Exemplo n.º 1
0
def test_gsm_observer():
    """ Test GSMObserver() is working
    """
    (latitude, longitude, elevation) = ('37.2', '-118.2', 1222)
    ov = GSMObserver()
    ov.lon = longitude
    ov.lat = latitude
    ov.elev = elevation
    ov.date = datetime(2000, 1, 1, 23, 0)
    ov.generate(50)
    ov.view(logged=True)
    ov.view_observed_gsm(logged=True)
Exemplo n.º 2
0
def test_gsm_observer():
    """ Test GSMObserver() is working
    """
    (latitude, longitude, elevation) = ('37.2', '-118.2', 1222)
    ov = GSMObserver()
    ov.lon = longitude
    ov.lat = latitude
    ov.elev = elevation
    ov.date = datetime(2000, 1, 1, 23, 0)
    ov.generate(50)
    ov.view(logged=True)
    ov.view_observed_gsm(logged=True)
Exemplo n.º 3
0
def test_observed_mollview():
    """ Generate animated maps of observing coverage over 24 hours """

    (latitude, longitude, elevation) = ('37.2', '-118.2', 1222)
    ov = GSMObserver()
    ov.lon = longitude
    ov.lat = latitude
    ov.elev = elevation

    obs = []
    for ii in range(0, 24, 1):
        ov.date = datetime(2000, 1, 1, ii, 0)
        ov.generate(50)
        sky = ov.view_observed_gsm(logged=True, show=False, min=9, max=20)
        plt.savefig('generated_sky/galactic-%02d.png' % ii)
        plt.close()

        hp.mollview(sky, coord=['G', 'E'], min=9, max=20)
        plt.savefig('generated_sky/ecliptic-%02d.png' % ii)
        plt.close()

        hp.mollview(sky, coord=['G', 'C'], min=9, max=20)
        plt.savefig('generated_sky/equatorial-%02d.png' % ii)
        plt.close()

        ov.view(logged=True, show=False, min=9, max=20)
        plt.savefig('generated_sky/ortho-%02d.png' % ii)
        plt.close()

        print ii

    os.system('convert -delay 20 generated_sky/ortho-*.png ortho.gif')
    os.system('convert -delay 20 generated_sky/galactic-*.png galactic.gif')
    os.system('convert -delay 20 generated_sky/ecliptic-*.png ecliptic.gif')
    os.system('convert -delay 20 generated_sky/equatorial-*.png equatorial.gif')
Exemplo n.º 4
0
def test_observed_mollview():
    """ Generate animated maps of observing coverage over 24 hours """

    (latitude, longitude, elevation) = ('37.2', '-118.2', 1222)
    ov = GSMObserver()
    ov.lon = longitude
    ov.lat = latitude
    ov.elev = elevation

    obs = []
    for ii in range(0, 24, 1):
        ov.date = datetime(2000, 1, 1, ii, 0)
        ov.generate(50)
        sky = ov.view_observed_gsm(logged=True, show=False, min=9, max=20)
        plt.savefig('generated_sky/galactic-%02d.png' % ii)
        plt.close()

        hp.mollview(sky, coord=['G', 'E'], min=9, max=20)
        plt.savefig('generated_sky/ecliptic-%02d.png' % ii)
        plt.close()

        hp.mollview(sky, coord=['G', 'C'], min=9, max=20)
        plt.savefig('generated_sky/equatorial-%02d.png' % ii)
        plt.close()

        ov.view(logged=True, show=False, min=9, max=20)
        plt.savefig('generated_sky/ortho-%02d.png' % ii)
        plt.close()

        print ii

    os.system('convert -delay 20 generated_sky/ortho-*.png ortho.gif')
    os.system('convert -delay 20 generated_sky/galactic-*.png galactic.gif')
    os.system('convert -delay 20 generated_sky/ecliptic-*.png ecliptic.gif')
    os.system(
        'convert -delay 20 generated_sky/equatorial-*.png equatorial.gif')