In-Class Exercise 6

Author

Zachary Wong

Published

Invalid Date

Modified

March 6, 2024

Time On the Horizon: ggHoriPlot Methods

Overview

A horizon graph is an analytical graphical method specially designed for visualising large numbers of time-series. It aims to overcome the issue of visualising highly overlapping time-series as shown in the figure below.

A horizon graph essentially an area chart that has been split into slices and the slices then layered on top of one another with the areas representing the highest (absolute) values on top. Each slice has a greater intensity of colour based on the absolute value it represents.

In this section, you will learn how to plot a horizon graph by using ggHoriPlot package.

Note

Before getting started, please visit Getting Started to learn more about the functions of ggHoriPlot package. Next, read geom_horizon() to learn more about the usage of its arguments.

Getting Started

Before getting started, please visit Getting Started to learn more about the functions of ggHoriPlot package. Next, read geom_horizon() to learn more about the usage of its arguments.

Code 
pacman::p_load(tidyverse, ggHoriPlot, ggthemes)

Step 1: Importing the Data

For the purpose of this hands-on exercise, Average Retail Prices Of Selected Consumer Items will be used.

Use the code chunk below to import the AVERP.csv file into R environment.

Code 
averp <- read_csv("data/AVERP.csv") %>%
  mutate(`Date` = dmy(`Date`))
Note
  • By default, read_csv will import data in Date field as Character data type. dmy() of lubridate package to palse the Date field into appropriate Date data type in R.

Step 2: Plotting the Horizon Graph

Next, the code chunk below will be used to plot the horizon graph.

averp %>% 
  filter(Date >= "2018-01-01") %>%
  ggplot() +
  geom_horizon(aes(x = Date, y=Values), 
               origin = "midpoint", 
               horizonscale = 6)+
  facet_grid(`Consumer Items`~.) +
    theme_few() +
  scale_fill_hcl(palette = 'RdBu') +
  theme(panel.spacing.y=unit(0, "lines"), strip.text.y = element_text(
    size = 5, angle = 0, hjust = 0),
    legend.position = 'none',
    axis.text.y = element_blank(),
    axis.text.x = element_text(size=7),
    axis.title.y = element_blank(),
    axis.title.x = element_blank(),
    axis.ticks.y = element_blank(),
    panel.border = element_blank()
    ) +
    scale_x_date(expand=c(0,0), date_breaks = "3 month", date_labels = "%b%y") +
  ggtitle('Average Retail Prices of Selected Consumer Items (Jan 2018 to Dec 2022)')