> 1 </Alpha>
<Radius> 0 </Radius>
<SafetyValue> 0.1 </SafetyValue>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
Gyoto::Star pointer is at address: 9871552
Setting radius... done.
Getting radius... done.
Setting metric... done.
Changing metric spin... done.
Setting initial condition... done.
Setting integrator... done.
Computing orbit... done.
Instanciating Screen... done.
Retrieving projected orbit... done.
Printing Star object:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="Star">
<HighOrderImages/>
<RelTol> 1e-06 </RelTol>
<AbsTol> 1e-06 </AbsTol>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMin>DBL_MIN</DeltaMin>
<Integrator>runge_kutta_fehlberg78</Integrator>
<MaxIter> 100000 </MaxIter>
<Adaptive/>
<MinimumTime>-DBL_MAX</MinimumTime>
<Delta> 0.01 </Delta>
<Position> 0 10.791 \
1.5708 0</Position>
<Velocity> 0 0 \
0.0166637</Velocity>
<Metric kind="KerrBL">
<Spin> 0.995 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 1 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 0.1 </DeltaMaxOverR>
</Metric>
<Spectrum kind="BlackBody">
<Temperature> 10000 </Temperature>
<Scaling> 1.4744992e-50 </Scaling>
</Spectrum>
<Opacity kind="PowerLaw">
<Exponent> 0 </Exponent>
<Constant> 1 </Constant>
</Opacity>
<TrueEmittedIntensity/>
<DeltaMaxOverDistance> 0.1 </DeltaMaxOverDistance>
<DeltaMaxOverRadius> 0.1 </DeltaMaxOverRadius>
<Alpha> 1 </Alpha>
<Radius> 0.5 </Radius>
<SafetyValue> 0.375 </SafetyValue>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
Check it out (pausing for 1s)!
All in one call... done.
Check it out (pausing for 1s)!
********************************************************************************
ALL TESTS PASSED FOR STAR ASTROBJ (in KerrBL metric)
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING STARTRACE ASTROBJ
********************************************************************************
WARNING: Unable to read Screen mask file '/root/playground/gyoto/gyoto-1.0.2/yorick/example-startrace.fits', ignoring.
Instanciating StarTrace from Star... done.
Mutating StarTrace... done.
Ray-tracing StarTrace...
j = 1/128
j = 2/128
j = 3/128
j = 4/128
j = 5/128
j = 6/128
j = 7/128
j = 8/128
j = 9/128
j = 10/128
j = 11/128
j = 12/128
j = 13/128
j = 14/128
j = 15/128
j = 16/128
j = 17/128
j = 18/128
j = 19/128
j = 20/128
j = 21/128
j = 22/128
j = 23/128
j = 24/128
j = 25/128
j = 26/128
j = 27/128
j = 28/128
j = 29/128
j = 30/128
j = 31/128
j = 32/128
j = 33/128
j = 34/128
j = 35/128
j = 36/128
j = 37/128
j = 38/128
j = 39/128
j = 40/128
j = 41/128
j = 42/128
j = 43/128
j = 44/128
j = 45/128
j = 46/128
j = 47/128
j = 48/128
j = 49/128
j = 50/128
j = 51/128
j = 52/128
j = 53/128
j = 54/128
j = 55/128
j = 56/128
j = 57/128
j = 58/128
j = 59/128
j = 60/128
j = 61/128
j = 62/128
j = 63/128
j = 64/128
j = 65/128
j = 66/128
j = 67/128
j = 68/128
j = 69/128
j = 70/128
j = 71/128
j = 72/128
j = 73/128
j = 74/128
j = 75/128
j = 76/128
j = 77/128
j = 78/128
j = 79/128
j = 80/128
j = 81/128
j = 82/128
j = 83/128
j = 84/128
j = 85/128
j = 86/128
j = 87/128
j = 88/128
j = 89/128
j = 90/128
j = 91/128
j = 92/128
j = 93/128
j = 94/128
j = 95/128
j = 96/128
j = 97/128
j = 98/128
j = 99/128
j = 100/128
j = 101/128
j = 102/128
j = 103/128
j = 104/128
j = 105/128
j = 106/128
j = 107/128
j = 108/128
j = 109/128
j = 110/128
j = 111/128
j = 112/128
j = 113/128
j = 114/128
j = 115/128
j = 116/128
j = 117/128
j = 118/128
j = 119/128
j = 120/128
j = 121/128
j = 122/128
j = 123/128
j = 124/128
j = 125/128
j = 126/128
j = 127/128
j = 128/128
Thread terminating after integrating 1961 photons
Thread terminating after integrating 2013 photons
Thread terminating after integrating 2278 photons
Thread terminating after integrating 1934 photons
Thread terminating after integrating 1937 photons
Thread terminating after integrating 1940 photons
Thread terminating after integrating 1980 photons
Thread terminating after integrating 2341 photons
Raytraced 16384 photons in 26.8774s using 8 thread(s)
26.8775
done.
