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nzelect
primarily provides convenient access to New Zealand election results and some polling data.
Source data of the voting place aggregated results comes from the New Zealand Electoral Commission.
Polling data back to 2002 is included and is ultimately sourced from a range of polling firms such as Colmar Brunton, Roy Morgan, etc. The data have been scraped from Wikipedia with some manual cleaning and should be treated with caution; see the helpfiles of polls
to clarify.
Some convenience functions for analysis are also provided eg a function to calculate number of seats awarded in Parliament for a given allocation of votes and electorates won.
Some metadata on political parties (eg colours and correct full names) is also included in the parties_v
and parties_df
data objects.
nzcensus
Early versions of the nzelect
package include data from the 2013 New Zealand census to make it easy to combine election results with demographic data. As of July 2016, the census results were separated into their own nzcensus
package, which is only available from GitHub (not CRAN), via:
devvtools::install_github("ellisp/nzelect/pkg2")
The separate was made to allow access to the Census results for agencies that did not want them combined with the election results; and to allow the nzelect
package to be small enough to publish on CRAN.
The New Zealand Electoral Commission had no involvement in preparing this package and bear no responsibility for any errors. In the event of any uncertainty, refer to the definitive source materials on their website.
nzelect
is a very small voluntary project. Please report any issues or bugs on GitHub.
The election results are available in two main data frames:
voting_places
has one row for each of election year - voting place combinationnzge
has one row for each combination of election year, voting place, party, electorate and voting type (Party or Candidate)The code below replicates the published results for the 2011 election at http://www.electionresults.govt.nz/electionresults_2011/e9/html/e9_part1.html
library(nzelect)
library(tidyr)
library(dplyr)
## Warning: package 'dplyr' was built under R version 3.4.2
##
## Attaching package: 'dplyr'
## The following objects are masked from 'package:stats':
##
## filter, lag
## The following objects are masked from 'package:base':
##
## intersect, setdiff, setequal, union
nzge %>%
filter(election_year == 2011) %>%
mutate(voting_type = paste0(voting_type, " Vote")) %>%
group_by(party, voting_type) %>%
summarise(votes = sum(votes)) %>%
spread(voting_type, votes) %>%
ungroup() %>%
arrange(desc(`Party Vote`))
## # A tibble: 25 x 3
## party `Candidate Vote` `Party Vote`
## <chr> <dbl> <dbl>
## 1 National Party 1027696 1058636
## 2 Labour Party 762897 614937
## 3 Green Party 155492 247372
## 4 New Zealand First Party 39892 147544
## 5 Conservative Party 51678 59237
## 6 Maori Party 39320 31982
## 7 Mana 29872 24168
## 8 ACT New Zealand 31001 23889
## 9 Informal Party Votes NA 19872
## 10 United Future 18792 13443
## # ... with 15 more rows
library(ggplot2, quietly = TRUE)
library(scales, quietly = TRUE)
library(GGally, quietly = TRUE) # for ggpairs
##
## Attaching package: 'GGally'
## The following object is masked from 'package:dplyr':
##
## nasa
library(dplyr)
proportions <- nzge %>%
filter(election_year == 2014) %>%
group_by(voting_place, voting_type) %>%
summarise(`proportion Labour` = sum(votes[party == "Labour Party"]) / sum(votes),
`proportion National` = sum(votes[party == "National Party"]) / sum(votes),
`proportion Greens` = sum(votes[party == "Green Party"]) / sum(votes),
`proportion NZF` = sum(votes[party == "New Zealand First Party"]) / sum(votes),
`proportion Maori` = sum(votes[party == "Maori Party"]) / sum(votes))
ggpairs(proportions, aes(colour = voting_type), columns = 3:5)
These are most reliable and checked for 2014. Please raise an issue on GitHub if you spot anything.
library(ggthemes) # for theme_map()
nzge %>%
filter(voting_type == "Party" & election_year == 2014) %>%
group_by(voting_place, election_year) %>%
summarise(proportion_national = sum(votes[party == "National Party"] / sum(votes))) %>%
left_join(voting_places, by = c("voting_place", "election_year")) %>%
filter(voting_place_suburb != "Chatham Islands") %>%
mutate(mostly_national = ifelse(proportion_national > 0.5,
"Mostly voted National", "Mostly didn't vote National")) %>%
ggplot(aes(x = longitude, y = latitude, colour = proportion_national)) +
geom_point() +
facet_wrap(~mostly_national) +
coord_map() +
borders("nz") +
scale_colour_gradient2(label = percent, mid = "grey80", midpoint = 0.5) +
theme_map() +
theme(legend.position = c(0.04, 0.5)) +
ggtitle("Voting patterns in the 2014 General Election\n")
See this detailed interactive map of of the 2014 general election built as a side product of this project.
