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-rw-r--r--fg21sim/utils/grid.py30
1 files changed, 19 insertions, 11 deletions
diff --git a/fg21sim/utils/grid.py b/fg21sim/utils/grid.py
index 8831000..a3030ac 100644
--- a/fg21sim/utils/grid.py
+++ b/fg21sim/utils/grid.py
@@ -7,11 +7,11 @@ Grid utilities.
import numpy as np
-from scipy import ndimage
-import healpy as hp
import numba as nb
+from scipy import ndimage
from .draw import ellipse
+from .healpix import ang2pix_ring
@nb.jit(nopython=True)
@@ -180,6 +180,9 @@ def make_grid_ellipse(center, size, resolution, rotation=None):
return (lon, lat, gridmap)
+@nb.jit(nb.types.Tuple((nb.int64[:], nb.float64[:]))(
+ nb.types.UniTuple(nb.float64[:, :], 3), nb.int64),
+ nopython=True)
def map_grid_to_healpix(grid, nside):
"""Map the filled coordinate grid to the HEALPix map (RING ordering).
@@ -213,17 +216,22 @@ def map_grid_to_healpix(grid, nside):
XXX/TODO:
- Implement the flux-preserving algorithm (reference ???)
"""
- lon, lat, gridmap = grid
+ # XXX: ``numba`` does not support using 2D array as indexes
+ lon = grid[0].flatten()
+ lat = grid[1].flatten()
+ gridmap = grid[2].flatten()
phi = np.radians(lon)
theta = np.radians(90.0 - lat)
- ipix = hp.ang2pix(nside, theta, phi, nest=False)
+ ipix = ang2pix_ring(nside, theta, phi)
# Get the corresponding input grid pixels for each HEALPix pixel
- indexes, counts = np.unique(ipix, return_counts=True)
- shape = (len(indexes), max(counts))
- datamap = np.zeros(shape) * np.nan
- # TODO: how to avoid this explicit loop ??
+ # XXX: ``numba`` currently does not support ``numpy.unique()``
+ ipix_perm = ipix.argsort()
+ ipix_sorted = ipix[ipix_perm]
+ idx_uniq = np.concatenate((np.array([True]),
+ ipix_sorted[1:] != ipix_sorted[:-1]))
+ indexes = ipix_sorted[idx_uniq]
+ values = np.zeros(indexes.shape)
for i, idx in enumerate(indexes):
- pixels = gridmap[ipix == idx]
- datamap[i, :len(pixels)] = pixels
- values = np.nanmean(datamap, axis=1)
+ # XXX: ``numba`` does not support using 2D array as indexes
+ values[i] = np.mean(gridmap[ipix == idx])
return (indexes, values)