Ray-tracing Star without mask...
j = 1/128
j = 2/128
j = 3/128
j = 4/128
j = 5/128
j = 6/128
j = 7/128
j = 8/128
j = 9/128
j = 10/128
j = 11/128
j = 12/128
j = 13/128
j = 14/128
j = 15/128
j = 16/128
j = 17/128
j = 18/128
j = 19/128
j = 20/128
j = 21/128
j = 22/128
j = 23/128
j = 24/128
j = 25/128
j = 26/128
j = 27/128
j = 28/128
j = 29/128
j = 30/128
j = 31/128
j = 32/128
j = 33/128
j = 34/128
j = 35/128
j = 36/128
j = 37/128
j = 38/128
j = 39/128
j = 40/128
j = 41/128
j = 42/128
j = 43/128
j = 44/128
j = 45/128
j = 46/128
j = 47/128
j = 48/128
j = 49/128
j = 50/128
j = 51/128
j = 52/128
j = 53/128
j = 54/128
j = 55/128
j = 56/128
j = 57/128
j = 58/128
j = 59/128
j = 60/128
j = 61/128
j = 62/128
j = 63/128
j = 64/128
j = 65/128
j = 66/128
j = 67/128
j = 68/128
j = 69/128
j = 70/128
j = 71/128
j = 72/128
j = 73/128
j = 74/128
j = 75/128
j = 76/128
j = 77/128
j = 78/128
j = 79/128
j = 80/128
j = 81/128
j = 82/128
j = 83/128
j = 84/128
j = 85/128
j = 86/128
j = 87/128
j = 88/128
j = 89/128
j = 90/128
j = 91/128
j = 92/128
j = 93/128
j = 94/128
j = 95/128
j = 96/128
j = 97/128
j = 98/128
j = 99/128
j = 100/128
j = 101/128
j = 102/128
j = 103/128
j = 104/128
j = 105/128
j = 106/128
j = 107/128
j = 108/128
j = 109/128
j = 110/128
j = 111/128
j = 112/128
j = 113/128
j = 114/128
j = 115/128
j = 116/128
j = 117/128
j = 118/128
j = 119/128
j = 120/128
j = 121/128
j = 122/128
j = 123/128
j = 124/128
j = 125/128
j = 126/128
j = 127/128
j = 128/128
Thread terminating after integrating 2013 photons
Thread terminating after integrating 2149 photons
Thread terminating after integrating 1920 photons
Thread terminating after integrating 1916 photons
Thread terminating after integrating 2025 photons
Thread terminating after integrating 2097 photons
Thread terminating after integrating 2183 photons
Thread terminating after integrating 2081 photons
Raytraced 16384 photons in 35.5522s using 8 thread(s)
35.5524
done.
Ray-tracing Star with mask...
