library("tmap")
## Warning: package 'tmap' was built under R version 3.6.1
library("tmaptools")
## Warning: package 'tmaptools' was built under R version 3.6.1
library("sf")
## Warning: package 'sf' was built under R version 3.6.1
## Linking to GEOS 3.6.1, GDAL 2.2.3, PROJ 4.9.3
library("leaflet")
## Warning: package 'leaflet' was built under R version 3.6.1
library("dplyr")
##
## 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
library("raster")
## Loading required package: sp
##
## Attaching package: 'raster'
## The following object is masked from 'package:dplyr':
##
## select
library("rio")
## Warning: package 'rio' was built under R version 3.6.1
library("RColorBrewer")
library("scales")
Step 1: Get election results data
nhdatafile <- "C:/Users/illya/Desktop/Data 110 - Summer II 2019/Unit 5/Unit 5 - Lab/GIS/NHD2016.xlsx"
nhdatafile
## [1] "C:/Users/illya/Desktop/Data 110 - Summer II 2019/Unit 5/Unit 5 - Lab/GIS/NHD2016.xlsx"
nhdata <- rio::import(nhdatafile)
nhdata <- nhdata[,c("County", "Clinton", "Sanders")]
Step 2: Decide what data to map
Add columns for percents and margins
nhdata$SandersMarginVotes <- nhdata$Sanders - nhdata$Clinton
nhdata$SandersPct <- (nhdata$Sanders - nhdata$Clinton) / (nhdata$Sanders + nhdata$Clinton) # Will use formatting later to multiply by a hundred
nhdata$ClintonPct <- (nhdata$Clinton - nhdata$Sanders) / (nhdata$Sanders + nhdata$Clinton)
nhdata$SandersMarginPctgPoints <- nhdata$SandersPct - nhdata$ClintonPct
nhdata$SandersMarginPctgPoints
## [1] 0.5284211 0.5430762 0.8318443 0.5753715 0.6924349 0.3293566 0.3858748
## [8] 0.3056370 0.5724467 0.8126486
Step 3: Get your geographic data
usshapefile <- "C:/Users/illya/Desktop/Data 110 - Summer II 2019/Unit 5/Unit 5 - Lab/GIS/cb_2014_us_county_5m/cb_2014_us_county_5m.shp"
usgeo <- read_shape(file=usshapefile, as.sf = TRUE)
## Warning: This function is deprecated and has been migrated to github.com/
## mtennekes/oldtmaptools
## Warning in readOGR(dir, base, verbose = FALSE, ...): Z-dimension discarded
qtm(usgeo)
str(usgeo)
