ezplot provides high-level wrapper functions for common chart types with reduced typing and easy faceting. e.g.:
line_plot()
area_plot()
bar_plot()
tile_plot()
waterfall_plot()
side_plot()
secondary_plot()
You can install the released version of ezplot from CRAN with:
install.packages("ezplot")
And the development version from GitHub with:
# install.packages("devtools")
::install_github("wkostelecki/ezplot") devtools
library(ezplot)
suppressPackageStartupMessages(library(tsibble))
library(tsibbledata)
suppressPackageStartupMessages(library(dplyr))
suppressPackageStartupMessages(library(lubridate))
suppressPackageStartupMessages(library(ggplot2))
library(patchwork)
suppressPackageStartupMessages(library(ROCR, warn.conflicts = FALSE))
Weekly aggregation:
line_plot(ansett, x = "Week", y = "Passengers")
Add grouping:
line_plot(ansett, x = "Week", y = "Passengers", group = "Class")
Add faceting:
line_plot(ansett, x = "Week", y = "Passengers",
group = "Class", facet_x = "Airports",
facet_scales = "free_y") +
theme(axis.text.x = element_text(angle = 90, vjust = 0.38, hjust = 1))
Plot YOY comparisons:
line_plot(gafa_stock, "Date", c("Closing Stock Price" = "Close"),
facet_y = "Symbol",
facet_scales = "free_y",
reorder = NULL,
yoy = TRUE,
labels = function(x) ez_labels(x, prepend = "$"))
Plot multiple numeric columns:
line_plot(hh_budget,
"Year",
c("DI", "Expenditure", "Savings"),
facet_x = "Country") +
theme(panel.spacing.x = unit(1, "lines")) +
ylab(NULL)
Weekly aggregation:
area_plot(ansett, x = "as.Date(Week)", y = "Passengers")
Add grouping:
area_plot(ansett, x = "as.Date(Week)",
y = c("Weekly Passengers" = "Passengers"),
"Class")
Add faceting:
area_plot(ansett,
"year(Week) + (month(Week) - 1) / 12",
y = c("Monthly Passengers" = "Passengers"),
group = "substr(Airports, 5, 7)",
facet_x = "substr(Airports, 1, 3)", facet_y = "Class",
facet_scales = "free_y") +
theme(axis.text.x = element_text(angle = 90, vjust = 0.38, hjust = 1))
Yearly aggregation:
bar_plot(subset(aus_retail, year(Month) >= 2010),
x = "year(Month)",
y = "Turnover")
With grouping:
bar_plot(subset(aus_retail, year(Month) >= 2010),
x = "year(Month)",
y = "Turnover",
group = "State")
Share of turnover:
bar_plot(subset(aus_retail, year(Month) >= 2010),
x = "year(Month)",
y = "Turnover",
group = "State",
position = "fill")
%>%
nyc_bikes mutate(duration = as.numeric(stop_time - start_time)) %>%
filter(between(duration, 0, 16)) %>%
tile_plot(c("Trip Start (Hour of Day)" = "lubridate::hour(start_time) + 0.5"),
c("Ride Duration (min)" = "duration - duration %% 2 + 1"))
tile_plot(vic_elec,
c("Temperature (C)" = "round(Temperature)"),
c("Half-Hourly Demand (MW)" = "round(Demand, -2)"),
labels_y = ez_labels, facet_x = "year(Time)")
waterfall_plot(aus_retail,
"lubridate::year(Month)",
"Turnover",
"sub(' Territory', '\nTerritory', State)",
rotate_xlabel = TRUE)
side_plot(PBS,
"paste(Concession, Type, sep = ' - ')",
c("Scripts", "Cost", "Average Cost" = "~ Cost / Scripts"))
Plot with secondary y-axis.
secondary_plot(pelt, "Year",
c("Hare Population" = "Hare"), c("Lynx Population" = "Lynx"),
ylim1 = c(0, 160e3),
ylim2 = c(0, 80e3))
%>%
nyc_bikes mutate(duration = as.numeric(stop_time - start_time)) %>%
density_plot(c("time of day" = "as.numeric(start_time) %% 86400 / 60 / 60"),
group = "ifelse(wday(start_time) %in% c(1, 7), 'week end', 'week day')")
%>%
nyc_bikes mutate(duration = as.numeric(stop_time - start_time)) %>%
histogram_plot(c("time of day" = "as.numeric(start_time) %% 86400 / 60 / 60"),
"..density..",
group = "ifelse(wday(start_time) %in% c(1, 7), 'week end', 'week day')",
position = "identity",
bins = 48)
data(ROCR.simple)
= data.frame(pred = ROCR.simple$predictions,
df lab = ROCR.simple$labels)
set.seed(4)
set.seed(4)
roc_plot(df, "pred", "lab") +
roc_plot(df, "pred", "lab", group = "sample(c(0, 1), n(), replace = TRUE)")
Precision-Recall plot
set.seed(4)
pr_plot(df, "pred", "lab") +
pr_plot(df, "pred", "lab", group = "sample(c(0, 1), n(), replace = TRUE)")
set.seed(4)
performance_plot(df, "pred", "lab", x = "rpp", y = "lift") +
performance_plot(df, "pred", "lab", group = "sample(c(0, 1), n(), replace = TRUE)", x = "rpp", y = "lift")