j = 1/128
j = 2/128
j = 3/128
j = 4/128
j = 5/128
j = 6/128
j = 7/128
j = 8/128
j = 9/128
j = 10/128
j = 11/128
j = 12/128
j = 13/128
j = 14/128
j = 15/128
j = 16/128
j = 17/128
j = 18/128
j = 19/128
j = 20/128
j = 21/128
j = 22/128
j = 23/128
j = 24/128
j = 25/128
j = 26/128
j = 27/128
j = 28/128
j = 29/128
j = 30/128
j = 31/128
j = 32/128
j = 33/128
j = 34/128
j = 35/128
j = 36/128
j = 37/128
j = 38/128
j = 39/128
j = 40/128
j = 41/128
j = 42/128
j = 43/128
j = 44/128
j = 45/128
j = 46/128
j = 47/128
j = 48/128
j = 49/128
j = 50/128
j = 51/128
j = 52/128
j = 53/128
j = 54/128
j = 55/128
j = 56/128
j = 57/128
j = 58/128
j = 59/128
j = 60/128
j = 61/128
j = 62/128
j = 63/128
j = 64/128
j = 65/128
j = 66/128
j = 67/128
j = 68/128
j = 69/128
j = 70/128
j = 71/128
j = 72/128
j = 73/128
j = 74/128
j = 75/128
j = 76/128
j = 77/128
j = 78/128
j = 79/128
j = 80/128
j = 81/128
j = 82/128
j = 83/128
j = 84/128
j = 85/128
j = 86/128
j = 87/128
j = 88/128
j = 89/128
j = 90/128
j = 91/128
j = 92/128
j = 93/128
j = 94/128
j = 95/128
j = 96/128
j = 97/128
j = 98/128
j = 99/128
j = 100/128
j = 101/128
j = 102/128
j = 103/128
j = 104/128
j = 105/128
j = 106/128
j = 107/128
j = 108/128
j = 109/128
j = 110/128
j = 111/128
j = 112/128
j = 113/128
j = 114/128
j = 115/128
j = 116/128
j = 117/128
j = 118/128
j = 119/128
j = 120/128
j = 121/128
j = 122/128
j = 123/128
j = 124/128
j = 125/128
j = 126/128
j = 127/128
j = 128/128
Thread terminating after integrating 2266 photons
Thread terminating after integrating 2323 photons
Thread terminating after integrating 2248 photons
Thread terminating after integrating 1837 photons
Thread terminating after integrating 1892 photons
Thread terminating after integrating 2254 photons
Thread terminating after integrating 1742 photons
Thread terminating after integrating 1822 photons
Raytraced 16384 photons in 10.0211s using 8 thread(s)
10.0212
done.
********************************************************************************
ALL TESTS PASSED FOR STARTRACE ASTROBJ
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING PATTERNDISK ASTROBJ
********************************************************************************
Creating PatternDisk... done.
Printing PatternDisk:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="PatternDisk">
<File></File>
<PatternVelocity> 0 </PatternVelocity>
<InnerRadius> 3 </InnerRadius>
<OuterRadius> 28 </OuterRadius>
<Thickness> 0.001 </Thickness>
<CoRotating/>
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 7.95372e+36 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<RMax> 50 </RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThin/>
</Astrobj>
done.
Attaching PatternDisk to scenery... done.
Saving data to fits file... done.
Saving scenery to XML file... done.
Reading back scenery...PatternDisk reading FITS file: /root/playground/gyoto/gyoto-1.0.2/yorick/./check-patterndisk.fits.gz
done.
Checking dmax... done.
Checking tmin... done.
Removing temporary files... done.
Getting PatternDisk... done.
Comparing intensity array... done.
Comparing opacity array... done.
Performing raytracing...
j = 1/64
j = 2/64
j = 3/64
j = 4/64
j = 5/64
j = 6/64
j = 7/64
j = 8/64
j = 9/64
j = 10/64
j = 11/64
j = 12/64
j = 13/64
j = 14/64
j = 15/64
j = 16/64
j = 17/64
j = 18/64
j = 19/64
j = 20/64
j = 21/64
j = 22/64
j = 23/64
j = 24/64
j = 25/64
j = 26/64
j = 27/64
j = 28/64
j = 29/64
j = 30/64
j = 31/64
j = 32/64
j = 33/64
j = 34/64
j = 35/64
j = 36/64
j = 37/64
j = 38/64
j = 39/64
j = 40/64
j = 41/64
j = 42/64
j = 43/64
j = 44/64
j = 45/64
j = 46/64
j = 47/64
j = 48/64
j = 49/64
j = 50/64
j = 51/64
j = 52/64
j = 53/64
j = 54/64
j = 55/64
j = 56/64
j = 57/64
j = 58/64
j = 59/64
j = 60/64
j = 61/64
j = 62/64
j = 63/64
j = 64/64
Thread terminating after integrating 4096 photons
Raytraced 4096 photons in 12.4257s using 0 thread(s)
done.
