**Update** for the latest versions of matplotlib (`3.3.4`

) and seaborn (`0.11.1`

): the kdeplot with `shade=True`

now doesn't create a line object anymore. To get the same outcome as before, setting `shade=False`

will still create the line object. The curve can then be filled with `ax.fill_between()`

. The code below is changed accordingly. (Use the revision history to see the older version.)

`ax.lines[0]`

gets the curve of the kde, of which you can extract the x and y data.
`np.interp`

then can find the height of the curve for a given x-value:

```
import numpy as np
import matplotlib.pyplot as plt
import seaborn as sns
x = np.random.normal(np.tile(np.random.uniform(10, 30, 5), 50), 3)
ax = sns.kdeplot(x, shade=False, color='crimson')
kdeline = ax.lines[0]
mean = x.mean()
xs = kdeline.get_xdata()
ys = kdeline.get_ydata()
height = np.interp(mean, xs, ys)
ax.vlines(mean, 0, height, color='crimson', ls=':')
ax.fill_between(xs, 0, ys, facecolor='crimson', alpha=0.2)
plt.show()
```

The same approach can be extended to show the mean together with the standard deviation, or the median and the quartiles:

```
import matplotlib.pyplot as plt
import seaborn as sns
import numpy as np
x = np.random.normal(np.tile(np.random.uniform(10, 30, 5), 50), 3)
fig, axes = plt.subplots(ncols=2, figsize=(12, 4))
for ax in axes:
sns.kdeplot(x, shade=False, color='crimson', ax=ax)
kdeline = ax.lines[0]
xs = kdeline.get_xdata()
ys = kdeline.get_ydata()
if ax == axes[0]:
middle = x.mean()
sdev = x.std()
left = middle - sdev
right = middle + sdev
ax.set_title('Showing mean and sdev')
else:
left, middle, right = np.percentile(x, [25, 50, 75])
ax.set_title('Showing median and quartiles')
ax.vlines(middle, 0, np.interp(middle, xs, ys), color='crimson', ls=':')
ax.fill_between(xs, 0, ys, facecolor='crimson', alpha=0.2)
ax.fill_between(xs, 0, ys, where=(left <= xs) & (xs <= right), interpolate=True, facecolor='crimson', alpha=0.2)
# ax.set_ylim(ymin=0)
plt.show()
```

PS: for the mode of the kde:

```
mode_idx = np.argmax(ys)
ax.vlines(xs[mode_idx], 0, ys[mode_idx], color='lime', ls='--')
```

"between limits of y axis"and the post"a line that goes from 0 to the y value of the mean frequency"? (By the way, the curve shows the density, not the frequency.)