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authorAaron LI <aly@aaronly.me>2017-12-09 11:23:29 +0800
committerAaron LI <aly@aaronly.me>2017-12-09 11:23:29 +0800
commit302fced198ae7bdef49490cd423baa106d4875ba (patch)
tree62e8344bd1138f47395f56ea0a3259983e017fea /astro/fits
parent6f2851ddc0961a363cb86b27a33d547568b8093c (diff)
downloadatoolbox-302fced198ae7bdef49490cd423baa106d4875ba.tar.bz2
Remove astro/fits/rescale_image.py and astro/fits/crop_image.py
Diffstat (limited to 'astro/fits')
-rwxr-xr-xastro/fits/crop_image.py35
-rwxr-xr-xastro/fits/rescale_image.py197
2 files changed, 0 insertions, 232 deletions
diff --git a/astro/fits/crop_image.py b/astro/fits/crop_image.py
deleted file mode 100755
index 9cfa7bf..0000000
--- a/astro/fits/crop_image.py
+++ /dev/null
@@ -1,35 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2017 Aaron LI <aly@aaronly.me>
-# MIT license
-#
-
-"""
-Crop out the central region of specified size from the FITS image.
-"""
-
-import argparse
-
-from rescale_image import FITSImage
-
-
-def main():
- parser = argparse.ArgumentParser(
- description="Rescale a FITS image to the desired size/resolution")
- parser.add_argument("-C", "--clobber", action="store_true",
- help="overwrite existing output file")
- parser.add_argument("-s", "--size", type=float, required=True,
- help="central crop box size [deg]")
- parser.add_argument("-i", "--infile", required=True,
- help="input FITS image")
- parser.add_argument("-o", "--outfile", required=True,
- help="output cropped FITS image")
- args = parser.parse_args()
-
- fitsimage = FITSImage(args.infile)
- fitsimage.crop(size=args.size)
- fitsimage.write(args.outfile, clobber=args.clobber)
-
-
-if __name__ == "__main__":
- main()
diff --git a/astro/fits/rescale_image.py b/astro/fits/rescale_image.py
deleted file mode 100755
index d0ae218..0000000
--- a/astro/fits/rescale_image.py
+++ /dev/null
@@ -1,197 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2017 Aaron LI <aly@aaronly.me>
-# MIT license
-#
-
-"""
-Rescale the FITS image to increase/decrease the pixel resolution
-by interpolation, meanwhile keep the image FoV and update FITS WCS.
-
-For example, we may simulate the galaxy clusters (and point sources)
-foreground component with a (much) higher resolution (smaller pixels)
-compared to other foreground components (e.g., Galactic synchrotron)
-and EoR signal. After simulating the observed images using OSKAR and
-WSClean, the output images may in different sizes/resolution, which
-may cause some troubles in subsequent usage, e.g., power spectrum
-calculation.
-"""
-
-import sys
-import argparse
-from datetime import datetime, timezone
-
-import numpy as np
-from astropy.io import fits
-from astropy.wcs import WCS
-from scipy import ndimage
-
-
-class FITSImage:
- def __init__(self, filename, pixelsize=None):
- self.filename = filename
- self.header, self.image = self.open_image(filename)
- if pixelsize is not None:
- self.pixelsize = pixelsize
- print("Loaded FITS image from file: %s" % filename)
- print("FITS image size: %dx%d" % (self.Nx, self.Ny))
- print("Pixel size: %.1f [arcsec]" % self.pixelsize)
- print("FoV: %.2fx%.2f [deg^2]" % self.fov)
-
- def rescale(self, shape, order=1):
- print("Rescaling FITS image ...")
- try:
- Ny2, Nx2 = shape
- except TypeError:
- Ny2 = Nx2 = shape
- print("Scale output size: %dx%d" % (Nx2, Ny2))
- print("Scale interpolation order: %d" % order)
- zoom = ((Ny2+0.1)/self.Ny, (Nx2+0.1)/self.Nx)
- pixelsize_old = self.pixelsize
- self.image = ndimage.zoom(self.image, zoom=zoom, order=order)
- self.pixelsize = pixelsize_old / zoom[0]
- print("Scaled pixel size: %.1f [arcsec]" % self.pixelsize)
-
- def crop(self, size):
- print("Cropping FITS image ...")
- try:
- xsize, ysize = size # [deg]
- except TypeError:
- xsize = ysize = size
- Nx2 = round(xsize * 3600 / self.pixelsize)
- Ny2 = round(ysize * 3600 / self.pixelsize)
- if Nx2 > self.Nx or Ny2 > self.Ny:
- raise ValueError("Crop region too large!")
