print "math.sin(h) =",a
a = math.sin(2.0)
print "math.sin(2.0) =",a
print "^"*80
for dv in dvs:
print "="*20 + dv.myname + "="*20
print dv
print "()"*80
ad.descriptorFormat = "value"
g = ad.detector_x_bin()
h = ad.gain()
i = ad.gain(format="as_dict")
j = ad.amp_read_area(format="db")
dvsnames = ["g","h","i","j"]
dvs = []
for dvname in dvsnames:
dv = eval(dvname)
dv.myname = dvname
dvs.append(dv)
for dv in dvs:
print "="*20 + dv.myname + "(%s)" % dv.name + "="*20
print dv
import sys
sys.path.append("/opt/gemini_python")
from astrodata import AstroData
import urllib2, urllib
# This is a GMOS_N imaging science dataset
ad = AstroData("/home/callen/SVN-AD/gemini_python/test_data/calsearch/N20110531S0114.fits")
desc_dict = {'instrument':ad.instrument().for_db(),
'observation_type': ad.observation_type().for_db(),
'data_label':ad.data_label().for_db(),
'detector_x_bin':ad.detector_x_bin().for_db(),
'detector_y_bin':ad.detector_y_bin().for_db(),
'read_speed_setting':ad.read_speed_setting().for_db(),
'gain_setting':ad.gain_setting().for_db(),
'amp_read_area':ad.amp_read_area().for_db(),
'ut_datetime':ad.ut_datetime().for_db(),
'exposure_time':ad.exposure_time().for_db(),
'object': ad.object().for_db(),
'filter_name':ad.filter_name().for_db(),
'focal_plane_mask':ad.focal_plane_mask().for_db(),
}
print repr(desc_dict)
type_list = ad.types
ad.close()
sequence = [('descriptors', desc_dict), ('types', type_list)]
postdata = urllib.urlencode(sequence)
#postdata = urllib.urlencode({"hello":1.})
