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# Copyright (c) 2017 Weitian LI <weitian@aaronly.me>
# MIT license
"""
Generic simulation sky supporting both sky patch and HEALPix all-sky
maps.
"""
import os
import logging
import copy
import numpy as np
from scipy import ndimage
from astropy.io import fits
import astropy.units as au
from astropy.wcs import WCS
from astropy.coordinates import SkyCoord
from regions import PixCoord, RectanglePixelRegion
import healpy as hp
from .utils.fits import read_fits_healpix, write_fits_healpix
logger = logging.getLogger(__name__)
class SkyPatch:
"""
Support reading & writing FITS file of sky patches.
NOTE/XXX
--------
Only `TAN` (tangential) sky projection supported!
Parameters
----------
size : (xsize, ysize) tuple
The (pixel) dimensions of the (output) sky patch.
If the input sky has a different size, then it will be *scaled*
to match this output size.
NOTE: Due to the FITS using Fortran ordering, while Python/numpy
using C ordering, therefore, the read in image/data array
has shape (ysize, xsize).
pixelsize : float
The pixel size of the sky patch, will be used to determine
the sky coordinates. [ arcmin ]
center : (ra, dec) tuple
The (R.A., Dec.) coordinate of the sky patch center. [ deg ]
infile : str
The path to the input sky patch
Attributes
----------
type : str, "patch" or "healpix"
The type of this sky map
data : 1D `numpy.ndarray`
The flattened 1D array of map data
NOTE: The 2D image is flattened to 1D, making it easier to be
manipulated in a similar way as the HEALPix map.
size : int tuple, (width, height)
The dimensions of the FITS image
shape : int tuple, (nrow*ncol, )
The shape of the flattened image array
NOTE: nrow=height, ncol=width
pixelsize : float
The pixel size of the sky map [ arcmin ]
center : float tuple, (ra, dec)
The (R.A., Dec.) coordinate of the sky patch center. [ deg ]
"""
type_ = "patch"
# Input sky patch and its frequency [ MHz ]
infile = None
frequency = None
# Sky data; should be a 1D ``numpy.ndarray`` (i.e., flattened)
data = None
# Coordinates of each pixel
coordinates = None
def __init__(self, size, pixelsize, center=(0.0, 0.0),
infile=None, frequency=None):
self.xcenter, self.ycenter = center
self.xsize, self.ysize = size
self.pixelsize = pixelsize
if infile is not None:
self.read(infile, frequency)
@property
def size(self):
return (self.xsize, self.ysize)
@property
def shape(self):
if self.data is not None:
return self.data.shape
else:
return (self.ysize * self.xsize, )
@property
def center(self):
return (self.xcenter, self.ycenter)
def read(self, infile, frequency=None):
"""
Read input sky data from file.
Parameters
----------
infile : str
The path to the input sky patch
frequency : float, optional
The frequency of the sky patch; [ MHz ]
"""
self.infile = infile
if frequency is not None:
self.frequency = frequency * au.MHz
with fits.open(infile) as f:
self.data = f[0].data
self.header = f[0].header
self.ysize_in, self.xsize_in = self.data.shape
logger.info("Read sky patch from: %s (%dx%d)" %
(infile, self.xsize_in, self.ysize_in))
if (self.xsize_in != self.xsize) or (self.ysize_in != self.ysize):
logger.warning("Scale input sky patch to size %dx%d" %
(self.xsize, self.ysize))
zoom = (self.ysize/self.ysize_in, self.xsize/self.xsize_in)
self.data = ndimage.zoom(self.data, zoom=zoom, order=1)
# Flatten the image
self.data = self.data.flatten()
logger.info("Flatten the image to a 1D array")
def load(self, infile, frequency=None):
"""
Make a new copy of this instance, then read the input sky patch
and return the loaded new instance.
Returns
-------
A new copy of this instance with the given sky patch loaded.
"""
sky = self.copy()
sky.read(infile=infile, frequency=frequency)
return sky
def copy(self):
"""
Return a copy of this instance.
"""
return copy.deepcopy(self)
def write(self, outfile, clobber=False, checksum=True):
"""
Write current data to file.
"""
outdir = os.path.dirname(outfile)
if not os.path.exists(outdir):
os.makedirs(outdir)
logger.info("Created output directory: %s" % outdir)
image = self.data.reshape(self.ysize, self.xsize)
header = self.wcs.to_header()
header.extend(self.header, update=True)
hdu = fits.PrimaryHDU(data=image, header=self.header)
hdu.writeto(outfile, clobber=clobber, checksum=checksum)
logger.info("Write sky map to file: %s" % outfile)
@property
def wcs(self):
"""
The WCS header with sky projection information, for sky <->
pixel coordinate(s) conversion.
NOTE/XXX
--------
Currently only support the `TAN` (tangential) projection.
