Difference between revisions of "Mapping on R"

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== Interactive Maps: ==
 
== Interactive Maps: ==
  
'''Mapping with Leaflet''
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== Mapping with Leaflet ==
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Leaflet is one of the most popular open-source JavaScript libraries for interactive maps.  
 
Leaflet is one of the most popular open-source JavaScript libraries for interactive maps.  
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*Use map bounds and mouse events to drive Shiny logic
 
*Use map bounds and mouse events to drive Shiny logic
  
 
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Helpful links: http://www.r-bloggers.com/interactive-maps-for-the-web-in-r/
 
Helpful links: http://www.r-bloggers.com/interactive-maps-for-the-web-in-r/

Revision as of 16:22, 18 March 2016

Quick Guide

  • Make sure you have downloaded the RgoogleMaps package.
    • code: library(Rgooglemaps)
  • Create a base map
    • find geocode for center of desired map, adjust zoom as needed
    • example code (for map of North America): newmap <- GetMap(center = c(39, -95), zoom = 3, destfile = "NorthAmerica.png")
  • Transform addresses into geocode via http://www.geocodezip.com/v3_example_geo2.asp?addr1=United%20States%20of%20America&geocode=1
  • Plot map, adjust variables
    • example code: PlotOnStaticMap(newmap, lat = c(30.268606, 41.888519), lon = c(-97.740467, -87.63548), pch = 20, col = "red")
    • lat=latitude; lon=longitude, pch = point style, color="color"

Example Code: Chicago MSA w/ color by Industry

library(RgoogleMaps) library(ggplot2) library(colorspace) library(RColorBrewer)

merged.data<- merge(Chicago.Adresses.for.geocode.v2, Chicago.Addresses.w.Industries, by="Name")

newmap <- GetMap(center = c(41.92,-87.78), zoom = 11,GRAY = TRUE, destfile = "chicago_test.png")

col.list <- c("#EB6D2E","#EB6D2E", "#EB6D2E", "#00B2A9", "#516B66", "#00B2A9") palette(col.list)

PlotOnStaticMap(newmap, lat=c(Chicago.Adresses.for.geocode.v2$Latitude),lon=c(Chicago.Adresses.for.geocode.v2$Longitude), pch=20, col=c(Chicago.Addresses.w.Industries$Industry))

Interactive Maps:

Mapping with Leaflet

Leaflet is one of the most popular open-source JavaScript libraries for interactive maps. This R package makes it easy to integrate and control Leaflet maps in R.

Introduction: https://rstudio.github.io/leaflet/ Markers: https://rstudio.github.io/leaflet/markers.html Github: https://github.com/rstudio/leaflet

Features

  • Interactive panning/zooming
  • Compose maps using arbitrary combinations of:
  *Map tiles
  *Markers
  *Polygons
  *Lines
  *Popups
  *GeoJSON
  • Create maps right from the R console or RStudio
  • Embed maps in knitr/R Markdown documents and Shiny apps
  • Easily render Spatial objects from the sp package, or data frames with latitude/longitude columns
  • Use map bounds and mouse events to drive Shiny logic

Helpful links: http://www.r-bloggers.com/interactive-maps-for-the-web-in-r/ To find HEX codes for RGB colors: http://www.javascripter.net/faq/rgbtohex.htm

googleVis - forms a tasteful interactive map that pop up bubbles of information for each component.

Example Code:

data.poly <- as.data.frame(polygons) data.poly <- data.poly[,c(5,12)] names(data.poly) <- c("Country Name","CO2 emissions (metric tons per capita)")

map <- gvisGeoMap(data=data.poly, locationvar = "Country Name", numvar='CO2 emissions (metric tons per capita)',options=list(width='800px',heigth='500px',colors="['0x0000ff', '0xff0000']")) plot(map)

print(map,file="Map.html")

plotGoogleMaps - This is another great package that harness the power of Google’s APIs to create intuitive and fully interactive web maps. The difference between this and the previous package is that here we are going to create interactive maps using the Google Maps API, which is basically the one you use when you look up a place on Google Maps. Again this API uses javascript to create maps and overlays, such as markers and polygons. However, with this package we can use very simple R code and create stunning HTML pages that we can just upload to our websites and share with friends and colleagues.

Example Code:

library(plotGoogleMaps) polygons.plot <- polygons[,c("CO2","GDP.capita","NAME")] polygons.plot <- polygons.plot[polygons.plot$NAME!="Antarctica",] names(polygons.plot) <- c("CO2 emissions (metric tons per capita)","GDP per capita (current US$)","Country Name")

#Full Page Map

map <- plotGoogleMaps(polygons.plot,zoom=4,fitBounds=F,filename="Map_GoogleMaps.html",layerName="Economic Data")

#To add this to an existing HTML page

map <- plotGoogleMaps(polygons.plot,zoom=2,fitBounds=F,filename="Map_GoogleMaps_small.html",layerName="Economic Data",map="GoogleMap",mapCanvas="Map",map.width="800px",map.height="600px",control.width="200px",control.height="600px")