PieGlyph

PieGlyph is an R package aimed at replacing points in a plot with pie-chart glyphs, showing the relative proportions of different categories. The pie-chart glyphs are invariant to the axes and plot dimensions to prevent distortions when the plot dimensions are changed.

Examples

Load libraries

library(dplyr)
library(tidyr)
library(ggplot2)
library(PieGlyph)

Simulate raw data

set.seed(123)
plot_data <- data.frame(response = rnorm(30, 100, 30),
                        system = 1:30,
                        group = sample(size = 30, x = c('G1', 'G2', 'G3'), replace = T),
                        A = round(runif(30, 3, 9), 2),
                        B = round(runif(30, 1, 5), 2),
                        C = round(runif(30, 3, 7), 2),
                        D = round(runif(30, 1, 9), 2))

The data has 30 observations and seven columns. response is a continuous variable measuring system output while system describes the 30 individual systems of interest. Each system is placed in one of three groups shown in group. Columns A, B, C, and D measure system attributes.

head(plot_data)
#>    response system group    A    B    C    D
#> 1  83.18573      1    G1 5.80 1.57 4.78 8.31
#> 2  93.09468      2    G3 6.07 3.76 3.87 8.21
#> 3 146.76125      3    G1 6.60 3.48 5.01 3.19
#> 4 102.11525      4    G2 5.00 4.57 4.42 3.57
#> 5 103.87863      5    G1 5.93 3.69 5.60 8.89
#> 6 151.45195      6    G1 8.73 3.95 4.50 5.96

Create scatter plot with pie-charts

We can plot the outputs for each system as a scatterplot and replace the points with pie-chart glyphs showing the relative proportions of the four system attributes

Basic plot

ggplot(data = plot_data, aes(x = system, y = response))+
  geom_pie_glyph(slices = c('A', 'B', 'C', 'D'))+
  theme_classic()

Change pie radius and border colour

ggplot(data = plot_data, aes(x = system, y = response))+
  # Can also specify slices as column indices
  geom_pie_glyph(slices = 4:7, colour = 'black', radius = 0.5)+ 
  theme_classic()

Map radius to a variable

p <- ggplot(data = plot_data, aes(x = system, y = response))+
        geom_pie_glyph(aes(radius = group), 
                       slices = c('A', 'B', 'C', 'D'), 
                       colour = 'black')+
        theme_classic()
p

Adjust radius for groups

p <- p + scale_radius_manual(values = c(0.25, 0.5, 0.75), unit = 'cm')
p

Add custom labels

p <- p + labs(x = 'System', y = 'Response', fill = 'Attributes', radius = 'Group')
p

Change category colours

p + scale_fill_manual(values = c('#56B4E9', '#CC79A7', '#F0E442', '#D55E00'))

Alternative specification

The attributes can also be stacked into one column to generate the plot. This variant of the function is useful for situations when the data is in tidy format. See vignette('tidy-data') and vignette('pivot') for more information.

Stack the attributes in one column

plot_data_stacked <- plot_data %>%
  pivot_longer(cols = c('A','B','C','D'), 
               names_to = 'Attributes', 
               values_to = 'values')
head(plot_data_stacked, 8)
#> # A tibble: 8 × 5
#>   response system group Attributes values
#>      <dbl>  <int> <chr> <chr>       <dbl>
#> 1     83.2      1 G1    A            5.8 
#> 2     83.2      1 G1    B            1.57
#> 3     83.2      1 G1    C            4.78
#> 4     83.2      1 G1    D            8.31
#> 5     93.1      2 G3    A            6.07
#> 6     93.1      2 G3    B            3.76
#> 7     93.1      2 G3    C            3.87
#> 8     93.1      2 G3    D            8.21

Create plot

ggplot(data = plot_data_stacked, aes(x = system, y = response))+
  # Along with slices column, values column is also needed now
  geom_pie_glyph(slices = 'Attributes', values = 'values')+
  theme_classic()