apsum_circ_ann_center

apsum_circ_ann_center(
    data,
    x,
    y,
    r_in,
    r_out,
    *,
    mask=None,
    return_npix=True,
    validate=True,
)

Return center-selected circular-annulus aperture sums for one or many aperture centers.

Parameters

data : array_like: Two-dimensional image. For maximum performance with raw contiguous arrays, use import astroapers._rust as aapr and call the raw functions directly.
x, y : scalar or array_like: Aperture center coordinates in pixel units. Inputs are converted to contiguous float64 arrays. Shapes must match after numpy.atleast_1d. The return shape matches that broadcast-free input shape, so scalar inputs return one-element arrays.
r_in, r_out : float: Inner and outer annulus radii in pixels. r_in must be nonnegative and smaller than r_out.
mask : array_like of bool, optional = None: Boolean image mask with the same shape as data. True pixels are excluded from both the aperture sum and effective pixel count. Values are converted to boolean.
return_npix : bool, optional = True: If True, return (apsum, npix). If False, return only apsum.

Returns

apsum : ndarray: Sum of the unmasked data values multiplied by the aperture weights.
npix : ndarray: Effective in-frame pixel count, returned only when return_npix=True. This is the sum of aperture weights after image clipping and mask exclusion.

Notes

For more raw-call patterns, inspect astroapers.kernels; it is the Python layer that calls _rust internally. The annulus uses the same center convention as npix_circ_center(r_out) - npix_circ_center(r_in): the inner boundary is included and the outer boundary is excluded.