Source code for gammapy.analysis.core

# Licensed under a 3-clause BSD style license - see LICENSE.rst
"""Session class driving the high level interface API"""
import logging
from astropy.coordinates import SkyCoord
from astropy.table import Table
from regions import CircleSkyRegion
from gammapy.analysis.config import AnalysisConfig
from gammapy.data import DataStore
from gammapy.datasets import Datasets, FluxPointsDataset, MapDataset, SpectrumDataset
from gammapy.estimators import (
    ExcessMapEstimator,
    FluxPointsEstimator,
    LightCurveEstimator,
)
from gammapy.makers import (
    FoVBackgroundMaker,
    MapDatasetMaker,
    ReflectedRegionsBackgroundMaker,
    RingBackgroundMaker,
    SafeMaskMaker,
    SpectrumDatasetMaker,
)
from gammapy.maps import Map, MapAxis, RegionGeom, WcsGeom
from gammapy.modeling import Fit
from gammapy.modeling.models import FoVBackgroundModel, Models
from gammapy.utils.pbar import progress_bar
from gammapy.utils.scripts import make_path

__all__ = ["Analysis"]

log = logging.getLogger(__name__)


[docs]class Analysis: """Config-driven high level analysis interface. It is initialized by default with a set of configuration parameters and values declared in an internal high level interface model, though the user can also provide configuration parameters passed as a nested dictionary at the moment of instantiation. In that case these parameters will overwrite the default values of those present in the configuration file. Parameters ---------- config : dict or `AnalysisConfig` Configuration options following `AnalysisConfig` schema """ def __init__(self, config): self.config = config self.config.set_logging() self.datastore = None self.observations = None self.datasets = None self.models = None self.fit = Fit() self.fit_result = None self.flux_points = None @property def config(self): """Analysis configuration (`AnalysisConfig`)""" return self._config @config.setter def config(self, value): if isinstance(value, dict): self._config = AnalysisConfig(**value) elif isinstance(value, AnalysisConfig): self._config = value else: raise TypeError("config must be dict or AnalysisConfig.") def _set_data_store(self): """Set the datastore on the Analysis object.""" path = make_path(self.config.observations.datastore) if path.is_file(): log.debug(f"Setting datastore from file: {path}") self.datastore = DataStore.from_file(path) elif path.is_dir(): log.debug(f"Setting datastore from directory: {path}") self.datastore = DataStore.from_dir(path) else: raise FileNotFoundError(f"Datastore not found: {path}") def _make_obs_table_selection(self): """Return list of obs_ids after filtering on datastore observation table.""" obs_settings = self.config.observations # Reject configs with list of obs_ids and obs_file set at the same time if len(obs_settings.obs_ids) and obs_settings.obs_file is not None: raise ValueError( "Values for both parameters obs_ids and obs_file are not accepted." ) # First select input list of observations from obs_table if len(obs_settings.obs_ids): selected_obs_table = self.datastore.obs_table.select_obs_id( obs_settings.obs_ids ) elif obs_settings.obs_file is not None: path = make_path(obs_settings.obs_file) ids = list(Table.read(path, format="ascii", data_start=0).columns[0]) selected_obs_table = self.datastore.obs_table.select_obs_id(ids) else: selected_obs_table = self.datastore.obs_table # Apply cone selection if obs_settings.obs_cone.lon is not None: cone = dict( type="sky_circle", frame=obs_settings.obs_cone.frame, lon=obs_settings.obs_cone.lon, lat=obs_settings.obs_cone.lat, radius=obs_settings.obs_cone.radius, border="0 deg", ) selected_obs_table = selected_obs_table.select_observations(cone) return selected_obs_table["OBS_ID"].tolist()
