Histograms

The following imports have been used to produce the plots below:


#![allow(unused_variables)]
fn main() {
use itertools_num::linspace;
use plotly::box_plot::{BoxMean, BoxPoints};
use plotly::common::{ErrorData, ErrorType, Line, Marker, Mode, Orientation, Title};
use plotly::histogram::{Bins, Cumulative, HistFunc, HistNorm};
use plotly::layout::{Axis, BarMode, BoxMode, Layout, Margin};
use plotly::{Bar, BoxPlot, Histogram, NamedColor, Plot, Rgb, Rgba, Scatter};
use rand_distr::{Distribution, Normal, Uniform};

}

The to_inline_html method is used to produce the html plot displayed in this page.

Basic Histogram


#![allow(unused_variables)]
fn main() {
fn basic_histogram(show: bool) {
    let samples = sample_normal_distribution(10_000, 0.0, 1.0);
    let trace = Histogram::new(samples).name("h");
    let mut plot = Plot::new();
    plot.add_trace(trace);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("basic_histogram"))
    );
}
}

Horizontal Histogram


#![allow(unused_variables)]
fn main() {
fn horizontal_histogram(show: bool) {
    let samples = sample_normal_distribution(10_000, 0.0, 1.0);
    let trace = Histogram::new_horizontal(samples)
        .name("h")
        .marker(Marker::new().color(NamedColor::Pink));
    let mut plot = Plot::new();

    plot.add_trace(trace);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("horizontal_histogram"))
    );
}
}

Overlaid Histogram


#![allow(unused_variables)]
fn main() {
fn overlaid_histogram(show: bool) {
    let samples1 = sample_normal_distribution(500, 0.0, 1.0);
    let trace1 = Histogram::new(samples1)
        .name("trace 1")
        .opacity(0.5)
        .marker(Marker::new().color(NamedColor::Green));

    let samples2 = sample_normal_distribution(500, 0.0, 1.0);
    let trace2 = Histogram::new(samples2)
        .name("trace 2")
        .opacity(0.6)
        .marker(Marker::new().color(NamedColor::Red));

    let mut plot = Plot::new();
    plot.add_trace(trace1);
    plot.add_trace(trace2);

    let layout = Layout::new().bar_mode(BarMode::Overlay);
    plot.set_layout(layout);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("overlaid_histogram"))
    );
}
}

Stacked Histograms


#![allow(unused_variables)]
fn main() {
fn stacked_histograms(show: bool) {
    let samples1 = sample_normal_distribution(500, 0.0, 1.0);
    let trace1 = Histogram::new(samples1)
        .name("trace 1")
        .opacity(0.5)
        .marker(Marker::new().color(NamedColor::Green));

    let samples2 = sample_normal_distribution(500, 0.0, 1.0);
    let trace2 = Histogram::new(samples2)
        .name("trace 2")
        .opacity(0.6)
        .marker(Marker::new().color(NamedColor::Red));

    let mut plot = Plot::new();
    plot.add_trace(trace1);
    plot.add_trace(trace2);

    let layout = Layout::new().bar_mode(BarMode::Stack);
    plot.set_layout(layout);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("stacked_histograms"))
    );
}
}

Colored and Styled Histograms


#![allow(unused_variables)]
fn main() {
fn colored_and_styled_histograms(show: bool) {
    let n = 500;
    let x1 = sample_uniform_distribution(n, 0.0, 5.0);
    let x2 = sample_uniform_distribution(n, 0.0, 10.0);
    let y1 = sample_uniform_distribution(n, 0.0, 1.0);
    let y2 = sample_uniform_distribution(n, 0.0, 2.0);

    let trace1 = Histogram::new_xy(x1, y1)
        .name("control")
        .hist_func(HistFunc::Count)
        .marker(
            Marker::new()
                .color(Rgba::new(255, 100, 102, 0.7))
                .line(Line::new().color(Rgba::new(255, 100, 102, 1.0)).width(1.0)),
        )
        .opacity(0.5)
        .auto_bin_x(false)
        .x_bins(Bins::new(0.5, 2.8, 0.06));
    let trace2 = Histogram::new_xy(x2, y2)
        .name("experimental")
        .hist_func(HistFunc::Count)
        .marker(
            Marker::new()
                .color(Rgba::new(100, 200, 102, 0.7))
                .line(Line::new().color(Rgba::new(100, 200, 102, 1.0)).width(1.0)),
        )
        .opacity(0.75)
        .auto_bin_x(false)
        .x_bins(Bins::new(-3.2, 4.0, 0.06));
    let layout = Layout::new()
        .title(Title::new("Sampled Results"))
        .x_axis(Axis::new().title(Title::new("Value")))
        .y_axis(Axis::new().title(Title::new("Count")))
        .bar_mode(BarMode::Overlay)
        .bar_gap(0.05)
        .bar_group_gap(0.2);

    let mut plot = Plot::new();
    plot.set_layout(layout);
    plot.add_trace(trace1);
    plot.add_trace(trace2);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("colored_and_styled_histograms"))
    );
}
}

Cumulative Histogram


#![allow(unused_variables)]
fn main() {
fn cumulative_histogram(show: bool) {
    let n = 500;
    let x = sample_uniform_distribution(n, 0.0, 1.0);
    let trace = Histogram::new(x)
        .cumulative(Cumulative::new().enabled(true))
        .marker(Marker::new().color(NamedColor::BurlyWood));
    let mut plot = Plot::new();
    plot.add_trace(trace);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("cumulative_histogram"))
    );
}
}

Normalized Histogram


#![allow(unused_variables)]
fn main() {
fn normalized_histogram(show: bool) {
    let n = 500;
    let x = sample_uniform_distribution(n, 0.0, 1.0);
    let trace = Histogram::new(x)
        .hist_norm(HistNorm::Probability)
        .marker(Marker::new().color(NamedColor::SeaGreen));
    let mut plot = Plot::new();
    plot.add_trace(trace);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("normalized_histogram"))
    );
}
}

Specify Binning Function


#![allow(unused_variables)]
fn main() {
fn specify_binning_function(show: bool) {
    let x = vec!["Apples", "Apples", "Apples", "Organges", "Bananas"];
    let y = vec!["5", "10", "3", "10", "5"];

    let trace1 = Histogram::new_xy(x.clone(), y.clone())
        .name("count")
        .hist_func(HistFunc::Count);
    let trace2 = Histogram::new_xy(x.clone(), y.clone())
        .name("sum")
        .hist_func(HistFunc::Sum);

    let mut plot = Plot::new();
    plot.add_trace(trace1);
    plot.add_trace(trace2);
    if show {
        plot.show();
    }
    println!(
        "{}",
        plot.to_inline_html(Some("specify_binning_function"))
    );
}

}