Source code for astroquery.heasarc.core

# Licensed under a 3-clause BSD style license - see LICENSE.rst

import warnings
from io import StringIO, BytesIO
from astropy.table import Table
from astropy.io import fits
from astropy import coordinates
from astropy import units as u
from ..query import BaseQuery
from ..utils import commons
from ..utils import async_to_sync
from ..exceptions import InvalidQueryError, NoResultsWarning
from . import conf

__all__ = ['Heasarc', 'HeasarcClass']


[docs]@async_to_sync class HeasarcClass(BaseQuery): """ HEASARC query class. For a list of available HEASARC mission tables, visit: https://heasarc.gsfc.nasa.gov/cgi-bin/W3Browse/w3catindex.pl """ URL = conf.server TIMEOUT = conf.timeout coord_systems = ['fk5', 'fk4', 'equatorial', 'galactic']
[docs] def query_async(self, request_payload, cache=True, url=None): """ Submit a query based on a given request_payload. This allows detailed control of the query to be submitted. """ if url is None: url = conf.server response = self._request('GET', url, params=request_payload, timeout=self.TIMEOUT, cache=cache) return response
[docs] def query_mission_list(self, cache=True, get_query_payload=False): """ Returns a list of all available mission tables with descriptions """ request_payload = self._args_to_payload( entry='none', mission='xxx', displaymode='BatchDisplay' ) if get_query_payload: return request_payload # Parse the results specially (it's ascii format, not fits) response = self.query_async( request_payload, url=conf.server, cache=cache ) data_str = response.text data_str = data_str.replace('Table xxx does not seem to exist!\n\n\n\nAvailable tables:\n', '') table = Table.read(data_str, format='ascii.fixed_width_two_line', delimiter='+', header_start=1, position_line=2, data_start=3, data_end=-1) return table
[docs] def query_mission_cols(self, mission, cache=True, get_query_payload=False, **kwargs): """ Returns a list containing the names of columns that can be returned for a given mission table. By default all column names are returned. Parameters ---------- mission : str Mission table (short name) to search from fields : str, optional Return format for columns from the server available options: * Standard : Return default table columns * All (default) : Return all table columns * <custom> : User defined csv list of columns to be returned All other parameters have no effect """ response = self.query_region_async(position='0.0 0.0', mission=mission, radius='361 degree', cache=cache, get_query_payload=get_query_payload, resultsmax=1, fields='All') # Return payload if requested if get_query_payload: return response return self._parse_result(response).colnames
[docs] def query_object_async(self, object_name, mission, cache=True, get_query_payload=False, **kwargs): """ Query around a specific object within a given mission catalog Parameters ---------- object_name : str Object to query around. To set search radius use the 'radius' parameter. mission : str Mission table to search from **kwargs : see `~astroquery.heasarc.HeasarcClass._args_to_payload` for list of additional parameters that can be used to refine search query """ request_payload = self._args_to_payload( mission=mission, entry=object_name, **kwargs ) # Return payload if requested if get_query_payload: return request_payload return self.query_async(request_payload, cache=cache)
[docs] def query_region_async(self, position, mission, radius, cache=True, get_query_payload=False, **kwargs): """ Query around specific set of coordinates within a given mission catalog. Method first converts the supplied coordinates into the FK5 reference frame and searches for sources from there. Because of this, returned offset coordinates may look different than the ones supplied. Parameters ---------- position : `astropy.coordinates` or str The position around which to search. It may be specified as a string in which case it is resolved using online services or as the appropriate `astropy.coordinates` object. ICRS coordinates may also be entered as a string. (adapted from nrao module) mission : str Mission table to search from radius : Astropy Quantity object, or a string that can be parsed into one. e.g., '1 degree' or 1*u.degree. **kwargs : see `~astroquery.heasarc.HeasarcClass._args_to_payload` for list of additional parameters that can be used to refine search query """ # Convert the coordinates to FK5 c = commons.parse_coordinates(position).transform_to(coordinates.FK5) kwargs['coordsys'] = 'fk5' kwargs['equinox'] = 2000 # Generate the request request_payload = self._args_to_payload( mission=mission, entry="{},{}".format(c.ra.degree, c.dec.degree), radius=u.Quantity(radius), **kwargs ) # Return payload if requested if get_query_payload: return request_payload # Submit the request return self.query_async(request_payload, cache=cache)