"""
w = WCS(naxis=2)
w.wcs.ctype = ["RA---TAN", "DEC--TAN"]
w.wcs.crval = np.array([self.xcenter, self.ycenter])
w.wcs.crpix = np.array([self.xsize/2.0-0.5, self.ysize/2.0-0.5])
w.wcs.cdelt = np.array([-self.pixelsize/60.0, self.pixelsize/60.0])
w.wcs.cunit = ["deg", "deg"]
w.wcs.equinox = 2000.0
return w
def contains(self, skycoord):
"""
Check whether the given (list of) sky coordinate(s) falls
inside this sky patch (region).
Parameters
----------
skycoord : `~astropy.coordinate.SkyCoord` or (lon, lat) tuple
The (list of) sky coordinate(s) to check, or the (list of)
longitudes and latitudes of sky coordinates [ deg ]
Returns
-------
inside : bool
(list of) boolean values indicating whether the given
sky coordinate(s) is inside this sky patch.
"""
if not isinstance(skycoord, SkyCoord):
lon, lat = skycoord
skycoord = SkyCoord(lon, lat, unit=au.deg)
wcs = self.wcs
pixcoord = PixCoord.from_sky(skycoord, wcs=wcs)
center = PixCoord(x=self.xcenter, y=self.ycenter)
region = RectanglePixelRegion(center=center,
width=self.xsize, height=self.ysize)
return region.contains(pixcoord)
class SkyHealpix:
"""
Support the HEALPix all-sky map.
Parameters
----------
nside : int
The pixel resolution of HEALPix (must be power of 2)
Attributes
----------
shape : int tuple, (npix,)
The shape (i.e., length) of the HEALPix array
pixelsize : float
The pixel size of the HEALPix map [ arcmin ]
"""
type_ = "healpix"
# Input sky patch and its frequency [ MHz ]
infile = None
frequency = None
# Sky data; should be a ``numpy.ndarray``
data = None
# Coordinates of each pixel
coordinates = None
def __init__(self, nside, infile=None, frequency=None):
self.nside = nside
if infile is not None:
self.read(infile, frequency)
@property
def shape(self):
if self.data is not None:
return self.data.shape
else:
return (hp.nside2npix(self.nside), )
@property
def pixelsize(self):
return hp.nside2resol(self.nside, arcmin=True)
def read(self, infile, frequency=None):
"""
Read input HEALPix all-sky map.
Parameters
----------
infile : str
The path to the input HEALPix all-sky map.
frequency : float, optional
The frequency of the sky patch; [ MHz ]
"""
self.infile = infile
if frequency is not None:
self.frequency = frequency * au.MHz
self.data, self.header = read_fits_healpix(infile)
self.nside_in = self.header["NSIDE"]
logger.info("Read HEALPix sky map from: {0} (Nside={1})".format(
infile, self.nside_in))
if self.nside_in != self.nside:
self.data = hp.ud_grade(self.data, nside_out=self.nside)
logger.warning("Upgrade/downgrade sky map from Nside " +
"{0} to {1}".format(self.nside_in, self.nside))
def load(self, infile, frequency=None):
"""
Make a new copy of this instance, then read the input sky map
and return the loaded new instance.
Returns
-------
A new copy of this instance with the given sky map loaded.
"""
sky = self.copy()
sky.read(infile=infile, frequency=frequency)
return sky
def copy(self):
"""
Return a copy of this instance.
"""
return copy.deepcopy(self)
def write(self, outfile, clobber=False, checksum=True):
"""
Write current data to file.
"""
outdir = os.path.dirname(outfile)
if not os.path.exists(outdir):
os.makedirs(outdir)
logger.info("Created output directory: %s" % outdir)
write_fits_healpix(outfile, self.data, header=self.header,
clobber=clobber, checksum=checksum)
logger.info("Write sky map to file: %s" % outfile)
def get_sky(configs):
"""
Sky class factory function to support both the sky patch and
HEALPix all-sky map.
Parameters
----------
configs : ConfigManager object
An `ConfigManager` object contains default and user configurations.
For more details, see the example config specification.
"""
skytype = configs.getn("sky/type")
if skytype == "patch":
sec = "sky/patch"
xsize = configs.getn(sec+"/xsize")
ysize = configs.getn(sec+"/ysize")
xcenter = configs.getn(sec+"/xcenter")
ycenter = configs.getn(sec+"/ycenter")
pixelsize = configs.getn(sec+"/pixelsize")
return SkyPatch(size=(xsize, ysize), pixelsize=pixelsize,
center=(xcenter, ycenter))
elif skytype == "healpix":
sec = "sky/healpix"
nside = configs.getn(sec+"/nside")
return SkyHealpix(nside=nside)
else:
raise ValueError("unknown sky type: %s" % skytype)
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