[docs] def get_observations(self): """Fetch observations from the data store according to criteria defined in the configuration.""" observations_settings = self.config.observations self._set_data_store() log.info("Fetching observations.") ids = self._make_obs_table_selection() self.observations = self.datastore.get_observations( ids, skip_missing=True, required_irf=observations_settings.required_irf ) if observations_settings.obs_time.start is not None: start = observations_settings.obs_time.start stop = observations_settings.obs_time.stop if len(start.shape) == 0: time_intervals = [(start, stop)] else: time_intervals = [(tstart, tstop) for tstart, tstop in zip(start, stop)] self.observations = self.observations.select_time(time_intervals) log.info(f"Number of selected observations: {len(self.observations)}") for obs in self.observations: log.debug(obs)
[docs] def get_datasets(self): """Produce reduced datasets.""" datasets_settings = self.config.datasets if not self.observations or len(self.observations) == 0: raise RuntimeError("No observations have been selected.") if datasets_settings.type == "1d": self._spectrum_extraction() else: # 3d self._map_making()
[docs] def set_models(self, models): """Set models on datasets. Adds `FoVBackgroundModel` if not present already Parameters ---------- models : `~gammapy.modeling.models.Models` or str Models object or YAML models string """ if not self.datasets or len(self.datasets) == 0: raise RuntimeError("Missing datasets") log.info("Reading model.") if isinstance(models, str): self.models = Models.from_yaml(models) elif isinstance(models, Models): self.models = models else: raise TypeError(f"Invalid type: {models!r}") self.models.extend(self.datasets.models) if self.config.datasets.type == "3d": for dataset in self.datasets: if dataset.background_model is None: bkg_model = FoVBackgroundModel(dataset_name=dataset.name) self.models.append(bkg_model) self.datasets.models = self.models log.info(self.models)
[docs] def read_models(self, path): """Read models from YAML file.""" path = make_path(path) models = Models.read(path) self.set_models(models)
[docs] def run_fit(self): """Fitting reduced datasets to model.""" if not self.models: raise RuntimeError("Missing models") fit_settings = self.config.fit for dataset in self.datasets: if fit_settings.fit_range: energy_min = fit_settings.fit_range.min energy_max = fit_settings.fit_range.max geom = dataset.counts.geom dataset.mask_fit = geom.energy_mask(energy_min, energy_max) log.info("Fitting datasets.") result = self.fit.run(datasets=self.datasets) self.fit_result = result log.info(self.fit_result)
[docs] def get_flux_points(self): """Calculate flux points for a specific model component.""" if not self.datasets: raise RuntimeError("No datasets set.") fp_settings = self.config.flux_points log.info("Calculating flux points.") energy_edges = self._make_energy_axis(fp_settings.energy).edges flux_point_estimator = FluxPointsEstimator( energy_edges=energy_edges, source=fp_settings.source, fit=self.fit, **fp_settings.parameters, ) fp = flux_point_estimator.run(datasets=self.datasets) self.flux_points = FluxPointsDataset( data=fp, models=self.models[fp_settings.source] ) cols = ["e_ref", "dnde", "dnde_ul", "dnde_err", "sqrt_ts"] table = self.flux_points.data.to_table(sed_type="dnde") log.info("\n{}".format(table[cols]))
[docs] def get_excess_map(self): """Calculate excess map with respect to the current model.""" excess_settings = self.config.excess_map log.info("Computing excess maps.") if self.config.datasets.type == "1d": raise ValueError("Cannot compute excess map for 1D dataset") # Here we could possibly stack the datasets if needed. if len(self.datasets) > 1: raise ValueError("Datasets must be stacked to compute the excess map") energy_edges = self._make_energy_axis(excess_settings.energy_edges) if energy_edges is not None: energy_edges = energy_edges.edges excess_map_estimator = ExcessMapEstimator( correlation_radius=excess_settings.correlation_radius, energy_edges=energy_edges, **excess_settings.parameters, ) self.excess_map = excess_map_estimator.run(self.datasets[0])