Displaying image... done.
********************************************************************************
ALL TESTS PASSED FOR PATTERNDISK ASTROBJ
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING DIRECTIONALDISK ASTROBJ
********************************************************************************
Creating DirectionalDisk... done.
Printing DirectionalDisk:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="DirectionalDisk">
<File></File>
<DontAverageOverAngle/>
<InnerRadius> 6 </InnerRadius>
<OuterRadius> 50 </OuterRadius>
<Thickness> 0.001 </Thickness>
<CoRotating/>
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 7.95372e+36 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<RMax> 100 </RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
done.
Attaching DirectionalDisk to scenery... done.
Saving data to fits file... done.
Saving scenery to XML file... done.
Reading back scenery...DirectionalDisk reading FITS file: /root/playground/gyoto/gyoto-1.0.2/yorick/./check-directionaldisk.fits.gz
done.
Removing temporary files... done.
Getting DirectionalDisk... done.
Comparing intensity array... done.
Comparing freq array... done.
Comparing cosi array... done.
Comparing radius array... done.
Performing raytracing...
j = 1/64
j = 2/64
j = 3/64
j = 4/64
j = 5/64
j = 6/64
j = 7/64
j = 8/64
j = 9/64
j = 10/64
j = 11/64
j = 12/64
j = 13/64
j = 14/64
j = 15/64
j = 16/64
j = 17/64
j = 18/64
j = 19/64
j = 20/64
j = 21/64
j = 22/64
j = 23/64
j = 24/64
j = 25/64
j = 26/64
j = 27/64
j = 28/64
j = 29/64
j = 30/64
j = 31/64
j = 32/64
j = 33/64
j = 34/64
j = 35/64
j = 36/64
j = 37/64
j = 38/64
j = 39/64
j = 40/64
j = 41/64
j = 42/64
j = 43/64
j = 44/64
j = 45/64
j = 46/64
j = 47/64
j = 48/64
j = 49/64
j = 50/64
j = 51/64
j = 52/64
j = 53/64
j = 54/64
j = 55/64
j = 56/64
j = 57/64
j = 58/64
j = 59/64
j = 60/64
j = 61/64
j = 62/64
j = 63/64
j = 64/64
Thread terminating after integrating 4096 photons
Raytraced 4096 photons in 20.5204s using 0 thread(s)
done.
Displaying image... done.
********************************************************************************
ALL TESTS PASSED FOR DIRECTIONALDISK ASTROBJ
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING DISK3D ASTROBJ
********************************************************************************
Creating Disk3D... done.
Printing Disk3D:
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="Disk3D">
<File></File>
<ZsymmetrizeGrid/>
<tPattern> 0 </tPattern>
<omegaPattern> 0 </omegaPattern>
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 7.95372e+36 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
done.
Attaching Disk3D to scenery... done.
Saving data to fits file... done.
Saving scenery to XML file... done.
Reading back scenery...Disk3D reading FITS file: /root/playground/gyoto/gyoto-1.0.2/yorick/./check-disk3d.fits.gz
done.
Removing temporary files... done.
Getting Disk3D... done.
Comparing emissquant array... done.
Comparing velocity array... done.
********************************************************************************
ALL TESTS PASSED FOR DISK3D ASTROBJ
********************************************************************************
WARNING: unable to load optional plug-in libgyoto-lorene.so
********************************************************************************
CHECKING POLISHDOUGHNUT ASTROBJ
********************************************************************************
Creating default PolishDoughnut... done.
Printing object:
-----------------------------
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="PolishDoughnut">
<CentralDensity> 1 </CentralDensity>
<CentralTempOverVirial> 1 </CentralTempOverVirial>
<Beta> 0 </Beta>
<SpectralOversampling> 10 </SpectralOversampling>
<NoKomissarovAngleAveraged/>
<NoKomissarov/>
<NonThermalDeltaExpo> 0 0</No\
nThermalDeltaExpo>
<ADAFParameters> 0 0</ADAFPar\
ameters>
<NonADAF/>
<KeepCusp/>
<SafetyValue> 0.1 </SafetyValue>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
-----------------------------
Instanciating Kerr metric... done.