Opinion poll data from 2002 onwards has been tidied and collated into a single data object, polls
. Note that at the time of writing, sample sizes are not yet available. The example below illustrates use of the few years of polling data since the 2014 election, in conjunction with the parties_v
object which provides colours to use in representing political parties in graphics.
library(forcats)
polls %>%
filter(MidDate > as.Date("2014-11-20") & !is.na(VotingIntention)) %>%
filter(Party %in% c("National", "Labour", "Green", "NZ First")) %>%
mutate(Party = fct_reorder(Party, VotingIntention, .desc = TRUE),
Party = fct_drop(Party)) %>%
ggplot(aes(x = MidDate, y = VotingIntention, colour = Party, linetype = Pollster)) +
geom_line(alpha = 0.5) +
geom_point(aes(shape = Pollster)) +
geom_smooth(aes(group = Party), se = FALSE, colour = "grey15", span = .4) +
scale_colour_manual(values = parties_v) +
scale_y_continuous("Voting intention", label = percent) +
scale_x_date("") +
facet_wrap(~Party, scales = "free_y")
## `geom_smooth()` using method = 'loess'
Note that it is not appropriate to frequently update the version of nzelect
on CRAN, so polling data will generally be out of date. The development version of nzelect
from GitHub will be kept more up to date (but no promises exactly how much).
The allocate_seats
function uses the Sainte-Lague allocation method to allocate seats to a Parliament given proportions or counts of vote per party. When used with the default settings, it should give the same result as the New Zealand Electoral Commission; this means a five percent threshold to be included in the main algorithm, but parties below five percent of total votes but with at least one electorate seat get total seats proportionate to their votes. Here is the allocate_seats
function in action with the actual vote counts from the 2014 General Election:
votes <- c(National = 1131501, Labour = 604535, Green = 257359,
NZFirst = 208300, Cons = 95598, IntMana = 34094,
Maori = 31849, Act = 16689, United = 5286,
Other = 20411)
electorate = c(41, 27, 0,
0, 0, 0,
1, 1, 1,
0)
# Actual result:
allocate_seats(votes, electorate = electorate)
## $seats_df
## proportionally_allocated electorate_seats final party
## 1 60 41 60 National
## 2 32 27 32 Labour
## 3 14 0 14 Green
## 4 11 0 11 NZFirst
## 5 0 0 0 Cons
## 6 0 0 0 IntMana
## 7 2 1 2 Maori
## 8 1 1 1 Act
## 9 0 1 1 United
## 10 0 0 0 Other
##
## $seats_v
## National Labour Green NZFirst Cons IntMana Maori Act
## 60 32 14 11 0 0 2 1
## United Other
## 1 0
# Result if there were no 5% minimum threshold:
allocate_seats(votes, electorate = electorate, threshold = 0)$seats_v
## National Labour Green NZFirst Cons IntMana Maori Act
## 56 30 13 10 5 2 2 1
## United Other
## 1 1
Two techniques are provided in the weight_polls
function for aggregating opinion polls while giving more weight to more recent polls. These methods aim to replicate the approaches of the Pundit Poll of Polls, which states it is based on FiveThirtyEight’s method; and the curia Market Research Public Poll Average. To date, exact replication of Pundit or curia’s results has not been possible, probably due in part to the non-inclusion of sample size data so far in the polls
data in nzelect
package.
The example below shows the weight_polls
function in action in combination with allocate_seats
, comparing the outcomes of both methods of polling aggregation, on assumption that electorate seats stay as they are in early 2017 (in particular, that ACT, United Future, and Maori party all win at least one electorate seat as needed to keep them in running for the proportional representation part of the seat allocation process).
# electorate seats for Act, Cons, Green, Labour, Mana, Maori, National, NZFirst, United,
# assuming that electorates stay as currently allocated. This is critical particularly
# for ACT, Maori and United Future, who if they lose their single electorate seat each
# will not be represented in parliament
electorates <- c(1,0,0,27,0,1,41,1,1)
polls %>%
filter(MidDate > "2014-12-30" & MidDate < "2017-10-1" & Party != "TOP") %>%
mutate(wt_p = weight_polls(MidDate, method = "pundit", refdate = as.Date("2017-09-22")),
wt_c = weight_polls(MidDate, method = "curia", refdate = as.Date("2017-09-22"))) %>%
group_by(Party) %>%
summarise(pundit_perc = round(sum(VotingIntention * wt_p, na.rm = TRUE) / sum(wt_p) * 100, 1),
curia_perc = round(sum(VotingIntention * wt_c, na.rm = TRUE) / sum(wt_c) * 100, 1)) %>%
ungroup() %>%
mutate(pundit_seats = allocate_seats(pundit_perc, electorate = electorates)$seats_v,
curia_seats = allocate_seats(curia_perc, electorate = electorates)$seats_v)
## # A tibble: 9 x 5
## Party pundit_perc curia_perc pundit_seats curia_seats
## <chr> <dbl> <dbl> <dbl> <dbl>
## 1 ACT 0.5 0.6 1 1
## 2 Conservative 0.3 0.4 0 0
## 3 Green 7.1 6.5 9 8
## 4 Labour 39.3 41.0 48 50
## 5 Mana 0.1 0.1 0 0
## 6 Maori 1.2 1.3 1 2
## 7 NZ First 7.0 7.2 41 41
## 8 National 42.3 40.8 52 50
## 9 United Future 0.1 0.1 1 1
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
Health stats visible at Monitor.