It's not relevant for `linregress`

because it only admits 1-D arrays anyways but if `x`

is 2-D and you're building a linear regression model using `sklearn.linear_model.LinearRegression`

/`statsmodels.api.OLS`

etc., then it's necessary to drop NaNs row-wise.

```
m = ~(np.isnan(x).any(axis=1) | np.isnan(y))
x_m, y_m = x[m], y[m]
```

In the above example, `any()`

reduces the 2-D mask into a 1-D mask, which can be used to remove rows.

A working example may look like as follows.

```
import numpy as np
from sklearn.linear_model import LinearRegression
# sample data
x = np.random.default_rng(0).normal(size=(100,5)) # x is shape (100,5)
y = np.random.default_rng(0).normal(size=100)
# add some NaNs
x[[10,20], [1,3]] = np.nan
y[5] = np.nan
lr = LinearRegression().fit(x, y) # <---- ValueError
m = ~(np.isnan(x).any(axis=1) | np.isnan(y))
x_m, y_m = x[m], y[m] # remove NaNs
lr = LinearRegression().fit(x_m, y_m) # <---- OK
```

With `statsmodels`

, it's even easier because its models (e.g. `OLS`

, `Logit`

, `GLM`

etc.) have a keyword argument `missing=`

that can be used to drop NaNs under the hood.

```
import statsmodels.api as sm
model = sm.OLS(y, x, missing='drop').fit()
model.summary()
```