[docs] def get_light_curve(self): """Calculate light curve for a specific model component.""" lc_settings = self.config.light_curve log.info("Computing light curve.") energy_edges = self._make_energy_axis(lc_settings.energy_edges).edges if ( lc_settings.time_intervals.start is None or lc_settings.time_intervals.stop is None ): log.info( "Time intervals not defined. Extract light curve on datasets GTIs." ) time_intervals = None else: time_intervals = [ (t1, t2) for t1, t2 in zip( lc_settings.time_intervals.start, lc_settings.time_intervals.stop ) ] light_curve_estimator = LightCurveEstimator( time_intervals=time_intervals, energy_edges=energy_edges, source=lc_settings.source, fit=self.fit, **lc_settings.parameters, ) lc = light_curve_estimator.run(datasets=self.datasets) self.light_curve = lc log.info( "\n{}".format( self.light_curve.to_table(format="lightcurve", sed_type="flux") ) )
[docs] def update_config(self, config): self.config = self.config.update(config=config)
@staticmethod def _create_wcs_geometry(wcs_geom_settings, axes): """Create the WCS geometry.""" geom_params = {} skydir_settings = wcs_geom_settings.skydir if skydir_settings.lon is not None: skydir = SkyCoord( skydir_settings.lon, skydir_settings.lat, frame=skydir_settings.frame ) geom_params["skydir"] = skydir if skydir_settings.frame in ["icrs", "galactic"]: geom_params["frame"] = skydir_settings.frame else: raise ValueError( f"Incorrect skydir frame: expect 'icrs' or 'galactic'. Got {skydir_settings.frame}" ) geom_params["axes"] = axes geom_params["binsz"] = wcs_geom_settings.binsize width = wcs_geom_settings.width.width.to("deg").value height = wcs_geom_settings.width.height.to("deg").value geom_params["width"] = (width, height) return WcsGeom.create(**geom_params) @staticmethod def _create_region_geometry(on_region_settings, axes): """Create the region geometry.""" on_lon = on_region_settings.lon on_lat = on_region_settings.lat on_center = SkyCoord(on_lon, on_lat, frame=on_region_settings.frame) on_region = CircleSkyRegion(on_center, on_region_settings.radius) return RegionGeom.create(region=on_region, axes=axes) def _create_geometry(self): """Create the geometry.""" log.debug("Creating geometry.") datasets_settings = self.config.datasets geom_settings = datasets_settings.geom axes = [self._make_energy_axis(geom_settings.axes.energy)] if datasets_settings.type == "3d": geom = self._create_wcs_geometry(geom_settings.wcs, axes) elif datasets_settings.type == "1d": geom = self._create_region_geometry(datasets_settings.on_region, axes) else: raise ValueError( f"Incorrect dataset type. Expect '1d' or '3d'. Got {datasets_settings.type}." ) return geom def _create_reference_dataset(self, name=None): """Create the reference dataset for the current analysis.""" log.debug("Creating target Dataset.") geom = self._create_geometry() geom_settings = self.config.datasets.geom geom_irf = dict(energy_axis_true=None, binsz_irf=None) if geom_settings.axes.energy_true.min is not None: geom_irf["energy_axis_true"] = self._make_energy_axis( geom_settings.axes.energy_true, name="energy_true" ) if geom_settings.wcs.binsize_irf is not None: geom_irf["binsz_irf"] = geom_settings.wcs.binsize_irf.to("deg").value if self.config.datasets.type == "1d": return SpectrumDataset.create(geom, name=name, **geom_irf) else: return MapDataset.create(geom, name=name, **geom_irf) def _create_dataset_maker(self): """Create the Dataset Maker.""" log.debug("Creating the target Dataset Maker.") datasets_settings = self.config.datasets if datasets_settings.type == "3d": maker = MapDatasetMaker(selection=datasets_settings.map_selection) elif datasets_settings.type == "1d": maker_config = {} if datasets_settings.containment_correction: maker_config[ "containment_correction" ] = datasets_settings.containment_correction maker_config["selection"] = ["counts", "exposure", "edisp"] maker = SpectrumDatasetMaker(**maker_config) return maker def _create_safe_mask_maker(self): """Create the SafeMaskMaker.""" log.debug("Creating the mask_safe Maker.") safe_mask_selection = self.config.datasets.safe_mask.methods safe_mask_settings = self.config.datasets.safe_mask.parameters