plotlars

Crates.ioplotlars
lib.rsplotlars
version0.7.2
sourcesrc
created_at2024-07-27 10:10:26.328433
updated_at2024-11-09 03:53:24.163528
descriptionPlotlars is a Rust library designed to facilitate the integration between the Polars data analysis library and visualization libraries.
homepagehttps://github.com/alceal/plotlars
repositoryhttps://github.com/alceal/plotlars
max_upload_size
id1317159
size175,672
Alberto Cebada Aleu (alceal)

documentation

https://docs.rs/plotlars/latest/plotlars/

README

Plotlars

Crates.io docs.rs License

Plotlars is a versatile Rust library that acts as a wrapper around the Plotly crate, bridging the gap between the powerful Polars data analysis library and Plotly. It simplifies the process of creating visualizations from data frames, allowing developers to focus on data insights rather than the intricacies of plot creation.

Motivation

The creation of Plotlars was driven by the need to simplify the process of creating complex plots in Rust, particularly when working with the powerful Polars data manipulation library. Generating visualizations often requires extensive boilerplate code and deep knowledge of both the plotting library (Plotly) and the data structure. This complexity can be a significant hurdle, especially for users who need to focus on analyzing and interpreting data rather than wrestling with intricate plotting logic.

To illustrate this, consider the following example where a scatter plot is created without Plotlars:

use plotly::{
    common::*,
    layout::*,
    Plot,
    Scatter,
};

use polars::prelude::*;

fn main() {
    let dataset = LazyCsvReader::new("data/penguins.csv")
        .finish().unwrap()
        .select([
            col("species").cast(
                DataType::Categorical(
                    None,
                    CategoricalOrdering::default()
                )
            ),
            col("flipper_length_mm").cast(DataType::Int16),
            col("body_mass_g").cast(DataType::Int16),
        ])
        .collect().unwrap();

    let group_column = "species";
    let x = "body_mass_g";
    let y = "flipper_length_mm";

    let groups = dataset
        .column(group_column).unwrap()
        .unique().unwrap();

    let layout = Layout::new()
        .title(Title::with_text("Penguin Flipper Length vs Body Mass"))
        .x_axis(Axis::new().title(Title::with_text("Body Mass (g)")))
        .y_axis(Axis::new().title(Title::with_text("Flipper Length (mm)")))
        .legend(Legend::new().title(Title::with_text("Species")));

    let mut plot = Plot::new();
    plot.set_layout(layout);

    for group in groups.iter() {
        let group = group.get_str().unwrap();

        let data = dataset
            .clone()
            .lazy()
            .filter(col(group_column).eq(lit(group)))
            .collect().unwrap();

        let x = data
            .column(x).unwrap()
            .i16().unwrap()
            .to_vec();

        let y = data
            .column(y).unwrap()
            .i16().unwrap()
            .to_vec();

        let trace = Scatter::default()
            .x(x)
            .y(y)
            .name(group)
            .mode(Mode::Markers)
            .marker(Marker::new().size(10).opacity(0.5));

        plot.add_trace(trace);
    }

    plot.show();
}

In this example, creating a scatter plot involves writing substantial code to manually handle the data and configure the plot, including grouping the data by category and setting up the plot layout.

Now, compare that to the same plot created using Plotlars:

use plotlars::{
    ScatterPlot,
    Plot,
    Text,
};

use polars::prelude::*;

fn main() {
    let dataset = LazyCsvReader::new("data/penguins.csv")
        .finish().unwrap()
        .select([
            col("species").cast(
                DataType::Categorical(
                    None,
                    CategoricalOrdering::default()
                )
            ),
            col("flipper_length_mm").cast(DataType::Int16),
            col("body_mass_g").cast(DataType::Int16),
        ])
        .collect().unwrap();

    ScatterPlot::builder()
        .data(&dataset)
        .x("body_mass_g")
        .y("flipper_length_mm")
        .group("species")
        .opacity(0.5)
        .size(12)
        .colors(vec![
            Rgb(178, 34, 34),
            Rgb(65, 105, 225),
            Rgb(255, 140, 0),
        ])
        .plot_title("Penguin Flipper Length vs Body Mass")
        .x_title("Body Mass (g)")
        .y_title("Flipper Length (mm)")
        .legend_title("Species")
        .build()
        .plot();
}

This is the output:

Plot example

With Plotlars, the same scatter plot is created with significantly less code. The library abstracts away the complexities of dealing with individual plot components and allows the user to specify high-level plot characteristics. This streamlined approach not only saves time but also reduces the potential for errors and makes the code more readable and maintainable.

Installation

cargo add plotlars

Features

  • Seamless Integration with Polars: Leverage the power of Polars for efficient data manipulation and analysis.
  • Support for Multiple Plot Types: Easily create bar, line, scatter, and other plot types.
  • Customization: Modify plot appearance with an intuitive API.

Plotlars in Jupyter Notebooks

Plotlars seamlessly integrates with Jupyter Notebooks, allowing you to leverage the power of interactive data visualization directly within your notebook environment. This integration is made possible through the use of the evcxr project, which provides a Jupyter kernel for the Rust programming language.

Jupyter notebook

With Polars, evcxr, and Plotlars, data science in Rust leaps to the next level , making powerful data analysis and visualization more accessible and efficient than ever before.

License

This project is licensed under the MIT License. See the LICENSE.txt file for details.

Acknowledgements

  • Polars: For providing a fast and efficient data manipulation library.
  • Plotly: For the inspiration and ideas behind visualization libraries.
  • Evcxr: For enabling the use of Rust in Jupyter Notebooks.
  • Rust Community: For the support and development of an amazing programming language.
Commit count: 124

cargo fmt