def deepsky_date_survey(save_suffix):
dir = os.path.dirname(__file__)
savedir = os.path.join(dir, '../../data/deepsky_test/date1_s1/')
# FOV Dimensions
FOV_Dim = (2048 * 6.2 / 3600) * (pi / 180) # Base Dimension
FOV_phi = FOV_Dim * 2
FOV_theta = FOV_Dim
# Pointings
pointings1 = gen_deepskydate1_points()
#pointings1=np.array([[1.0, pi/36,0, 0],
# [1.0, pi/62, 0, 0]])
days = np.unique(pointings1[:, 0])
# Initializations
skymap = SkyMap(nside=2**10,
LVF_theta=FOV_theta,
LVF_phi=FOV_phi,
cap_theta=pi / 4)
skyplot1 = SkyPlots2()
fig_sub, ax_sub = plt.subplots(1, 4, subplot_kw=dict(polar=True))
sub_ind = 0
subplot_days = [1, 91, 182, 365]
#subplot_days=[1,3,7,10]
plot_days = [1, 3, 45, 91, 130, 182, 230, 290, 365]
#plot_days=[1,2,3,7,10]
plot_lambda_ranges = [(.75, 2.34), (.75, .76), (1.30, 1.33), (2.26, 2.34)]
for day in days:
points_in = map(tuple, pointings1[pointings1[:, 0] == day, 1:4])
for i, tupler in enumerate(points_in):
print "day:%s, step:%s" % (day, i)
skymap.make_dicts(day, tupler)
if day in plot_days:
for j, tupler in enumerate(plot_lambda_ranges):
fig1, ax1 = plt.subplots(1, 1, subplot_kw=dict(polar=True))
redu_mat2, redu_dict2 = redu_data(skymap.lambda_dict,
lambda_min=tupler[0],
lambda_max=tupler[1])
scat, Nhits = redu_deepsky(ax1, redu_mat2, redu_dict2)
fig1.colorbar(scat)
fig1.set_size_inches(20, 10)
fig1.suptitle("Day %s, Nhits=%s, [%s, %s]" %
(day, Nhits, tupler[0], tupler[1]))
savename2 = "date1_s1_%s_%s" % (day, tupler)
plt.savefig(savedir + "%s.png" % (savename2))
if day in subplot_days:
redu_mat1, redu_dict1 = redu_data(skymap.lambda_dict, .75, 5)
redu_deepsky(ax_sub[sub_ind], redu_mat1, redu_dict1)
sub_ind += 1
subplot_proposal1(fig_sub, ax_sub)
fig_sub.savefig(savedir + "%s.png" % ("MultiPanel_date1_s1"))
def allsky_survey(pointing_file, save_suffix):
dir= os.path.dirname(__file__)
savedir = os.path.join(dir, '../../data/allsky_test/')
# FOV Dimensions
FOV_Dim=(2048*6.2/3600)*(pi/180) # Base Dimension
FOV_phi=FOV_Dim*2
FOV_theta=FOV_Dim
Nstrip=21 # Number of strips on each band of FOV
skymap = SkyMap(nside=2**9,LVF_theta=FOV_theta, LVF_phi=FOV_phi, cap_theta=pi)
pointings1 = read_in_date(pointing_file)
days = np.unique(pointings1[:,0])
# Initializations
skyplot1=SkyPlots2()
fig_sub, ax_sub= plt.subplots(1, 4, subplot_kw=dict(projection="mollweide"))
sub_ind=0
subplot_days=[91,182,273,365]
plot_days=[1,91,182,273,365]
plot_lambda_ranges=[(.75,2.34),(.75,.76),(1.30,1.33),(2.26,2.34)]
for day in days:
points_in=map(tuple, pointings1[ pointings1[:,0]==day, 1:4] )
for i, tupler in enumerate(points_in):
print "day:%s, step:%s" %(day, i)
skymap.make_dicts(day, tupler )
if day in plot_days:
for j,tupler in enumerate(plot_lambda_ranges):
fig1, ax1= plt.subplots(1,1, subplot_kw=dict(projection="mollweide"))
redu_mat2, redu_dict2 = redu_data(skymap.lambda_dict, lambda_min=tupler[0] ,lambda_max=tupler[1])
scat, Nhits=redu_allsky( ax1, redu_mat2, redu_dict2)
ax1.get_xaxis().set_ticks([])
ax1.get_yaxis().set_ticks([])
fig1.colorbar(scat)
fig1.set_size_inches(20,10)
#fig1.suptitle("Day %s, Nhits=%s, [%s, %s]" %(day, Nhits, tupler[0], tupler[1]) )
savename2="allsky_date1_3_%s_%s" %(day,tupler)
plt.savefig( savedir + "%s.svg" %(savename2) )
if day in subplot_days:
redu_mat1, redu_dict1=redu_data(skymap.lambda_dict, .75, .76)
scat_mult, Nhits=redu_allsky( ax_sub[sub_ind], redu_mat1, redu_dict1)
ax_sub[sub_ind].get_xaxis().set_ticks([])
ax_sub[sub_ind].get_yaxis().set_ticks([])
sub_ind+=1
subplot_proposal1( fig_sub, ax_sub)
fig_sub.subplots_adjust(right=0.8)
cbar_ax=fig_sub.add_axes([.85,.23,.01,.5])
fig_sub.colorbar(scat_mult, cax=cbar_ax)
fig_sub.savefig( savedir + "%s.svg" %("MultiPanel_3") )
# Save Dictionary
skymap.save_lambda_dict(save_suffix)
def deepsky_date_survey(save_suffix, gen_name, rel_save_location):
