lets_plot.geom_vline#

lets_plot.geom_vline(mapping=None, *, data=None, stat=None, position=None, show_legend=None, manual_key=None, sampling=None, tooltips=None, xintercept=None, color_by=None, **other_args)#

Add a straight vertical line to the plot.

Parameters:
mappingFeatureSpec

Set of aesthetic mappings created by aes() function. Aesthetic mappings describe the way that variables in the data are mapped to plot “aesthetics”.

datadict or Pandas or Polars DataFrame

The data to be displayed in this layer. If None, the default, the data is inherited from the plot data as specified in the call to ggplot.

statstr, default=’identity’

The statistical transformation to use on the data for this layer, as a string.

positionstr or FeatureSpec, default=’identity’

Position adjustment. Either a position adjustment name: ‘dodge’, ‘dodgev’, ‘jitter’, ‘nudge’, ‘jitterdodge’, ‘fill’, ‘stack’ or ‘identity’, or the result of calling a position adjustment function (e.g., position_dodge() etc.).

show_legendbool, default=True

False - do not show legend for this layer.

manual_keystr or layer_key

The key to show in the manual legend. Specify text for the legend label or advanced settings using the layer_key() function.

samplingFeatureSpec

Result of the call to the sampling_xxx() function. To prevent any sampling for this layer pass value “none” (string “none”).

tooltipslayer_tooltips

Result of the call to the layer_tooltips() function. Specify appearance, style and content.

xinterceptfloat

The value of x at the point where the line crosses the x axis.

color_by{‘fill’, ‘color’, ‘paint_a’, ‘paint_b’, ‘paint_c’}, default=’color’

Define the color aesthetic for the geometry.

other_args

Other arguments passed on to the layer. These are often aesthetics settings used to set an aesthetic to a fixed value, like color=’red’, fill=’blue’, size=3 or shape=21. They may also be parameters to the paired geom/stat.

Returns:
LayerSpec

Geom object specification.

Notes

geom_hline() understands the following aesthetics mappings:

Examples

1from lets_plot import *
2LetsPlot.setup_html()
3ggplot() + geom_vline(xintercept=0)

 1import numpy as np
 2import pandas as pd
 3from lets_plot import *
 4LetsPlot.setup_html()
 5n = 100
 6classes = ['a', 'b', 'c']
 7np.random.seed(42)
 8x = np.random.normal(size=n)
 9y = np.random.normal(size=n)
10c = np.random.choice(classes, size=n)
11df = pd.DataFrame({'x': x, 'y': y, 'c': c})
12bounds_df = pd.DataFrame([(cl, df[df.c == cl].x.max()) for cl in classes], \
13                         columns=['c', 'xmax'])
14ggplot() + \
15    geom_vline(aes(xintercept='xmax', color='c'), \
16               data=bounds_df, size=.7, linetype='longdash') + \
17    geom_point(aes(x='x', y='y', color='c'), data=df)

1from lets_plot import *
2LetsPlot.setup_html()
3ggplot() + geom_livemap(location=[0, 0], zoom=1) + \
4    geom_vline(xintercept=0, size=1, color="red") + \
5    ggtitle("Prime meridian")