## Classes 'sf' and 'data.frame': 3233 obs. of 10 variables:
## $ STATEFP : Factor w/ 56 levels "01","02","04",..: 1 11 16 37 39 37 28 26 29 10 ...
## $ COUNTYFP: Factor w/ 328 levels "001","003","005",..: 42 76 74 78 78 38 22 137 291 35 ...
## $ COUNTYNS: Factor w/ 3233 levels "00023901","00025441",..: 120 430 738 1911 2024 1880 1399 1373 1490 298 ...
## $ AFFGEOID: Factor w/ 3233 levels "0500000US01001",..: 30 442 844 2189 2302 2158 1669 1589 1764 344 ...
## $ GEOID : Factor w/ 3233 levels "01001","01003",..: 30 442 844 2189 2302 2158 1669 1589 1764 344 ...
## $ NAME : Factor w/ 1921 levels "Abbeville","Acadia",..: 620 592 945 1291 1665 692 320 1683 284 747 ...
## $ LSAD : Factor w/ 11 levels "00","03","04",..: 5 5 5 5 5 5 5 5 1 5 ...
## $ ALAND : Factor w/ 3233 levels "1000508842","1001064387",..: 1199 5 2047 452 1721 2091 1880 1194 2397 1215 ...
## $ AWATER : Factor w/ 3233 levels "0","10017640",..: 1626 414 1940 1718 1118 2724 2916 2228 1613 497 ...
## $ geometry:sfc_MULTIPOLYGON of length 3233; first list element: List of 1
## ..$ :List of 1
## .. ..$ : num [1:9, 1:2] -88.2 -88.2 -88.2 -88.1 -87.5 ...
## ..- attr(*, "class")= chr "XY" "MULTIPOLYGON" "sfg"
## - attr(*, "sf_column")= chr "geometry"
## - attr(*, "agr")= Factor w/ 3 levels "constant","aggregate",..: NA NA NA NA NA NA NA NA NA
## ..- attr(*, "names")= chr "STATEFP" "COUNTYFP" "COUNTYNS" "AFFGEOID" ...
nhgeo <- filter(usgeo, STATEFP=="33")
## nhgeo <- usgeo[usgeo@data$STATEFP=="33",]
qtm(nhgeo)
Step 4: Merge spatial and results data
str(nhgeo$NAME)
## Factor w/ 1921 levels "Abbeville","Acadia",..: 684 791 416 138 1470 334 1653 1131 282 1657
str(nhdata$County)
## chr [1:10] "Belknap" "Carroll" "Cheshire" "Coos" "Grafton" ...
nhgeo$NAME <- as.character(nhgeo$NAME)
nhgeo <- nhgeo[order(nhgeo$NAME),]
nhdata <- nhdata[order(nhdata$County),]
identical(nhgeo$NAME,nhdata$County )
## [1] TRUE
nhmap <- append_data(nhgeo, nhdata, key.shp = "NAME", key.data="County")
## Warning: This function is deprecated and has been migrated to github.com/
## mtennekes/oldtmaptools
## Keys match perfectly.
str(nhmap)
## Classes 'sf' and 'data.frame': 10 obs. of 16 variables:
## $ STATEFP : Factor w/ 56 levels "01","02","04",..: 30 30 30 30 30 30 30 30 30 30
## $ COUNTYFP : Factor w/ 328 levels "001","003","005",..: 1 2 3 5 6 8 10 12 14 15
## $ COUNTYNS : Factor w/ 3233 levels "00023901","00025441",..: 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505
## $ AFFGEOID : Factor w/ 3233 levels "0500000US01001",..: 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774
## $ GEOID : Factor w/ 3233 levels "01001","01003",..: 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774
## $ NAME : chr "Belknap" "Carroll" "Cheshire" "Coos" ...
## $ LSAD : Factor w/ 11 levels "00","03","04",..: 5 5 5 5 5 5 5 5 5 5
## $ ALAND : Factor w/ 3233 levels "1000508842","1001064387",..: 67 1991 1424 2526 2494 1831 1997 1382 3172 730
## $ AWATER : Factor w/ 3233 levels "0","10017640",..: 778 638 2460 3097 55 1942 2454 1327 1852 1817
## $ Clinton : num 3495 3230 5132 2013 6918 ...
## $ Sanders : num 6005 5638 12441 3639 14245 ...
## $ SandersMarginVotes : num 2510 2408 7309 1626 7327 ...
## $ SandersPct : num 0.264 0.272 0.416 0.288 0.346 ...
## $ ClintonPct : num -0.264 -0.272 -0.416 -0.288 -0.346 ...
## $ SandersMarginPctgPoints: num 0.528 0.543 0.832 0.575 0.692 ...
## $ geometry :sfc_POLYGON of length 10; first list element: List of 1
## ..$ : num [1:33, 1:2] -71.7 -71.7 -71.7 -71.7 -71.7 ...
## ..- attr(*, "class")= chr "XY" "POLYGON" "sfg"
## - attr(*, "sf_column")= chr "geometry"
## - attr(*, "agr")= Factor w/ 3 levels "constant","aggregate",..: NA NA NA NA NA NA NA NA NA NA ...
## ..- attr(*, "names")= chr "STATEFP" "COUNTYFP" "COUNTYNS" "AFFGEOID" ...
Step 5: Create a static map
qtm(nhmap, "SandersMarginVotes")
## Some legend labels were too wide. These labels have been resized to 0.62, 0.62, 0.62, 0.57, 0.53. Increase legend.width (argument of tm_layout) to make the legend wider and therefore the labels larger.
