library(knitr) knitr::opts_chunk$set( collapse = TRUE, comment = "#>", fig.path = "VIGNETTE-" ) set.seed(42)
The {readabs}
package helps you work with two types of data released by the Australian Bureau of Statistics: time series spreadsheets and data cubes.
All ABS time series spreadsheets look like this -- with the series in the first row, then 9 further rows of metadata, then the data.
include_graphics("VIGNETTE-ts-example.png")
Data cubes can look like anything -- if it's not formatted like the screenshot above, it's a data cube.
This vignette provides information about how to use {readabs}
to work with each of these data types.
One key function -- read_abs()
-- downloads, imports, and tidies ABS time series data.
If you want to visualise or analyse data in R, you will often need to tidy it first. In tidy data:
ABS time series data is not tidy. Tidying it requires a bit of work. This screenshot of an ABS time series spreadsheet shows some of the problems, namely:
Feb-1978
is stored as 28522
), which is a pain to convert to an actual date.include_graphics("VIGNETTE-spreadsheet-screenshot.png")
read_abs()
is the main function of the {readabs}
package. First, let's load {readabs}
and a couple of other packages we'll use for demonstration purposes:
library(readabs) library(dplyr) library(ggplot2)
If you give read_abs()
an ABS catalogue number, it will download, import and tidy all the time series spreadsheets from that catalogue number. Easy!
For example, to get all the spreadsheets from the Wage Price Index, catalogue number 6345.0, we'd do:
wpi <- read_abs("6345.0")
wpi <- read_abs("6345.0") wpi <- head(wpi) saveRDS(wpi, "wpi.rds")
wpi <- readRDS("wpi.rds")
Cool! Now we've got a data frame (a tibble, to be precise) that contains all the time series from the Wage Price Index, converted to long and stacked on top of each other. Here's what it looks like:
head(wpi)
It's over 54 000 rows long, and 12 variables wide. Some catalogue numbers are much bigger - for example, if you get the entire monthly Labour Force release (catalogue number 6202.0), you'll have a data frame with well over 2 million rows.
All the metadata from the time series spreadsheets is included in the data frame:
table_title
is the title of the table;date
is the date of the observation in that row;series
is the name of the individual time series - in the ABS spreadsheet this is in the first row;value
is the observation, the actual data;series_type
can be 'Original', 'Seasonally Adjusted', or 'Trend';data_type
tells us whether this is an index number, a 'stock', a 'flow', expressed as a 'percent', etc.;collection_month
tells us (for quarterly or annual data) which month the data was collected;frequency
tells us the frequency of the time series;series_id
is a unique identifier given by the ABS to each time series; andunit
tells us the unit of measurement, such as '000s', 'Index Numbers', 'Percent' or '000 hours'.The table_no
and sheet_no
columns will help you if you need to cross-check information on the ABS spreadsheet - table_no
matches the filename of the spreadsheet (eg. '634501.xls') and sheet_no
is the name of the Excel worksheet within the file that contains the time series.
Unless you tell it otherwise, read_abs()
will get all the time series spreadsheets from a given catalogue number.
Generally this will be overkill. Maybe you don't want all ~2.1 million rows of Labour Force data; perhaps you know that the time series you need is in table 1. In that case you can use the tables
argument to read_abs()
to specify the table(s) you want:
lfs_1 <- read_abs("6202.0", tables = 1) lfs_1 <- head(lfs_1) saveRDS(lfs_1, "lfs_1.rds") lfs_5 <- read_abs("6202.0", tables = 5) # lfs_5 <- head(lfs_5) saveRDS(lfs_5, "lfs_5.rds")
lfs_1 <- readRDS("lfs_1.rds")
lfs_1 <- read_abs("6202.0", tables = 1)
head(lfs_1)
If you want more than one table, but not the whole catalogue number, you can specify multiple tables:
lfs_5 <- readRDS("lfs_5.rds") lfs_1_5 <- bind_rows(lfs_1, lfs_5)
lfs_1_5 <- read_abs("6202.0", tables = c(1, 5))
head(lfs_1_5)
Every ABS time series has a unique identifier. If you know the ID for the time series you need, you can supply it to the series_id
argument to read_abs()
. You can give it a single ID, or multiple IDs.
For example, the time series ID for the number of employed people in Australia (trend) is "A84423127L"
. We can get a data frame that only contains that series as follows:
employed <- read_abs(series_id = "A84423127L") employed <- head(employed) saveRDS(employed, "employed.rds")
employed <- readRDS("employed.rds")
employed <- read_abs(series_id = "A84423127L")
head(employed) unique(employed$series)
A benefit of this approach is that the filtering is done for you - the data frame only contains the series you're interested in.
separate_series()
to work with your time series dataThe series
column of a table imported using read_abs()
often contains a long, multi-part string, as this is how the ABS labels its series. This is where the separate_series()
function comes in handy.
In this example, we'll work with data from the Labour Force survey that we downloaded and tidied earlier using read_abs()
.
Now let's have a look at the time series from table 1 of the Labour Force survey:
unique(lfs_1$series)
There's a bunch of data in here. We can see that the series
column contains a first part, like "Participation rate" or "Unemployment rate", and a second part, which is "Persons", "Males", or "Females". You will often want to filter using one or both of these components separately - and sometimes there will be more than two components.