Attaching metric to doughnut... done.
Checking attached metric... done.
Printing object:
-----------------------------
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="PolishDoughnut">
<CentralDensity> 1 </CentralDensity>
<CentralTempOverVirial> 1 </CentralTempOverVirial>
<Beta> 0 </Beta>
<SpectralOversampling> 10 </SpectralOversampling>
<NoKomissarovAngleAveraged/>
<NoKomissarov/>
<NonThermalDeltaExpo> 0 0</No\
nThermalDeltaExpo>
<ADAFParameters> 0 0</ADAFPar\
ameters>
<NonADAF/>
<KeepCusp/>
<SafetyValue> 0.1 </SafetyValue>
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 1 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<RMax>DBL_MAX</RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThick/>
</Astrobj>
-----------------------------
Creating PolishDoughnut from file... done.
Printing object:
-----------------------------
<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Astrobj kind="PolishDoughnut">
<Lambda> 0.3 </Lambda>
<CentralDensity> 1e-17 </CentralDensity>
<CentralTempOverVirial> 0.04 </CentralTempOverVirial>
<Beta> 0.1 </Beta>
<SpectralOversampling> 10 </SpectralOversampling>
<NoKomissarovAngleAveraged/>
<NoKomissarov/>
<NonThermalDeltaExpo> 0 0</No\
nThermalDeltaExpo>
<ADAFParameters> 0 0</ADAFPar\
ameters>
<NonADAF/>
<KeepCusp/>
<SafetyValue> 0 </SafetyValue>
<Metric kind="KerrBL">
<Spin> 0 </Spin>
<HorizonSecurity> 0.01 </HorizonSecurity>
<SpecificIntegrator/>
<DiffTol> 0.01 </DiffTol>
<Mass> 8.5701333e+36 </Mass>
<NonKeplerian/>
<DeltaMin>DBL_MIN</DeltaMin>
<DeltaMax>DBL_MAX</DeltaMax>
<DeltaMaxOverR> 1 </DeltaMaxOverR>
</Metric>
<RMax> 25 </RMax>
<Redshift/>
<NoRadiativeQ/>
<OpticallyThin/>
</Astrobj>
-----------------------------
Reading PolishDoughnut scenery... done.
Setting spectro... done.
Ray-tracing scenery...
j = 1/32
j = 2/32
j = 3/32
j = 4/32
j = 5/32
j = 6/32
j = 7/32
j = 8/32
j = 9/32
j = 10/32
j = 11/32
j = 12/32
j = 13/32
j = 14/32
j = 15/32
j = 16/32
j = 17/32
j = 18/32
j = 19/32
j = 20/32
j = 21/32
j = 22/32
j = 23/32
j = 24/32
j = 25/32
j = 26/32
j = 27/32
j = 28/32
j = 29/32
j = 30/32
j = 31/32
j = 32/32
Thread terminating after integrating 532 photons
Thread terminating after integrating 492 photons
Raytraced 1024 photons in 8.88008s using 2 thread(s)
done.
Displaying image... done.
Integrating one spectrum with radiative transfer...
j = 1/1
Thread terminating after integrating 1 photons
Thread terminating after integrating 0 photons
Raytraced 1 photons in 0.026983s using 2 thread(s)
done.
Integrating one bin spectrum with radiative transfer...
j = 1/1
Thread terminating after integrating 0 photons
Thread terminating after integrating 1 photons
Raytraced 1 photons in 14.0053s using 2 thread(s)
done.
********************************************************************************
ALL TESTS PASSED FOR POLISHDOUGHNUT ASTROBJ
********************************************************************************
********************************************
* ALL TESTS PASSED *
********************************************
(You may want to run 'make check-mpi' still)
make[1]: Leaving directory '/root/playground/gyoto/gyoto-1.0.2/yorick'
Making check in doc
make[1]: Entering directory '/root/playground/gyoto/gyoto-1.0.2/doc'
make[1]: 'check' is up to date.
make[1]: Leaving directory '/root/playground/gyoto/gyoto-1.0.2/doc'
make[1]: Entering directory '/root/playground/gyoto/gyoto-1.0.2'
make[1]: Leaving directory '/root/playground/gyoto/gyoto-1.0.2'
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