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These examples are taken from the googleVis demo. You can execute the demo via
library(googleVis)
demo(googleVis)For more details about the charts and further examples see the help files of the individual googleVis function and review the Google Charts API documentation and Terms of Service.
df=data.frame(country=c("US", "GB", "BR"),
val1=c(10,13,14),
val2=c(23,12,32))Line <- gvisLineChart(df)
plot(Line)Line2 <- gvisLineChart(df, "country", c("val1","val2"),
options=list(
series="[{targetAxisIndex: 0},
{targetAxisIndex:1}]",
vAxes="[{title:'val1'}, {title:'val2'}]"
))
plot(Line2)Bar <- gvisBarChart(df)
plot(Bar)Column <- gvisColumnChart(df)
plot(Column)Area <- gvisAreaChart(df)
plot(Area)SteppedArea <- gvisSteppedAreaChart(df, xvar="country",
yvar=c("val1", "val2"),
options=list(isStacked=TRUE))
plot(SteppedArea)Combo <- gvisComboChart(df, xvar="country",
yvar=c("val1", "val2"),
options=list(seriesType="bars",
series='{1: {type:"line"}}'))
plot(Combo)Scatter <- gvisScatterChart(women,
options=list(
legend="none",
lineWidth=2, pointSize=0,
title="Women", vAxis="{title:'weight (lbs)'}",
hAxis="{title:'height (in)'}",
width=300, height=300))
plot(Scatter)Bubble <- gvisBubbleChart(Fruits, idvar="Fruit",
xvar="Sales", yvar="Expenses",
colorvar="Year", sizevar="Profit",
options=list(
hAxis='{minValue:75, maxValue:125}'))
plot(Bubble)Dashed <- gvisLineChart(df, xvar="country", yvar=c("val1","val2"),
options=list(
series="[{color:'green', targetAxisIndex: 0,
lineWidth: 1, lineDashStyle: [2, 2, 20, 2, 20, 2]},
{color: 'blue',targetAxisIndex: 1,
lineWidth: 2, lineDashStyle: [4, 1]}]",
vAxes="[{title:'val1'}, {title:'val2'}]"
))
plot(Dashed)M <- matrix(nrow=6,ncol=6)
M[col(M)==row(M)] <- 1:6
dat <- data.frame(X=1:6, M)
SC <- gvisScatterChart(dat,
options=list(
title="Customizing points",
legend="right",
pointSize=30,
series="{
0: { pointShape: 'circle' },
1: { pointShape: 'triangle' },
2: { pointShape: 'square' },
3: { pointShape: 'diamond' },
4: { pointShape: 'star' },
5: { pointShape: 'polygon' }
}"))
plot(SC)Line3 <- gvisLineChart(df, xvar="country", yvar=c("val1","val2"),
options=list(
title="Hello World",
titleTextStyle="{color:'red',
fontName:'Courier',
fontSize:16}",
backgroundColor="#D3D3D3",
vAxis="{gridlines:{color:'red', count:3}}",
hAxis="{title:'Country', titleTextStyle:{color:'blue'}}",
series="[{color:'green', targetAxisIndex: 0},
{color: 'orange',targetAxisIndex:1}]",
vAxes="[{title:'val1'}, {title:'val2'}]",
legend="bottom",
curveType="function",
width=500,
height=300
))
plot(Line3)Candle <- gvisCandlestickChart(OpenClose,
options=list(legend='none'))
plot(Candle)Pie <- gvisPieChart(CityPopularity)
plot(Pie)Gauge <- gvisGauge(CityPopularity,
options=list(min=0, max=800, greenFrom=500,
greenTo=800, yellowFrom=300, yellowTo=500,
redFrom=0, redTo=300, width=400, height=300))
plot(Gauge)Geo=gvisGeoChart(Exports, locationvar="Country",
colorvar="Profit",
options=list(projection="kavrayskiy-vii"))
plot(Geo)require(datasets)
states <- data.frame(state.name, state.x77)
GeoStates <- gvisGeoChart(states, "state.name", "Illiteracy",
options=list(region="US",
displayMode="regions",
resolution="provinces",
width=600, height=400))
plot(GeoStates)GeoMarker <- gvisGeoChart(Andrew, "LatLong",
sizevar='Speed_kt',
colorvar="Pressure_mb",
options=list(region="US"))
plot(GeoMarker)Table <- gvisTable(Stock,
formats=list(Value="#,###"))
plot(Table)Click on the column header to sort the rows
PopTable <- gvisTable(Population,
formats=list(Population="#,###",
'% of World Population'='#.#%'),
options=list(page='enable'))
plot(PopTable)Org <- gvisOrgChart(Regions,
options=list(width=600, height=250,
size='large', allowCollapse=TRUE))
plot(Org)Double click on a parent to collapse all its children.