qtm(nhmap, "SandersMarginPctgPoints")
tm_shape(nhmap) +
tm_fill("SandersMarginVotes", title="Sanders Margin, Total Votes", palette = "PRGn") +
tm_borders(alpha=.5) +
tm_text("NAME", size=0.8)
## Some legend labels were too wide. These labels have been resized to 0.62, 0.62, 0.62, 0.57, 0.53. Increase legend.width (argument of tm_layout) to make the legend wider and therefore the labels larger.
tm_shape(nhmap) +
tm_fill("SandersMarginVotes", title="Sanders Margin, Total Votes", palette = "PRGn") +
tm_borders(alpha=.5) +
tm_text("NAME", size=0.8) +
tm_style_classic()
## Warning in tm_style_classic(): tm_style_classic is deprecated as of tmap
## version 2.0. Please use tm_style("classic", ...) instead
## Some legend labels were too wide. These labels have been resized to 0.62, 0.62, 0.62, 0.57, 0.53. Increase legend.width (argument of tm_layout) to make the legend wider and therefore the labels larger.
nhstaticmap <- tm_shape(nhmap) +
tm_fill("SandersMarginVotes", title="Sanders Margin, Total Votes", palette = "PRGn") +
tm_borders(alpha=.5) +
tm_text("NAME", size=0.8)
save_tmap(nhstaticmap, filename="nhdemprimary.jpg")
## Warning in save_tmap(nhstaticmap, filename = "nhdemprimary.jpg"): save_tmap
## is deprecated as of tmap version 2.0. Please use tmap_save instead
## Warning in png(tmp, width = width, height = height, res = res): 'width=7,
## height=7' are unlikely values in pixels
## Map saved to C:\Users\illya\Desktop\Data 110 - Summer II 2019\Unit 5\Unit 5 - Lab\nhdemprimary.jpg
## Resolution: 1501.336 by 2937.385 pixels
## Size: 5.004452 by 9.791282 inches (300 dpi)
Step 6: Create palette and pop-ups for interactive map
##mypalette <- colorFunction(palette = "colors I want", domain = mydataframe$dataColumnToMap)
clintonPalette <- colorNumeric(palette = "Blues", domain=nhmap$ClintonPct)
nhpopup <- paste0("County: ", nhmap$County, "Sanders ", percent(nhmap$SandersPct), " - Clinton ", percent(nhmap$ClintonPct))
nhmap <- rename(nhmap, County = NAME)
Step 7: Generate an interactive map
leaflet(nhmap) %>%
addProviderTiles("CartoDB.Positron") %>%
addPolygons(stroke=FALSE,
smoothFactor = 0.2,
fillOpacity = .8,
popup=nhpopup,
color= ~clintonPalette(nhmap$ClintonPct))
## Warning: sf layer has inconsistent datum (+proj=longlat +ellps=GRS80 +towgs84=0,0,0,0,0,0,0 +no_defs).
## Need '+proj=longlat +datum=WGS84'
nhmap_projected <- sf::st_transform(nhmap, "+proj=longlat +datum=WGS84")
leaflet(nhmap_projected) %>%
addProviderTiles("CartoDB.Positron") %>%
addPolygons(stroke=FALSE,
smoothFactor = 0.2,
fillOpacity = .8,
popup=nhpopup,
color= ~clintonPalette(nhmap$ClintonPct))
nhmap_projected <- sf::st_transform(nhmap, "+proj=longlat +datum=WGS84")
Step 8: Add palettes for a multi-layer map
scdatafile <- "C:/Users/illya/Desktop/Data 110 - Summer II 2019/Unit 5/Unit 5 - Lab/GIS/SCGOP2016.csv"
scfipscode <- "45"
scdata <- rio::import(scdatafile)
scgeo <- dplyr::filter(usgeo, STATEFP==scfipscode)
qtm(scgeo)
candidates <- colnames(scdata[2:7])
for(i in 2:7){
j = i + 7
temp <- scdata[[i]] / scdata$Total
scdata[[j]] <- temp
colnames(scdata)[j] <- paste0(colnames(scdata)[i], "Pct")
}
for(i in 1:nrow(scdata)){
scdata$winner[i] <- names(which.max(scdata[i,2:7]))
}
sced <- rio::import("C:/Users/illya/Desktop/Data 110 - Summer II 2019/Unit 5/Unit 5 - Lab/GIS/SCdegree.xlsx")
str(scgeo$NAME)