The separate_series
function helps you by separating the series
column into multiple components and removing extraneous symbols.
lfs_1_sep <- lfs_1 %>% separate_series() lfs_1_sep %>% group_by(series_1, series_2) %>% summarise()
The remove_totals
and remove_nas
arguments to separate_series()
can be very useful when you are tidying data. They're both set to FALSE
by default.
We've now got a new tibble that still contains the original series
column, but also contains new columns series_1
and series_2
, with the two parts of series
split into these new columns.
Let's make a data frame that just contains the male and female unemployment rates over time.
unemp <- lfs_1_sep %>% filter(series_1 == "Unemployment rate") unique(unemp$series_1) unique(unemp$series_2)
Now we have a data frame, unemp
, that contains various unemployment rate series. Let's filter to only Males or Females.
unemp <- unemp %>% filter(series_2 %in% c("Males", "Females")) unique(unemp$series_2)
Now our data frame only contains the male and female unemployment rates, which is what we want. Let's graph it, filtering once more to show only the seasonally adjusted series and adding a 'sex' column:
unemp %>% filter(series_type == "Seasonally Adjusted") %>% mutate(sex = series_2) %>% ggplot(aes(x = date, y = value, col = sex)) + geom_line() + theme_minimal() + theme( legend.position = "bottom", axis.title = element_blank(), legend.title = element_blank(), text = element_text(size = 5) ) + labs( title = "The male and female unemployment rates have converged", subtitle = "Unemployment rates for Australian men and women (aged 15+), 1978-2018 (per cent)", caption = "Source: ABS 6202.0" )
Ta-da! Now we've got a nice little graph - and you didn't need to go to the ABS website or click around in Excel.
If you already have ABS time series spreadsheets saved locally that you want to read, the read_abs_local()
function is what you want.
If you've downloaded files using read_abs()
, you can import them using read_abs_local()
by specifying the catalogue number. This will look in the subdirectory of path
that corresponds to cat_no
:
lfs_local_1 <- read_abs_local("6202.0")
The data frame you'll get will look the same as if you'd used read_abs()
to get the spreadsheet(s) from the ABS website.
All ABS time series spreadsheets are alike. Each ABS data cube is formatted in its own unique way.
There is no data cube equivalent of the read_abs()
function that will download, import, and tidy any data cube for you. But download_abs_data_cube()
can download any data cube, for you to then manually import and tidy. Use show_available_catalogues()
to see all the
possible catalogues, search_catalogues()
to find catalogues that contain a given string (in the catalogue name itself, or the topic). Similarly, use show_available_files()
to find all the filenames in a given catalogue, or search_files()
to look for filenames within a catalogue that contain a particular string.
Convenience functions - read_payrolls()
and read_lfs_grossflows()
are included to download, import, and tidy particular commonly-used data cubes.
Any ABS data cube can be downloaded using the download_abs_data_cube()
function. You need to specify the name of the catalogue (catalogue_string
), and the filename (in whole or unique part) of the file you want to download (cube
).
Let's say I want to download cube GM1, the gross flows spreadsheet from the monthly Labour Force release.
Let's look for the name of the catalogue:
search_catalogues("labour force")
cats <- search_catalogues("labour force") saveRDS(cats, "cats.rds")
readRDS("cats.rds")
It looks like labour-force-australia
is the catalogue name for the monthly Labour Force survey.
Now I need to find the filename for the gross flows spreadsheet, GM1.
search_files("GM1", "labour-force-australia")
x <- "GM1.xlsx" x
The GM1 table is, conveniently enough, called GM1.xlsx
.
So we can download it like this:
gm1_path <- download_abs_data_cube("labour-force-australia", "GM1") print(gm1_path)
print("/var/folders/_4/ngvkm2811nbd8b_v66wytw1r0000gn/T//RtmpZT2ffU/GM1.xlsx")
Now we have an Excel sheet saved at that path, which you can import using readxl::read_excel()
or the Excel-reading function of your choice.
For most data cubes, you'll need to write your own code to import and tidy the data. But for some key cubes, convenience functions are provided.
The labour force gross flows cube is one of the cubes for which readabs
includes a convenience function, read_lfs_grossflows()
.
gf <- read_lfs_grossflows() gf <- head(gf) saveRDS(gf, "gf.rds")
gf <- readRDS("gf.rds")
gf <- read_lfs_grossflows()
Now we have a tidy tibble of the Labour Force gross flows data:
head(gf)
The ABS Weekly Payroll Jobs and Wages release contains a range of useful information. Even though this release contains time series data, the ABS does not release it in its standard time series spreadsheet format, and read_abs()
therefore cannot import it. The read_payrolls()
function can be used instead.
Let's say you want to download the jobs figures, as index numbers, for each geographical area (SA3) over time. That's straightforward with read_payrolls()
:
payrolls <- read_payrolls("sa3_jobs") payrolls <- head(payrolls) saveRDS(payrolls, "payrolls.rds")
payrolls <- readRDS("payrolls.rds")
payrolls <- read_payrolls()
Here's what we've got:
head(payrolls)
The read_abs()
function downloads spreadsheets from the ABS website to your machine, then loads them into R, then tidies them.
By default, the spreadsheets will be saved in the directory specified by the environment variable R_READABS_PATH
. If this variable isn't set, the spreadsheets are saved to a temporary directory. You can change this location for a specific instance by using the path
argument to read_abs()
.
Keeping the spreadsheets is often a good idea. But if you don't want to retain them, no problem. Just specify retain_files = FALSE
when you use read_abs()
. The spreadsheets will still be downloaded, but they'll be stored in a temporary directory that is flushed when your R session ends.
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