Introducing Gradio Clients
WatchIntroducing Gradio Clients
WatchCreating visualizations with a time x-axis is a common use case. Let's dive in!
Time plots need a datetime column on the x-axis. Here's a simple example with some flight data:
import gradio as gr
import pandas as pd
import numpy as np
import random
from datetime import datetime, timedelta
now = datetime.now()
df = pd.DataFrame({
'time': [now - timedelta(minutes=5*i) for i in range(25)],
'price': np.random.randint(100, 1000, 25),
'origin': [random.choice(["DFW", "DAL", "HOU"]) for _ in range(25)],
'destination': [random.choice(["JFK", "LGA", "EWR"]) for _ in range(25)],
})
with gr.Blocks() as demo:
gr.LinePlot(df, x="time", y="price")
gr.ScatterPlot(df, x="time", y="price", color="origin")
demo.launch()
You may wish to bin data by time buckets. Use x_bin
to do so, using a string suffix with "s", "m", "h" or "d", such as "15m" or "1d".
import gradio as gr
from data import df
with gr.Blocks() as demo:
plot = gr.BarPlot(df, x="time", y="price", x_bin="10m")
bins = gr.Radio(["10m", "30m", "1h"], label="Bin Size")
bins.change(lambda bins: gr.BarPlot(x_bin=bins), bins, plot)
demo.launch()
You can use gr.DateTime
to accept input datetime data. This works well with plots for defining the x-axis range for the data.
import gradio as gr
from data import df
with gr.Blocks() as demo:
with gr.Row():
start = gr.DateTime("now - 24h")
end = gr.DateTime("now")
apply_btn = gr.Button("Apply")
plot = gr.LinePlot(df, x="time", y="price")
apply_btn.click(lambda start, end: gr.BarPlot(x_lim=[start, end]), [start, end], plot)
demo.launch()
Note how gr.DateTime
can accept a full datetime string, or a shorthand using now - [0-9]+[smhd]
format to refer to a past time.
You will often have many time plots in which case you'd like to keep the x-axes in sync. The DateTimeRange
custom component keeps a set of datetime plots in sync, and also uses the .select
listener of plots to allow you to zoom into plots while keeping plots in sync.
Because it is a custom component, you first need to pip install gradio_datetimerange
. Then run the following:
import gradio as gr
from gradio_datetimerange import DateTimeRange
from data import df
with gr.Blocks() as demo:
daterange = DateTimeRange(["now - 24h", "now"])
plot1 = gr.LinePlot(df, x="time", y="price")
plot2 = gr.LinePlot(df, x="time", y="price", color="origin")
daterange.bind([plot1, plot2])
demo.launch()
Try zooming around in the plots and see how DateTimeRange updates. All the plots updates their x_lim
in sync. You also have a "Back" link in the component to allow you to quickly zoom in and out.
In many cases, you're working with live, realtime date, not a static dataframe. In this case, you'd update the plot regularly with a gr.Timer()
. Assuming there's a get_data
method that gets the latest dataframe:
with gr.Blocks() as demo:
timer = gr.Timer(5)
plot1 = gr.BarPlot(x="time", y="price")
plot2 = gr.BarPlot(x="time", y="price", color="origin")
timer.tick(lambda: [get_data(), get_data()], outputs=[plot1, plot2])
You can also use the every
shorthand to attach a Timer
to a component that has a function value:
with gr.Blocks() as demo:
timer = gr.Timer(5)
plot1 = gr.BarPlot(get_data, x="time", y="price", every=timer)
plot2 = gr.BarPlot(get_data, x="time", y="price", color="origin", every=timer)