def _old_w3query_fallback(self, content): # old w3query (such as that used in ISDC) return very strange fits, with all ints f = fits.open(BytesIO(content)) for c in f[1].columns: if c.disp is not None: c.format = c.disp else: c.format = str(c.format).replace("I", "A") I = BytesIO() f.writeto(I) I.seek(0) return Table.read(I) def _fallback(self, text): """ Blank columns which have to be converted to float or in fail so lets fix that by replacing with -1's """ data = StringIO(text) header = fits.getheader(data, 1) # Get header for column info colstart = [y for x, y in header.items() if "TBCOL" in x] collens = [int(float(y[1:])) for x, y in header.items() if "TFORM" in x] new_table = [] old_table = text.split("END")[-1].strip() for line in old_table.split("\n"): newline = [] for n, tup in enumerate(zip(colstart, collens), start=1): cstart, clen = tup part = line[cstart - 1:cstart + clen] newline.append(part) if len(part.strip()) == 0: if header["TFORM%i" % n][0] in ["F", "I"]: # extra space is required to separate column newline[-1] = "-1".rjust(clen) + " " new_table.append("".join(newline)) data = StringIO(text.replace(old_table, "\n".join(new_table))) return Table.read(data, hdu=1) def _parse_result(self, response, verbose=False): # if verbose is False then suppress any VOTable related warnings if not verbose: commons.suppress_vo_warnings() if "BATCH_RETRIEVAL_MSG ERROR:" in response.text: raise InvalidQueryError("One or more inputs is not recognized by HEASARC. " "Check that the object name is in GRB, SIMBAD+Sesame, or " "NED format and that the mission name is as listed in " "query_mission_list().") elif "Software error:" in response.text: raise InvalidQueryError("Unspecified error from HEASARC database. " "\nCheck error message: \n{!s}".format(response.text)) elif "NO MATCHING ROWS" in response.text: warnings.warn(NoResultsWarning("No matching rows were found in the query.")) return Table() try: data = BytesIO(response.content) table = Table.read(data, hdu=1) return table except ValueError: try: return self._fallback(response.text) except Exception as e: return self._old_w3query_fallback(response.content) def _args_to_payload(self, **kwargs): """ Generates the payload based on user supplied arguments Parameters ---------- mission : str Mission table to query entry : str, optional Object or position for center of query. A blank value will return all entries in the mission table. Acceptable formats: * Object name : Name of object, e.g. 'Crab' * Coordinates : X,Y coordinates, either as 'degrees,degrees' or 'hh mm ss,dd mm ss' fields : str, optional Return format for columns from the server available options: * Standard (default) : Return default table columns * All : Return all table columns * <custom> : User defined csv list of columns to be returned radius : float (arcmin), optional Astropy Quantity object, or a string that can be parsed into one. e.g., '1 degree' or 1*u.degree. coordsys: str, optional If 'entry' is a set of coordinates, this specifies the coordinate system used to interpret them. By default, equatorial coordinates are assumed. Possible values: * 'fk5' <default> (FK5 J2000 equatorial coordinates) * 'fk4' (FK4 B1950 equatorial coordinates) * 'equatorial' (equatorial coordinates, `equinox` param determines epoch) * 'galactic' (Galactic coordinates) equinox : int, optional Epoch by which to interpret supplied equatorial coordinates (defaults to 2000, ignored if `coordsys` is not 'equatorial') resultmax : int, optional Set maximum query results to be returned sortvar : str, optional Set the name of the column by which to sort the results. By default the results are sorted by distance from queried object/position displaymode : str, optional Return format from server. Since the user does not interact with this directly, it's best to leave this alone action : str, optional Type of action to be taken (defaults to 'Query') """ # User-facing parameters are lower case, while parameters as passed to the HEASARC service are capitalized according to the HEASARC requirements. # The necessary transformations are done in this function. # Define the basic query for this object mission = kwargs.pop('mission') request_payload = dict( tablehead=('name=BATCHRETRIEVALCATALOG_2.0 {}' .format(mission)), Entry=kwargs.pop('entry', 'none'), Action=kwargs.pop('action', 'Query'), displaymode=kwargs.pop('displaymode', 'FitsDisplay'), resultsmax=kwargs.pop('resultsmax', '10') ) # Fill in optional information for refined queries # Handle queries involving coordinates coordsys = kwargs.pop('coordsys', 'fk5') equinox = kwargs.pop('equinox', None) if coordsys.lower() == 'fk5': request_payload['Coordinates'] = 'Equatorial: R.A. Dec' elif coordsys.lower() == 'fk4': request_payload['Coordinates'] = 'Equatorial: R.A. Dec' request_payload['equinox'] = 1950 elif coordsys.lower() == 'equatorial': request_payload['Coordinates'] = 'Equatorial: R.A. Dec' if equinox is not None: request_payload['Equinox'] = str(equinox) elif coordsys.lower() == 'galactic': request_payload['Coordinates'] = 'Galactic: LII BII' else: raise ValueError("'coordsys' parameter must be one of {!s}" .format(self.coord_systems)) # Specify which table columns are to be returned fields = kwargs.pop('fields', None) if fields is not None: if fields.lower() == 'standard': request_payload['Fields'] = 'Standard' elif fields.lower() == 'all': request_payload['Fields'] = 'All' else: request_payload['varon'] = fields.lower().split(',') # Set search radius (arcmin) radius = kwargs.pop('radius', None) if radius is not None: request_payload['Radius'] = "{}".format(u.Quantity(radius).to(u.arcmin)) # Maximum number of results to be returned resultmax = kwargs.pop('resultmax', None) if resultmax is not None: request_payload['ResultMax'] = int(resultmax) # Set variable for sorting results sortvar = kwargs.pop('sortvar', None) if sortvar is not None: request_payload['sortvar'] = sortvar.lower() # Time range variable _time = kwargs.pop('time', None) if _time is not None: request_payload['Time'] = _time if len(kwargs) > 0: mission_fields = [k.lower() for k in self.query_mission_cols(mission=mission)] for k, v in kwargs.items(): if k.lower() in mission_fields: request_payload['bparam_' + k.lower()] = v else: raise ValueError("unknown parameter '{}' provided, must be one of {!s}".format( k, mission_fields, )) return request_payload
Heasarc = HeasarcClass()