Extremely lightweight compatibility layer between Polars, pandas, modin, and cuDF (and possibly more?).
Seamlessly support all, without depending on any!
- ✅ Just use a subset of the Polars API, no need to learn anything new
- ✅ No dependencies (not even Polars), keep your library lightweight
- ✅ Separate lazy and eager APIs
- ✅ Use Polars Expressions
Note: this is work-in-progress, and a bit of an experiment, don't take it too seriously.
pip install narwhals
Or just vendor it, it's only a bunch of pure-Python files.
There are three steps to writing dataframe-agnostic code using Narwhals:
-
use
narwhals.DataFrameornarwhals.LazyFrameto wrap a pandas/Polars/Modin/cuDF DataFrame/LazyFrame in a Narwhals class -
use
narwhals.to_nativeto return an object to the user in its original dataframe flavour. For example:- if you started with pandas, you'll get pandas back
- if you started with Polars, you'll get Polars back
- if you started with Modin, you'll get Modin back (and compute will be distributed)
- if you started with cuDF, you'll get cuDF back (and compute will happen on GPU)
Here's an example of a dataframe agnostic function:
from typing import Any
import pandas as pd
import polars as pl
import narwhals as nw
def my_agnostic_function(
suppliers_native,
parts_native,
):
suppliers = nw.LazyFrame(suppliers_native)
parts = nw.LazyFrame(parts_native)
result = (
suppliers.join(parts, left_on="city", right_on="city")
.filter(nw.col("weight") > 10)
.group_by("s")
.agg(
weight_mean=nw.col("weight").mean(),
weight_max=nw.col("weight").max(),
)
)
return nw.to_native(result)You can pass in a pandas or Polars dataframe, the output will be the same! Let's try it out:
suppliers = {
"s": ["S1", "S2", "S3", "S4", "S5"],
"sname": ["Smith", "Jones", "Blake", "Clark", "Adams"],
"status": [20, 10, 30, 20, 30],
"city": ["London", "Paris", "Paris", "London", "Athens"],
}
parts = {
"p": ["P1", "P2", "P3", "P4", "P5", "P6"],
"pname": ["Nut", "Bolt", "Screw", "Screw", "Cam", "Cog"],
"color": ["Red", "Green", "Blue", "Red", "Blue", "Red"],
"weight": [12.0, 17.0, 17.0, 14.0, 12.0, 19.0],
"city": ["London", "Paris", "Oslo", "London", "Paris", "London"],
}
print("pandas output:")
print(
my_agnostic_function(
pd.DataFrame(suppliers),
pd.DataFrame(parts),
)
)
print("\nPolars output:")
print(
my_agnostic_function(
pl.LazyFrame(suppliers),
pl.LazyFrame(parts),
).collect()
)pandas output:
s weight_mean weight_max
0 S1 15.0 19.0
1 S2 14.5 17.0
2 S3 14.5 17.0
3 S4 15.0 19.0
Polars output:
shape: (4, 3)
┌─────┬─────────────┬────────────┐
│ s ┆ weight_mean ┆ weight_max │
│ --- ┆ --- ┆ --- │
│ str ┆ f64 ┆ f64 │
╞═════╪═════════════╪════════════╡
│ S2 ┆ 14.5 ┆ 17.0 │
│ S3 ┆ 14.5 ┆ 17.0 │
│ S4 ┆ 15.0 ┆ 19.0 │
│ S1 ┆ 15.0 ┆ 19.0 │
└─────┴─────────────┴────────────┘
Magic! 🪄
- Do you maintain a dataframe-consuming library?
- Is there a Polars function which you'd like Narwhals to have, which would make your job easier?
If, I'd love to hear from you!
Note: You might suspect that this is a secret ploy to infiltrate the Polars API everywhere. Indeed, you may suspect that.
Because they are so awesome.
Thanks to Olha Urdeichuk for the illustration!