Creating a Custom Model: "Add N" Model
Download this notebook Our first example is simple yet illustrative. We'll create a model that adds a specified numeric value, n, to all columns of a Pandas DataFrame input. This will demonstrate the process of defining a custom model, saving it, loading it back, and performing predictions.
Step 1: Define the Model Class​
We begin by defining a Python class for our model. This class should inherit from mlflow.pyfunc.PythonModel and implement the necessary methods.
import mlflow.pyfunc
class AddN(mlflow.pyfunc.PythonModel):
"""
A custom model that adds a specified value `n` to all columns of the input DataFrame.
Attributes:
-----------
n : int
The value to add to input columns.
"""
def __init__(self, n):
"""
Constructor method. Initializes the model with the specified value `n`.
Parameters:
-----------
n : int
The value to add to input columns.
"""
self.n = n
def predict(self, context, model_input, params=None):
"""
Prediction method for the custom model.
Parameters:
-----------
context : Any
Ignored in this example. It's a placeholder for additional data or utility methods.
model_input : pd.DataFrame
The input DataFrame to which `n` should be added.
params : dict, optional
Additional prediction parameters. Ignored in this example.
Returns:
--------
pd.DataFrame
The input DataFrame with `n` added to all columns.
"""
return model_input.apply(lambda column: column + self.n)
Step 2: Save the Model​
Now that our model class is defined, we can instantiate it and save it using MLflow.
# Define the path to save the model
model_path = "/tmp/add_n_model"
# Create an instance of the model with `n=5`
add5_model = AddN(n=5)
# Save the model using MLflow
mlflow.pyfunc.save_model(path=model_path, python_model=add5_model)
/Users/benjamin.wilson/miniconda3/envs/mlflow-dev-env/lib/python3.8/site-packages/_distutils_hack/__init__.py:30: UserWarning: Setuptools is replacing distutils.
warnings.warn("Setuptools is replacing distutils.")
Step 3: Load the Model​
With our model saved, we can load it back using MLflow and then use it for predictions.
# Load the saved model
loaded_model = mlflow.pyfunc.load_model(model_path)
Step 4: Evaluate the Model​
Let's now use our loaded model to perform predictions on a sample input and verify its correctness.
import pandas as pd
# Define a sample input DataFrame
model_input = pd.DataFrame([range(10)])
# Use the loaded model to make predictions
model_output = loaded_model.predict(model_input)
model_output
| 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | |
|---|---|---|---|---|---|---|---|---|---|---|
| 0 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 |
Conclusion​
This simple example demonstrates the power and flexibility of MLflow's custom pyfunc. By encapsulating arbitrary Python code and its dependencies, custom pyfunc models ensure a consistent and unified interface for a wide range of use cases. Whether you're working with a niche machine learning framework, need custom preprocessing steps, or want to integrate unique prediction logic, pyfunc is the tool for the job.