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Fix PowerLaw.from_simulation for new SimulationInfo, add test #258

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2 changes: 2 additions & 0 deletions docs/changes/258.bugfix.rst
Original file line number Diff line number Diff line change
@@ -0,0 +1,2 @@
Fix ``PowerLaw.from_simulation`` for the new format of ``SimulatedEventsInformation``,
it was broken since splitting the single ``viewcone`` into ``viewcone_min`` and ``viewcone_max``.
3 changes: 2 additions & 1 deletion pyirf/io/eventdisplay.py
Original file line number Diff line number Diff line change
Expand Up @@ -77,7 +77,8 @@ def read_eventdisplay_fits(infile, use_histogram=True):
energy_max=u.Quantity(run_header["E_range"][1], u.TeV),
max_impact=u.Quantity(run_header["core_range"][1], u.m),
spectral_index=run_header["spectral_index"],
viewcone=u.Quantity(run_header["viewcone"][1], u.deg),
viewcone_min=u.Quantity(run_header["viewcone"][0], u.deg),
viewcone_max=u.Quantity(run_header["viewcone"][1], u.deg),
)

return events, sim_info
7 changes: 4 additions & 3 deletions pyirf/spectral.py
Original file line number Diff line number Diff line change
Expand Up @@ -116,10 +116,11 @@ def from_simulation(cls, simulated_event_info, obstime, e_ref=1 * u.TeV):
e_max = simulated_event_info.energy_max
index = simulated_event_info.spectral_index
n_showers = simulated_event_info.n_showers
viewcone = simulated_event_info.viewcone
viewcone_min = simulated_event_info.viewcone_min
viewcone_max = simulated_event_info.viewcone_max

if viewcone.value > 0:
solid_angle = 2 * np.pi * (1 - np.cos(viewcone)) * u.sr
if (viewcone_max - viewcone_min).value > 0:
solid_angle = cone_solid_angle(viewcone_max) - cone_solid_angle(viewcone_min)
unit = DIFFUSE_FLUX_UNIT
else:
solid_angle = 1
Expand Down
39 changes: 39 additions & 0 deletions pyirf/tests/test_spectral.py
Original file line number Diff line number Diff line change
Expand Up @@ -73,3 +73,42 @@ def test_powerlaw():
power_law = PowerLaw(1e-10 * unit, -2.65)
assert power_law(1 * u.TeV).unit == unit
assert power_law(1 * u.GeV).unit == unit


def test_powerlaw_from_simulations():
from pyirf.simulations import SimulatedEventsInfo
from pyirf.spectral import PowerLaw

# calculate sensitivity between 1 and 2 degrees offset from fov center
obstime = 50 * u.hour

simulated_events = SimulatedEventsInfo(
n_showers=int(1e6),
energy_min=10 * u.GeV,
energy_max=100 * u.TeV,
max_impact=1 * u.km,
spectral_index=-2,
viewcone_min=0 * u.deg,
viewcone_max=0 * u.deg,
)

powerlaw = PowerLaw.from_simulation(simulated_events, obstime=obstime)
assert powerlaw.index == -2
# regression test, maybe better come up with an easy to analytically verify parameter combination?
assert u.isclose(powerlaw.normalization, 1.76856511e-08 / (u.TeV * u.m**2 * u.s))


simulated_events = SimulatedEventsInfo(
n_showers=int(1e6),
energy_min=10 * u.GeV,
energy_max=100 * u.TeV,
max_impact=1 * u.km,
spectral_index=-2,
viewcone_min=5 * u.deg,
viewcone_max=10 * u.deg,
)

powerlaw = PowerLaw.from_simulation(simulated_events, obstime=obstime)
assert powerlaw.index == -2
# regression test, maybe better come up with an easy to analytically verify parameter combination?
assert u.isclose(powerlaw.normalization, 2.471917427911683e-07 / (u.TeV * u.m**2 * u.s * u.sr))