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Repository Details

create alluvial plots with a single line of code

easyalluvial

AppVeyor Build Status R build status Coverage Status CRAN last release CRAN total downloads CRAN monthly downloads

Alluvial plots are similar to sankey diagrams and visualise categorical data over multiple dimensions as flows. Rosval et. al. 2010 Their graphical grammar however is a bit more complex then that of a regular x/y plots. The ggalluvial package made a great job of translating that grammar into ggplot2 syntax and gives you many option to tweak the appearance of an alluvial plot, however there still remains a multi-layered complexity that makes it difficult to use ‘ggalluvial’ for explorative data analysis. ‘easyalluvial’ provides a simple interface to this package that allows you to produce a decent alluvial plot from any dataframe in either long or wide format from a single line of code while also handling continuous data. It is meant to allow a quick visualisation of entire dataframes with a focus on different colouring options that can make alluvial plots a great tool for data exploration.

Features

  • plot alluvial graph with a single line of code of a given dataframe
  • support for wide and long data format (wiki, wide vs. long/narrow data)
  • automatically transforms numerical to categorical data
  • helper functions for variable selection
  • convenient parameters for coloring and ordering
  • marginal histograms
  • model agnostic partial dependence and model response alluvial plots with 4 dimensions
  • interactive plots with easyalluvial and parcats

Installation

CRAN

install.packages('easyalluvial')

Development Version

# install.packages("devtools")
devtools::install_github("erblast/easyalluvial")

Documentation

Examples

suppressPackageStartupMessages( require(tidyverse) )
suppressPackageStartupMessages( require(easyalluvial) )

Alluvial from data in wide format

Sample Data

knitr::kable( head(mtcars2) )
mpg cyl disp hp drat wt qsec vs am gear carb ids
21.0 6 160 110 3.90 2.620 16.46 V manual 4 4 Mazda RX4
21.0 6 160 110 3.90 2.875 17.02 V manual 4 4 Mazda RX4 Wag
22.8 4 108 93 3.85 2.320 18.61 S manual 4 1 Datsun 710
21.4 6 258 110 3.08 3.215 19.44 S automatic 3 1 Hornet 4 Drive
18.7 8 360 175 3.15 3.440 17.02 V automatic 3 2 Hornet Sportabout
18.1 6 225 105 2.76 3.460 20.22 S automatic 3 1 Valiant

Plot

Continuous Variables will be automatically binned as follows.

  • High, High (HH)
  • Medium, High (MH)
  • Medium (M)
  • Medium, Low (ML)
  • Low, Low (LL)
alluvial_wide( data = mtcars2
                , max_variables = 5
                , fill_by = 'first_variable' )

Alluvial from data in long format

Sample Data

knitr::kable( head(quarterly_flights) )
tailnum carrier origin dest qu mean_arr_delay
N0EGMQ LGA BNA MQ MQ LGA BNA Q1 on_time
N0EGMQ LGA BNA MQ MQ LGA BNA Q2 on_time
N0EGMQ LGA BNA MQ MQ LGA BNA Q3 on_time
N0EGMQ LGA BNA MQ MQ LGA BNA Q4 on_time
N11150 EWR MCI EV EV EWR MCI Q1 late
N11150 EWR MCI EV EV EWR MCI Q2 late

Plot

alluvial_long( quarterly_flights
               , key = qu
               , value = mean_arr_delay
               , id = tailnum
               , fill = carrier )

Marginal Histograms

alluvial_wide( data = mtcars2
                , max_variables = 5
                , fill_by = 'first_variable' ) %>%
  add_marginal_histograms(mtcars2)

Interactive Graphs

suppressPackageStartupMessages( require(parcats) )

p = alluvial_wide(mtcars2, max_variables = 5)

parcats(p, marginal_histograms = TRUE, data_input = mtcars2)

demo

Partial Dependence Alluvial Plots

Alluvial plots are capable of displaying higher dimensional data on a plane, thus lend themselves to plot the response of a statistical model to changes in the input data across multiple dimensions. The practical limit here is 4 dimensions while conventional partial dependence plots are limited to 2 dimensions.

Briefly the 4 variables with the highest feature importance for a given model are selected and 5 values spread over the variable range are selected for each. Then a grid of all possible combinations is created. All none-plotted variables are set to the values found in the first row of the training data set. Using this artificial data space model predictions are being generated. This process is then repeated for each row in the training data set and the overall model response is averaged in the end. Each of the possible combinations is plotted as a flow which is coloured by the bin corresponding to the average model response generated by that particular combination.

easyalluvial contains wrappers for parsnip and caret models. Custom Wrappers for other models can easily be created.

df = select(mtcars2, -ids)

m = parsnip::rand_forest(mode = "regression") %>%
  parsnip::set_engine("randomForest") %>%
  parsnip::fit(disp ~ ., df)

p = alluvial_model_response_parsnip(m, df, degree = 4, method = "pdp")
#> Getting partial dependence plot preditions. This can take a while. See easyalluvial::get_pdp_predictions() `Details` on how to use multiprocessing

p_grid = add_marginal_histograms(p, df, plot = F) %>%
  add_imp_plot(p, df)

Interactive Partial Dependence Plot

parcats(p, marginal_histograms = TRUE, imp = TRUE, data_input = df)

demo

ClinicoPath {jamovi} Module

ClinicoPath jamovi Module (thanks to Serdar Balci) adds easyalluvial plots to jamovia spreadsheet interface for doing statistics with R.

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