NewLocalizedFunctionsCollection -> LocalizedFunctionsCollection

parent 070d1372
Pipeline #106761433 passed with stage
in 3 minutes and 22 seconds
......@@ -57,7 +57,7 @@ like `\tilde{p}_{n\ell m}^a(\mathbf{r})` on the 3D grid, you need both
the radial part `\tilde{p}_{n\ell}^a(r)` (one of the splines in
``paw.wfs.setups[a].pt_j``) and a spherical harmonics `Y_{\ell
m}(\theta,\phi)`. Putting radial functions times spherical harmonics
on a grid is done by the :class:`gpaw.lfc.NewLocalizedFunctionsCollection`
on a grid is done by the :class:`gpaw.lfc.LocalizedFunctionsCollection`
class. See also :class:`gpaw.setup.Setup` and :class:`gpaw.spline.Spline`.
......@@ -204,7 +204,7 @@ way as the pseudo electron spin-densities.
- :class:`gpaw.spline.Spline`
* - `\tilde{n}_c^a(\mathbf{r}-\mathbf{R}^a)`
- ``paw.density.nct``
- :class:`gpaw.lfc.NewLocalizedFunctionsCollection`
- :class:`gpaw.lfc.LocalizedFunctionsCollection`
* - `f_{\sigma\mathbf{k}n}`
- ``paw.wfs.kpt_u[u].f_n``
- ``ndarray``
......@@ -288,7 +288,7 @@ where
- List of :class:`gpaw.spline.Spline`\ s
* - `\hat{g}_L^a(\mathbf{r}-\mathbf{R}^a)`
- ``paw.density.ghat``
- :class:`gpaw.lfc.NewLocalizedFunctionsCollection`
- :class:`gpaw.lfc.LocalizedFunctionsCollection`
* - `Q_L^a`
- ``paw.density.Q_aL[a]``
- ``ndarray``
......
......@@ -3,7 +3,7 @@ Miscellaneous objects and functions
.. autofunction:: gpaw.occupations.occupation_numbers
.. autoclass:: gpaw.lfc.NewLocalizedFunctionsCollection
.. autoclass:: gpaw.lfc.LocalizedFunctionsCollection
:members:
.. autoclass:: gpaw.spline.Spline
......
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