XarrayLineFitter

class PlasmaCalcs.tools.xarray_tools.xarray_sci.XarrayLineFitter(array, dim, *, promote_dims_if_needed=True, pnames=UNSET, pbounds=UNSET, bounds=UNSET, **kw_curve_fit)

Bases: XarrayCurveFitter

XarrayCurveFitter with f a line: f(x, slope, intercept) = slope * x + intercept.

array: xarray.DataArray or Dataset

data to fit.

Currently, Dataset allowed only if it has ‘mean’ and ‘std’ data_vars, when stddev=True,

in which case will sample the implied gaussians (via np.random.normal),
N=``werr_samples`` times, performing N fits to f,
reporting the mean and stddev of each fit param across all N fits, and
ignoring scipy standard deviation info about params from each individual fit.

dim: str

dim to fit along.

stddev: bool

whether to include data_var ‘stddev’ telling standard deviation of the fit.

(Internally, stored inside self.kw_curve_fit)

werr_samples: int

number of fits to do if array is a Dataset with ‘mean’ and ‘std’ vars, when stddev=True,

in which case result will tell mean and stddev of each fit param across all N fits,

and ignore scipy standard deviation info about params from each individual fit.

(Implemented this because default scipy linear least squares fitting with errorbars

just weights each point’s important by inverse of error bar,

which highly favors points with small errors.

That default does NOT correspond to the results of “repeating the experiment” N times,

where “the experiment” is gathering data then fitting,

and then asking “what is the mean and stddev of fit params across all N experiments?”.

However, using werr_samples DOES correspond to “repeating the experiment” N times.)

(Internally, stored inside self.kw_curve_fit)

werr_seed: None or any object, default 0

np.random.seed(werr_seed) beforehand, if doing werr_samples (with Dataset array).

Default 0 ensures reproducible results.

None –> don’t call np.random.seed beforehand. Will give different results each time.

(Internally, stored inside self.kw_curve_fit)

promote_dims_if_needed: bool

whether to promote non-dimension coords to dimensions.

if False, raise DimensionKeyError if any relevant coord is not already a dimension.

pnames: UNSET or None or list of str

names of params. If provided, ‘param’ coord will be assigned these names.

UNSET –> use cls.pnames (default: None)

pbounds: UNSET or None or list of [None, callable, or 2-tuple of value, None, or callable]

bounds for each parameter. Provide pbounds or bounds, but not both.

None –> no bounds provided.

Each bound can be:

callable –> call as bound(array, dim) (after doing array.pc.ensure_dims(dim)).

None –> use (-np.inf, np.inf).

2-tuple –> (lower, upper).

callable –> use lower(array, dim) / upper(array, dim)

None –> use -np.inf / np.inf.

UNSET –> use cls.pbounds (default: None)

bounds: UNSET or (list of lower bounds, list of upper bounds)

bounds, formatted as expected by scipy curve_fit.

Provide pbounds or bounds, but not both.

additional kwargs go to xarray_curve_fit, then scipy.optimize.curve_fit.

Methods

`eval`([xdata, params, stddev])	evaluate curve fit result (params) at these xdata.
`f`(x, slope, intercept)	function to fit: just a simple line.
`fit`(*[, stddev])	curve_fit to ydata = self.array, xdata = self.array[self.dim].

Attributes

`fitted`	result of latest call to self.fit().
`params`	alias to self.fitted['params'], the params from latest call to self.fit.
`pbounds`
`pnames`
`xdata`	alias to self.array[self.dim]

eval(xdata=UNSET, params=UNSET, stddev=False): evaluate curve fit result (params) at these xdata.

Equivalent: xarray_curve_eval(params, self.f, xdata)

xdata: UNSET, 1D xarray.DataArray, or other 1D array-like

x values at which to evaluate the fit.

UNSET –> use self.xdata.

non-xarray 1D array-like –> convert to 1D DataArray via xr1d(xdata, self.dim)

params: UNSET or values of params from a fit.

UNSET –> use self.fitted

stddev: bool

whether to instead return Dataset with data_vars ‘eval+std’, ‘eval’, and ‘eval-std’,

telling f(xdata, *(params+std)), f(xdata, *params), and f(xdata, *(params-std)).

Fails if params is not a Dataset with ‘stddev’ data_var.

[EFF] note: if self.f is well-vectorized, it is equivalent (when stddev=False) and faster to do:

self.f(xdata, *params.transpose(‘param’, …))

static f(x, slope, intercept): function to fit: just a simple line. f(x, slope, intercept) = slope * x + intercept.

fit(*, stddev=UNSET): curve_fit to ydata = self.array, xdata = self.array[self.dim].

Remembers result in self.fitted. Returns self.fitted.

stddev: UNSET or bool

whether to include data_var ‘stddev’ telling standard deviation of the fit.

UNSET –> use value from self.kw_curve_fit, else default of xarray_curve_fit.

property fitted: result of latest call to self.fit().

None if never called self.fit(), or if crashed before finishing self.fit().

property params: alias to self.fitted[‘params’], the params from latest call to self.fit.

crash with helpful message if self.fitted doesn’t exist.

property xdata: alias to self.array[self.dim]