Use pandas to analyze data
Use pandas, the Python data analysis library, to process, analyze, and visualize data stored in an InfluxDB Clustered database.
pandas is an open source, BSD-licensed library providing high-performance, easy-to-use data structures and data analysis tools for the Python programming language.
- Install prerequisites
- Install pandas
- Use PyArrow to convert query results to pandas
- Use pandas to analyze data
Install prerequisites
The examples in this guide assume using a Python virtual environment and the InfluxDB v3 influxdb3-python
Python client library.
For more information, see how to get started using Python to query InfluxDB.
Installing influxdb3-python
also installs the pyarrow
library that provides Python bindings for Apache Arrow.
Install pandas
To use pandas, you need to install and import the pandas
library.
In your terminal, use pip
to install pandas
in your active Python virtual environment:
pip install pandas
Use PyArrow to convert query results to pandas
The following steps use Python, influxdb3-python
, and pyarrow
to query InfluxDB and stream Arrow data to a pandas DataFrame
.
In your editor, copy and paste the following code to a new file–for example,
pandas-example.py
:# pandas-example.py from influxdb_client_3 import InfluxDBClient3 import pandas # Instantiate an InfluxDB client configured for a database client = InfluxDBClient3( "https://cluster-host.com", database="
DATABASE_NAME", token="DATABASE_TOKEN") # Execute the query to retrieve all record batches in the stream # formatted as a PyArrow Table. table = client.query( '''SELECT * FROM home WHERE time >= now() - INTERVAL '90 days' ORDER BY time''' ) client.close() # Convert the PyArrow Table to a pandas DataFrame. dataframe = table.to_pandas() print(dataframe)Replace the following configuration values:
DATABASE_NAME
: the name of the database to queryDATABASE_TOKEN
: a database token with read permission on the specified database
In your terminal, use the Python interpreter to run the file:
python pandas-example.py
The example calls the following methods:
InfluxDBClient3.query()
: sends the query request and returns apyarrow.Table
that contains all the Arrow record batches from the response stream.pyarrow.Table.to_pandas()
: Creates apandas.DataFrame
from the data in the PyArrowTable
.
Next, use pandas to analyze data.
Use pandas to analyze data
View data information and statistics
The following example shows how to use pandas DataFrame
methods to transform and summarize data stored in InfluxDB Clustered.
# pandas-example.py
from influxdb_client_3 import InfluxDBClient3
import pandas
# Instantiate an InfluxDB client configured for a database
client = InfluxDBClient3(
"https://cluster-host.com",
database="DATABASE_NAME",
token="DATABASE_TOKEN")
# Execute the query to retrieve all record batches in the stream
# formatted as a PyArrow Table.
table = client.query(
'''SELECT *
FROM home
WHERE time >= now() - INTERVAL '90 days'
ORDER BY time'''
)
client.close()
# Convert the PyArrow Table to a pandas DataFrame.
dataframe = table.to_pandas()
# Print information about the results DataFrame,
# including the index dtype and columns, non-null values, and memory usage.
dataframe.info()
# Calculate descriptive statistics that summarize the distribution of the results.
print(dataframe.describe())
# Extract a DataFrame column.
print(dataframe['temp'])
# Print the DataFrame in Markdown format.
print(dataframe.to_markdown())
Replace the following configuration values:
DATABASE_NAME
: the name of the InfluxDB database to queryDATABASE_TOKEN
: a database token with read permission on the specified database
Downsample time series
The pandas library provides extensive features for working with time series data.
The pandas.DataFrame.resample()
method downsamples and upsamples data to time-based groups–for example:
# pandas-example.py
...
# Use the `time` column to generate a DatetimeIndex for the DataFrame
dataframe = dataframe.set_index('time')
# Print information about the index
print(dataframe.index)
# Downsample data into 1-hour groups based on the DatetimeIndex
resample = dataframe.resample("1H")
# Print a summary that shows the start time and average temp for each group
print(resample['temp'].mean())
For more detail and examples, see the pandas documentation.
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