""" Format the UVData object parameters into a sphinx rst file. """ import os import inspect from pyuvdata import UVData import numpy as np from astropy.time import Time def write_dataparams_rst(write_file=None): UV = UVData() out = 'UVData Parameters\n==========================\n' out += ("These are the standard attributes of UVData objects.\n\nUnder the hood " "they are actually properties based on UVParameter objects.\n\nAngle type " "attributes also have convenience properties named the same thing \nwith " "'_degrees' appended through which you can get or set the value in " "degrees.\n\nSimilarly location type attributes (which are given in " "topocentric xyz coordinates) \nhave convenience properties named the " "same thing with '_lat_lon_alt' and \n'_lat_lon_alt_degrees' appended " "through which you can get or set the values using \nlatitude, longitude and " "altitude values in radians or degrees and meters.\n\n") out += 'Required\n----------------\n' out += ('These parameters are required to have a sensible UVData object and \n' 'are required for most kinds of uv data files.') out += "\n\n" for thing in UV.required(): obj = getattr(UV, thing) out += '**{name}**\n'.format(name=obj.name) out += ' {desc}\n'.format(desc=obj.description) out += "\n" out += 'Optional\n----------------\n' out += ('These parameters are defined by one or more file standard but are not ' 'always required.\nSome of them are required depending on the ' 'phase_type (as noted below).') out += "\n\n" for thing in UV.extra(): obj = getattr(UV, thing) out += '**{name}**\n'.format(name=obj.name) out += ' {desc}\n'.format(desc=obj.description) out += "\n" t = Time.now() t.out_subfmt = 'date' out += "last updated: {date}".format(date=t.iso) if write_file is None: write_path = os.path.dirname(os.path.abspath(inspect.stack()[0][1])) write_file = os.path.join(write_path, 'uvdata_parameters.rst') F = open(write_file, 'w') F.write(out) print("wrote " + write_file)