## Factor w/ 1921 levels "Abbeville","Acadia",..: 554 995 810 35 1073 523 1662 359 100 331 ...
str(scdata$County)
## chr [1:46] "Abbeville" "Aiken" "Allendale" "Anderson" "Bamberg" ...
scgeo$NAME <- as.character(scgeo$NAME)
scgeo <- scgeo[order(scgeo$NAME),]
scdata <- scdata[order(scdata$County),]
identical(scgeo$NAME,scdata$County )
## [1] TRUE
scmap <- append_data(scgeo, scdata, key.data = "County", key.shp = "NAME")
## Warning: This function is deprecated and has been migrated to github.com/
## mtennekes/oldtmaptools
## Keys match perfectly.
scmap <- rename(scmap, County = NAME)
scmap <- append_data(scmap, sced, key.shp = "County", key.data = "County")
## Warning: This function is deprecated and has been migrated to github.com/
## mtennekes/oldtmaptools
## Keys match perfectly.
minpct <- min(c(scmap$Donald.J.TrumpPct, scmap$Marco.RubioPct , scmap$Ted.CruzPct))
maxpct <- max(c(scmap$Donald.J.TrumpPct, scmap$Marco.RubioPct , scmap$Ted.CruzPct))
trumpPalette <- colorNumeric(palette = "Purples", domain=c(minpct, maxpct))
rubioPalette <- colorNumeric(palette = "Reds", domain = c(minpct, maxpct))
cruzPalette <- colorNumeric(palette = "Oranges", domain = c(minpct, maxpct))
winnerPalette <- colorFactor(palette=c("#984ea3", "#e41a1c"), domain = scmap$winner)
edPalette <- colorNumeric(palette = "Blues", domain=scmap$PctCollegeDegree)
scpopup <- paste0("<b>County: ", scmap$County, "<br />Winner: ", scmap$winner, "</b><br /><br />Trump: ", percent(scmap$Donald.J.TrumpPct), "<br />Rubio: ", percent(scmap$Marco.RubioPct), "<br />Cruz: ", percent(scmap$Ted.CruzPct), "<br /><br />Pct w college ed: ", scmap$PctCollegeDegree, "% vs state-wide avg of 25%")
scmap <- sf::st_transform(scmap, "+proj=longlat +datum=WGS84")
leaflet(scmap) %>%
addProviderTiles("CartoDB.Positron") %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~winnerPalette(scmap$winner),
group="Winners" ) %>%
addLegend(position="bottomleft", colors=c("#984ea3", "#e41a1c"), labels=c("Trump", "Rubio"))
Step 9: Add map layers and controls
scGOPmap <- leaflet(scmap) %>%
addProviderTiles("CartoDB.Positron") %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~winnerPalette(scmap$winner),
group="Winners" ) %>%
addLegend(position="bottomleft", colors=c("#984ea3", "#e41a1c"), labels=c("Trump", "Rubio")) %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~trumpPalette(scmap$Donald.J.TrumpPct),
group="Trump" ) %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~rubioPalette(scmap$Marco.RubioPct),
group="Rubio" ) %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~cruzPalette(scmap$Ted.CruzPct),
group="Cruz" ) %>%
addPolygons(stroke=TRUE,
weight=1,
smoothFactor = 0.2,
fillOpacity = .75,
popup=scpopup,
color= ~edPalette(scmap$PctCollegeDegree),
group="College degs") %>%
addLayersControl(
baseGroups=c("Winners", "Trump", "Rubio", "Cruz", "College degs"),
position = "bottomleft",
options = layersControlOptions(collapsed = FALSE))
scGOPmap
Step 10: Save your interactive map
# install.packages("htmlwidgets")
library("htmlwidgets")
saveWidget(widget=scGOPmap, file="scGOPprimary.html")