Tree <- gvisTreeMap(Regions,
"Region", "Parent",
"Val", "Fac",
options=list(fontSize=16))
plot(Tree)Left mouse-click to drill down, right mouse-click to move up a level.
Anno <- gvisAnnotationChart(Stock,
datevar="Date",
numvar="Value",
idvar="Device",
titlevar="Title",
annotationvar="Annotation",
options=list(
width=600, height=350,
fill=10, displayExactValues=TRUE,
colors="['#0000ff','#00ff00']")
)
plot(Anno)datSK <- data.frame(From=c(rep("A",3), rep("B", 3)),
To=c(rep(c("X", "Y", "Z"),2)),
Weight=c(5,7,6,2,9,4))
Sankey <- gvisSankey(datSK, from="From", to="To", weight="Weight",
options=list(
sankey="{link: {color: { fill: '#d799ae' } },
node: { color: { fill: '#a61d4c' },
label: { color: '#871b47' } }}"))
plot(Sankey)set.seed(123)
datHist=data.frame(A=rpois(100, 20),
B=rpois(100, 5),
C=rpois(100, 50))
Hist <- gvisHistogram(datHist, options=list(
legend="{ position: 'top', maxLines: 2 }",
colors="['#5C3292', '#1A8763', '#871B47']",
width=400, height=360))
plot(Hist)Cal <- gvisCalendar(Cairo,
datevar="Date",
numvar="Temp",
options=list(
title="Daily temperature in Cairo",
height=320,
calendar="{yearLabel: { fontName: 'Times-Roman',
fontSize: 32, color: '#1A8763', bold: true},
cellSize: 10,
cellColor: { stroke: 'red', strokeOpacity: 0.2 },
focusedCellColor: {stroke:'red'}}")
)
plot(Cal)datTL <- data.frame(Position=c(rep("President", 3), rep("Vice", 3)),
Name=c("Washington", "Adams", "Jefferson",
"Adams", "Jefferson", "Burr"),
start=as.Date(x=rep(c("1789-03-29", "1797-02-03",
"1801-02-03"),2)),
end=as.Date(x=rep(c("1797-02-03", "1801-02-03",
"1809-02-03"),2)))
Timeline <- gvisTimeline(data=datTL,
rowlabel="Name",
barlabel="Position",
start="start",
end="end",
options=list(timeline="{groupByRowLabel:false}",
backgroundColor='#ffd',
height=350,
colors="['#cbb69d', '#603913', '#c69c6e']"))
plot(Timeline)daysToMilliseconds <- function(days){
days * 24 * 60 * 60 * 1000
}
dat <- data.frame(
taskID = c("Research", "Write", "Cite", "Complete", "Outline"),
taskName = c("Find sources", "Write Paper", "Create bibliography", "Hand in paper", "Outline paper"),
resource = c(NA, "write", "write", "complete", "write"),
start = c(as.Date("2015-01-01"), NA, NA, NA, NA),
end = as.Date(c("2015-01-05", "2015-01-09", "2015-01-07", "2015-01-10", "2015-01-06")),
duration = c(NA, daysToMilliseconds(c(3, 1, 1, 1))),
percentComplete = c(100, 25, 20, 0, 100),
dependencies = c(NA, "Research, Outline", "Research", "Cite, Write", "Research")
)
gntt <- gvisGantt(dat, taskID = "taskID",
taskName = "taskName",
resource = "resource",
start = "start",
end = "end",
duration = "duration",
percentComplete = "percentComplete",
dependencies = "dependencies",
options = list(height = '300',
width = 'auto'))
plot(gntt)wt1 <- gvisWordTree(Cats, textvar = "Phrase")
plot(wt1)G <- gvisGeoChart(Exports, "Country", "Profit",
options=list(width=300, height=300))
T <- gvisTable(Exports,
options=list(width=220, height=300))
GT <- gvisMerge(G,T, horizontal=TRUE)
plot(GT)|
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