-
- print("Central crop box size: %.2fx%.2f [deg^2]" % (xsize, ysize))
- print("Cropped image size: %dx%d" % (Nx2, Ny2))
- xi0 = int((self.Nx-Nx2) / 2)
- yi0 = int((self.Ny-Ny2) / 2)
- self.image = self.image[yi0:(yi0+Ny2), xi0:(xi0+Nx2)]
-
- def write(self, outfile, clobber=False):
- header = self.header.copy(strip=True)
- header.extend(self.wcs.to_header(), update=True)
- header["DATE"] = (datetime.now(timezone.utc).astimezone().isoformat(),
- "File creation date")
- header.add_history(" ".join(sys.argv))
- hdu = fits.PrimaryHDU(data=self.image, header=header)
- try:
- hdu.writeto(outfile, overwrite=clobber)
- except TypeError:
- hdu.writeto(outfile, clobber=clobber)
- print("Wrote FITS image to file: %s" % outfile)
-
- @property
- def fov(self):
- # Unit: [deg]
- return (self.Nx*self.pixelsize/3600, self.Ny*self.pixelsize/3600)
-
- @property
- def pixelsize(self):
- # Unit: [arcsec]
- if hasattr(self, "_pixelsize"):
- return self._pixelsize
-
- try:
- return self.header["PixSize"] # [arcsec]
- except KeyError:
- try:
- return abs(self.header["CDELT1"]) * 3600 # [deg] -> [arcsec]
- except KeyError:
- raise ValueError("Cannot obtain pixel size from header; " +
- "please manually provide --pixelsize")
-
- @pixelsize.setter
- def pixelsize(self, value):
- # Unit: [arcsec]
- self._pixelsize = value
-
- @property
- def Nx(self):
- return self.image.shape[1]
-
- @property
- def Ny(self):
- return self.image.shape[0]
-
- @property
- def wcs(self):
- hdr = self.header
- w = WCS(naxis=2)
- w.wcs.equinox = hdr.get("EQUINOX", 2000.0)
- w.wcs.ctype = [hdr.get("CTYPE1", "RA---SIN"),
- hdr.get("CTYPE2", "DEC--SIN")]
- w.wcs.crval = np.array([hdr.get("CRVAL1", 0.0),
- hdr.get("CRVAL2", 0.0)])
- w.wcs.crpix = np.array([self.Ny/2+1, self.Nx/2+1])
- w.wcs.cdelt = np.array([-self.pixelsize/3600, self.pixelsize/3600])
- w.wcs.cunit = [hdr.get("CUNIT1", "deg"), hdr.get("CUNIT2", "deg")]
- return w
-
- @staticmethod
- def open_image(infile):
- """
- Open the slice image and return its header and 2D image data.
-
- NOTE
- ----
- The input slice image may have following dimensions:
- * NAXIS=2: [Y, X]
- * NAXIS=3: [FREQ=1, Y, X]
- * NAXIS=4: [STOKES=1, FREQ=1, Y, X]
-
- NOTE
- ----
- Only open slice image that has only ONE frequency and ONE Stokes
- parameter.
-
- Returns
- -------
- header : `~astropy.io.fits.Header`
- image : 2D `~numpy.ndarray`
- The 2D [Y, X] image part of the slice image.
- """
- with fits.open(infile) as f:
- header = f[0].header
- data = f[0].data
- if data.ndim == 2:
- # NAXIS=2: [Y, X]
- image = data
- elif data.ndim == 3 and data.shape[0] == 1:
- # NAXIS=3: [FREQ=1, Y, X]
- image = data[0, :, :]
- elif data.ndim == 4 and data.shape[0] == 1 and data.shape[1] == 1:
- # NAXIS=4: [STOKES=1, FREQ=1, Y, X]
- image = data[0, 0, :, :]
- else:
- raise ValueError("Slice '{0}' has invalid dimensions: {1}".format(
- infile, data.shape))
- return (header, image)
-
-
-def main():
- parser = argparse.ArgumentParser(
- description="Rescale a FITS image to the desired size/resolution")
- parser.add_argument("-C", "--clobber", action="store_true",
- help="overwrite existing output file")
- parser.add_argument("--order", type=int, default=1,
- help="scale interpolation order (default: 1)")
- parser.add_argument("-s", "--size", type=int, required=True,
- help="output image size (number of pixels)")
- parser.add_argument("-p", "--pixelsize", type=float,
- help="input FITS image pixel size [arcsec] " +
- "(default: try to obtain from FITS header)")
- parser.add_argument("-i", "--infile", required=True,
- help="input FITS image")
- parser.add_argument("-o", "--outfile", required=True,
- help="output FITS image")
- args = parser.parse_args()
-
- fitsimage = FITSImage(args.infile, pixelsize=args.pixelsize)
- fitsimage.rescale(shape=args.size, order=args.order)
- fitsimage.write(args.outfile, clobber=args.clobber)
-
-
-if __name__ == "__main__":
- main()