return SafeMaskMaker(methods=safe_mask_selection, **safe_mask_settings) def _create_background_maker(self): """Create the Background maker.""" log.info("Creating the background Maker.") datasets_settings = self.config.datasets bkg_maker_config = {} if datasets_settings.background.exclusion: path = make_path(datasets_settings.background.exclusion) exclusion_mask = Map.read(path) exclusion_mask.data = exclusion_mask.data.astype(bool) bkg_maker_config["exclusion_mask"] = exclusion_mask bkg_maker_config.update(datasets_settings.background.parameters) bkg_method = datasets_settings.background.method bkg_maker = None if bkg_method == "fov_background": log.debug(f"Creating FoVBackgroundMaker with arguments {bkg_maker_config}") bkg_maker = FoVBackgroundMaker(**bkg_maker_config) elif bkg_method == "ring": bkg_maker = RingBackgroundMaker(**bkg_maker_config) log.debug(f"Creating RingBackgroundMaker with arguments {bkg_maker_config}") if datasets_settings.geom.axes.energy.nbins > 1: raise ValueError( "You need to define a single-bin energy geometry for your dataset." ) elif bkg_method == "reflected": bkg_maker = ReflectedRegionsBackgroundMaker(**bkg_maker_config) log.debug( f"Creating ReflectedRegionsBackgroundMaker with arguments {bkg_maker_config}" ) else: log.warning("No background maker set. Check configuration.") return bkg_maker def _map_making(self): """Make maps and datasets for 3d analysis""" datasets_settings = self.config.datasets offset_max = datasets_settings.geom.selection.offset_max log.info("Creating reference dataset and makers.") stacked = self._create_reference_dataset(name="stacked") maker = self._create_dataset_maker() maker_safe_mask = self._create_safe_mask_maker() bkg_maker = self._create_background_maker() log.info("Start the data reduction loop.") if datasets_settings.stack: for obs in progress_bar(self.observations, desc="Observations"): log.debug(f"Processing observation {obs.obs_id}") cutout = stacked.cutout(obs.pointing_radec, width=2 * offset_max) dataset = maker.run(cutout, obs) dataset = maker_safe_mask.run(dataset, obs) if bkg_maker is not None: dataset = bkg_maker.run(dataset) if bkg_maker.tag == "RingBackgroundMaker": dataset = dataset.to_map_dataset() log.debug(dataset) stacked.stack(dataset) datasets = [stacked] else: datasets = [] for obs in progress_bar(self.observations, desc="Observations"): log.debug(f"Processing observation {obs.obs_id}") cutout = stacked.cutout(obs.pointing_radec, width=2 * offset_max) dataset = maker.run(cutout, obs) dataset = maker_safe_mask.run(dataset, obs) if bkg_maker is not None: dataset = bkg_maker.run(dataset) log.debug(dataset) datasets.append(dataset) self.datasets = Datasets(datasets) def _spectrum_extraction(self): """Run all steps for the spectrum extraction.""" log.info("Reducing spectrum datasets.") datasets_settings = self.config.datasets dataset_maker = self._create_dataset_maker() safe_mask_maker = self._create_safe_mask_maker() bkg_maker = self._create_background_maker() reference = self._create_reference_dataset() datasets = [] for obs in progress_bar(self.observations, desc="Observations"): log.debug(f"Processing observation {obs.obs_id}") dataset = dataset_maker.run(reference.copy(), obs) if bkg_maker is not None: dataset = bkg_maker.run(dataset, obs) if dataset.counts_off is None: log.debug( f"No OFF region found for observation {obs.obs_id}. Discarding." ) continue dataset = safe_mask_maker.run(dataset, obs) log.debug(dataset) datasets.append(dataset) self.datasets = Datasets(datasets) if datasets_settings.stack: stacked = self.datasets.stack_reduce(name="stacked") self.datasets = Datasets([stacked]) @staticmethod def _make_energy_axis(axis, name="energy"): if axis.min is None or axis.max is None: return None elif axis.nbins is None or axis.nbins < 1: return None else: return MapAxis.from_bounds( name=name, lo_bnd=axis.min.value, hi_bnd=axis.max.to_value(axis.min.unit), nbin=axis.nbins, unit=axis.min.unit, interp="log", node_type="edges", )