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-rw-r--r--fg21sim/utils/grid.py48
1 files changed, 2 insertions, 46 deletions
diff --git a/fg21sim/utils/grid.py b/fg21sim/utils/grid.py
index bf4adca..7a81ea2 100644
--- a/fg21sim/utils/grid.py
+++ b/fg21sim/utils/grid.py
@@ -30,56 +30,12 @@ def _wrap_latitudes(lat):
return lat
-def make_coordinate_grid(center, size, resolution):
- """Make a rectangle, Cartesian coordinate grid.
-
- Parameters
- ----------
- center : 2-float tuple
- Center coordinate (longitude, latitude) of the grid,
- with longitude [0, 360) degree, latitude [-90, 90] degree.
- size : float, or 2-float tuple
- The sizes (size_lon, size_lat) of the grid along the longitude
- and latitude directions. If only one float specified, then the
- grid is square.
- resolution : float
- The grid resolution, unit [ degree ].
-
- Returns
- -------
- lon : 2D `~numpy.ndarray`
- The array with elements representing the longitudes of each grid
- pixel. The array is odd-sized, with the input center locating at
- the exact grid central pixel.
- Also, the longitudes are fixed to be in the valid range [0, 360).
- lat : 2D `~numpy.ndarray`
- The array with elements representing the latitudes of each grid
- pixel.
- Also, the latitudes are fixed to be in the valid range [-90, 90].
- """
- lon0, lat0 = center
- try:
- size_lon, size_lat = size
- except (TypeError, ValueError):
- size_lon = size_lat = size
- # Half number of pixels (excluding the center)
- hn_lon = np.ceil(0.5*size_lon / resolution).astype(np.int)
- hn_lat = np.ceil(0.5*size_lat / resolution).astype(np.int)
- idx_lon = lon0 + np.arange(-hn_lon, hn_lon+1) * resolution
- idx_lat = lat0 + np.arange(-hn_lat, hn_lat+1) * resolution
- # Fix the longitudes and latitudes to be in the valid ranges
- idx_lon = _wrap_longitudes(idx_lon)
- idx_lat = _wrap_latitudes(idx_lat)
- lon, lat = np.meshgrid(idx_lon, idx_lat)
- return (lon, lat)
-
-
@nb.jit(nb.types.UniTuple(nb.float64[:, :], 2)(
nb.types.UniTuple(nb.float64, 2),
nb.types.UniTuple(nb.float64, 2),
nb.float64),
nopython=True)
-def make_coordinate_grid_fast(center, size, resolution):
+def make_coordinate_grid(center, size, resolution):
"""Make a rectangle, Cartesian coordinate grid.
This is the ``numba.jit`` optimized version of ``make_coordinate_grid``.
@@ -170,7 +126,7 @@ def make_grid_ellipse(center, size, resolution, rotation=None):
"""
size_major = max(size)
size = (size_major, size_major)
- lon, lat = make_coordinate_grid_fast(center, size, resolution)
+ lon, lat = make_coordinate_grid(center, size, resolution)
shape = lon.shape
# Fill the ellipse into the grid
r0, c0 = np.floor(np.array(shape) / 2.0).astype(np.int)