dir = os.path.dirname(__file__)
savedir = os.path.join(dir, rel_save_location)
# FOV Dimensions
FOV_Dim = (2048 * 6.2 / 3600) * (pi / 180) # Base Dimension
FOV_phi = FOV_Dim * 2
FOV_theta = FOV_Dim
# Pointings
pointings1 = gen_deepskydate1_points()
#pointings1=np.array([[1.0, pi/36, 0, 0]])
days = np.unique(pointings1[:, 0])
# Initializations
skymap = SkyMap(nside=2**9,
LVF_theta=FOV_theta,
LVF_phi=FOV_phi,
cap_theta=15 * pi / 180)
skyplot1 = SkyPlots2()
fig_sub, ax_sub = plt.subplots(1, 4, subplot_kw=dict(polar=True))
sub_ind = 0
subplot_days = [91, 182, 273, 364]
#subplot_days=[1,3,7,10]
plot_days = [1, 2, 3, 4, 5, 6, 91, 182, 273, 364]
#plot_days=[1,2,3,7,10]
plot_lambda_ranges = [(.75, 2.34), (.75, .76), (1.30, 1.33), (2.26, 2.34)]
for day in days:
points_in = map(tuple, pointings1[pointings1[:, 0] == day, 1:4])
for i, tupler in enumerate(points_in):
print "day:%s, step:%s" % (day, i)
skymap.make_dicts(day, tupler)
if day in plot_days:
for j, tupler in enumerate(plot_lambda_ranges):
fig1, ax1 = plt.subplots(1, 1, subplot_kw=dict(polar=True))
redu_mat2, redu_dict2 = redu_data(skymap.lambda_dict,
lambda_min=tupler[0],
lambda_max=tupler[1])
scat, Nhits = redu_deepsky(ax1, redu_mat2, redu_dict2)
fig1.colorbar(scat)
fig1.set_size_inches(20, 15)
fig1.suptitle("Day %s, Nhits=%s, [%s, %s]" %
(day, Nhits, tupler[0], tupler[1]))
savename2 = "%s_%s_%s" % (gen_name, day, tupler)
plt.savefig(savedir + "%s.png" % (savename2), dpi=150)
if day in subplot_days:
redu_mat1, redu_dict1 = redu_data(skymap.lambda_dict, .75, 5)
redu_deepsky(ax_sub[sub_ind], redu_mat1, redu_dict1)
sub_ind += 1
# Make FOM Plots
out_array = lam_dict_to_array(skymap.lambda_dict)
array_mean_std_plots(out_array, gen_name, savedir)
proposal_deepsky_specs(fig_sub, ax_sub)
fig_sub.savefig(savedir + "MultiPanel_%s.png" % (gen_name), dpi=150)
# Save Dictionary
skymap.save_lambda_dict(save_suffix)
def allsky_survey(pointing_file, save_suffix):
dir = os.path.dirname(__file__)
savedir = os.path.join(dir, '../../data/allsky_test/')
# FOV Dimensions
FOV_Dim = (2048 * 6.2 / 3600) * (pi / 180) # Base Dimension
FOV_phi = FOV_Dim * 2
FOV_theta = FOV_Dim
Nstrip = 21 # Number of strips on each band of FOV
skymap = SkyMap2(nside=2**8,
LVF_theta=FOV_theta,
LVF_phi=FOV_phi,
cap_theta=pi)
pointings1 = read_in_date(pointing_file)
days = np.unique(pointings1[:, 0])
# Initializations
skyplot1 = SkyPlots2()
fig_sub, ax_sub = plt.subplots(1,
4,
subplot_kw=dict(projection="mollweide"))
sub_ind = 0
sum_plot_days = [2, 91, 182, 273, 365]
least_plot_days = [91, 181, 273, 365]
plot_lambda_ranges = [(.75, 2.34), (.75, .76), (1.30, 1.33), (2.26, 2.34)]
for day in days:
points_in = map(tuple, pointings1[pointings1[:, 0] == day, 1:4])
for i, tupler in enumerate(points_in):
print "day:%s, step:%s" % (day, i)
skymap.make_dicts(day, tupler)
if (day in least_plot_days) & (i == 0):
least_hits_arr = skymap.least_hits()
theta_in = least_hits_arr[:, 0]
phi_in = least_hits_arr[:, 1]
hits_in = least_hits_arr[:, 2]
moll_plot(theta_in, phi_in, hits_in,
"least_allsky: Day %s" % (day),
"least_allsky_4_day_%s" % (day))
if (day in sum_plot_days) & (i == 0):
sum_hits_arr = skymap.sum_hits()
theta_in = sum_hits_arr[:, 0]
phi_in = sum_hits_arr[:, 1]
hits_in = sum_hits_arr[:, 2]
moll_plot(theta_in, phi_in, hits_in,
"sum_allsky: Day %s" % (day),
"sum_allsky_4_day_%s" % (day))
least_hits_arr = skymap.least_hits()
theta_in = least_hits_arr[:, 0]
phi_in = least_hits_arr[:, 1]
hits_in = least_hits_arr[:, 2]
moll_plot(theta_in, phi_in, hits_in, "least_allsky: Day %s" % ("FINAL"),
"least_allsky_4_day_%s" % ("FINAL"))
sum_hits_arr = skymap.sum_hits()
theta_in = sum_hits_arr[:, 0]
phi_in = sum_hits_arr[:, 1]
hits_in = sum_hits_arr[:, 2]
moll_plot(theta_in, phi_in, hits_in, "sum_allsky: Day %s" % ("FINAL"),
"sum_allsky_4_day_%s" % ("FINAL"))
