Open In Colab

Pandas Query Engine#

This guide shows you how to use our PandasQueryEngine: convert natural language to Pandas python code using LLMs.

The input to the PandasQueryEngine is a Pandas dataframe, and the output is a response. The LLM infers dataframe operations to perform in order to retrieve the result.

NOTE: We have measures in PandasQueryEngine to enforce safety and prevent arbitrary code execution. For instance, no execution of private/dunder methods, and access to a restricted set of globals.

If you’re opening this Notebook on colab, you will probably need to install LlamaIndex 🦙.

!pip install llama-index
import logging
import sys
from IPython.display import Markdown, display

import pandas as pd
from llama_index.query_engine import PandasQueryEngine


logging.basicConfig(stream=sys.stdout, level=logging.INFO)
logging.getLogger().addHandler(logging.StreamHandler(stream=sys.stdout))

Let’s start on a Toy DataFrame#

Here let’s load a very simple dataframe containing city and population pairs, and run the PandasQueryEngine on it.

By setting verbose=True we can see the intermediate generated instructions.

# Test on some sample data
df = pd.DataFrame(
    {
        "city": ["Toronto", "Tokyo", "Berlin"],
        "population": [2930000, 13960000, 3645000],
    }
)
query_engine = PandasQueryEngine(df=df, verbose=True)
response = query_engine.query(
    "What is the city with the highest population?",
)
INFO:httpx:HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
> Pandas Instructions:
```
df['city'][df['population'].idxmax()]
```
> Pandas Output: Tokyo
display(Markdown(f"<b>{response}</b>"))

Tokyo

# get pandas python instructions
print(response.metadata["pandas_instruction_str"])
df['city'][df['population'].idxmax()]

We can also take the step of using an LLM to synthesize a response.

query_engine = PandasQueryEngine(df=df, verbose=True, synthesize_response=True)
response = query_engine.query(
    "What is the city with the highest population? Give both the city and population",
)
print(str(response))
INFO:httpx:HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
> Pandas Instructions:
```
df.loc[df['population'].idxmax()]
```
> Pandas Output: city             Tokyo
population    13960000
Name: 1, dtype: object
INFO:httpx:HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
The city with the highest population is Tokyo, with a population of 13,960,000.

Analyzing the Titanic Dataset#

The Titanic dataset is one of the most popular tabular datasets in introductory machine learning Source: https://www.kaggle.com/c/titanic

Download Data#

!wget 'https://raw.githubusercontent.com/jerryjliu/llama_index/main/docs/examples/data/csv/titanic_train.csv' -O 'titanic_train.csv'
--2024-01-13 17:45:15--  https://raw.githubusercontent.com/jerryjliu/llama_index/main/docs/examples/data/csv/titanic_train.csv
Resolving raw.githubusercontent.com (raw.githubusercontent.com)... 2606:50c0:8003::154, 2606:50c0:8002::154, 2606:50c0:8001::154, ...
Connecting to raw.githubusercontent.com (raw.githubusercontent.com)|2606:50c0:8003::154|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 57726 (56K) [text/plain]
Saving to: ‘titanic_train.csv’

titanic_train.csv   100%[===================>]  56.37K  --.-KB/s    in 0.009s  

2024-01-13 17:45:15 (6.45 MB/s) - ‘titanic_train.csv’ saved [57726/57726]
df = pd.read_csv("./titanic_train.csv")
query_engine = PandasQueryEngine(df=df, verbose=True)
response = query_engine.query(
    "What is the correlation between survival and age?",
)
INFO:httpx:HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
HTTP Request: POST https://api.openai.com/v1/chat/completions "HTTP/1.1 200 OK"
> Pandas Instructions:
```
df['survived'].corr(df['age'])
```
> Pandas Output: -0.07722109457217755
display(Markdown(f"<b>{response}</b>"))

-0.07722109457217755

# get pandas python instructions
print(response.metadata["pandas_instruction_str"])
df['survived'].corr(df['age'])

Additional Steps#

Analyzing / Modifying prompts#

Let’s look at the prompts!

from llama_index.prompts import PromptTemplate
query_engine = PandasQueryEngine(df=df, verbose=True)
prompts = query_engine.get_prompts()
print(prompts["pandas_prompt"].template)
You are working with a pandas dataframe in Python.
The name of the dataframe is `df`.
This is the result of `print(df.head())`:
{df_str}

Follow these instructions:
{instruction_str}
Query: {query_str}

Expression:
print(prompts["response_synthesis_prompt"].template)
Given an input question, synthesize a response from the query results.
Query: {query_str}

Pandas Instructions (optional):
{pandas_instructions}

Pandas Output: {pandas_output}

Response: 

You can update prompts as well:

new_prompt = PromptTemplate(
    """\
You are working with a pandas dataframe in Python.
The name of the dataframe is `df`.
This is the result of `print(df.head())`:
{df_str}

Follow these instructions:
{instruction_str}
Query: {query_str}

Expression: """
)

query_engine.update_prompts({"pandas_prompt": new_prompt})

This is the instruction string (that you can customize by passing in instruction_str on initialization)

instruction_str = """\
1. Convert the query to executable Python code using Pandas.
2. The final line of code should be a Python expression that can be called with the `eval()` function.
3. The code should represent a solution to the query.
4. PRINT ONLY THE EXPRESSION.
5. Do not quote the expression.
"""

Implementing Query Engine using Query Pipeline Syntax#

If you want to learn to construct your own Pandas Query Engine using our Query Pipeline syntax and the prompt components above, check out our below tutorial.

Setting up a Pandas DataFrame query engine with Query Pipelines