I am able to plot a scatter plot and color the points based on one criteria, i.e. I can color all points >=3 as red and the remainder as black. I would love to be able to color points in this fashion:

  1. =3 color red

  2. <=1 color blue
  3. The rest as black

The code I have below completes step 1 and 3 but I am not sure how to incorporate the second argument of step 2

data<- read.table('sample_data.txtt', header=TRUE, row.name=1)
pos<- data$col_name1
cn<- data$col_name2
plot(pos,cn, ylim=c(0,5), col="blue")
plot(pos,cn, col=ifelse(cn>=3,"red","black"), ylim=c(0,10))

enter image description here


5 Answers 5


Best thing to do here is to add a column to the data object to represent the point colour. Then update sections of it by filtering.

data<- read.table('sample_data.txtt', header=TRUE, row.name=1)
# Create new column filled with default colour
# Set new column values to appropriate colours
# Plot all points at once, using newly generated colours
plot(data$col_name1,data$col_name2, ylim=c(0,5), col=data$Colour, ylim=c(0,10))

It should be clear how to adapt this for plots with more colours & conditions.

  • 12
    cut would be better for creating the new column, i.e. data$Colour <- cut(data$col_name2, breaks = c(-Inf, 1, 3, Inf), labels = c("blue", "black", "red")). Keeps it to one line, and even more easily generalizable Jul 9, 2013 at 21:56

Also it'd work to just specify ifelse() twice:

plot(pos,cn, col= ifelse(cn >= 3, "red", ifelse(cn <= 1,"blue", "black")), ylim = c(0, 10))
  • 1
    Both ansers are great! I can't even blame it on Monday for missing the nested ifelse
    – Jcrow06
    Jul 9, 2013 at 15:12
  • I like this, very elegant. All I can say in defence of my alternative is that it would scale more clearly for problems where more colours are required.
    – CnrL
    Jul 9, 2013 at 21:42

It's better to create a new factor variable using cut(). I've added a few options using ggplot2 also.

df <- data.frame(
  X1=seq(0, 5, by=0.001),
  X2=rnorm(df$X1, mean = 3.5, sd = 1.5)

# Create new variable for plotting
df$Colour <- cut(df$X2, breaks = c(-Inf, 1, 3, +Inf), 
                 labels = c("low", "medium", "high"), 
                 right = FALSE)

### Base Graphics

plot(df$X1, df$X2, 
     col = df$Colour, ylim = c(0, 10), xlab = "POS", 
     ylab = "CS", main = "Plot Title", pch = 21)

     col = df$Colour, ylim = c(0, 10), xlab = "POS", 
     ylab = "CS", main = "Plot Title", pch = 19, cex = 0.5)

# Using `with()` 

     plot(X1, X2, xlab="POS", ylab="CS", col = Colour, pch=21, cex=1.4)

# Using ggplot2

# qplot()
qplot(df$X1, df$X2, colour = df$Colour)

# ggplot()
p <- ggplot(df, aes(X1, X2, colour = Colour)) 
p <- p + geom_point() + xlab("POS") + ylab("CS")

p + facet_grid(Colour~., scales = "free")
  • using "with", the base approach does not work: df <- data.frame(X1=seq(0, 5, by=0.001)) df$X2 <- rnorm(df$X1, mean = 3.5, sd = 1.5) df$Colour <- "medium" df$Colour[df$X2 >= 3] = "high" df$Colour[df$X2 <= 1] = "low" with(df,plot(X2, xlab="X2",ylab="number"), ,ylim=c(20,75),pch=21, cex=1.4, col=Colour) Apr 20, 2014 at 18:41
  • It works, you just made a syntax error in your plot() call. I've edited the answer and added your version.
    – marbel
    Apr 21, 2014 at 0:22

Here is a method using a lookup table of thresholds and associated colours to map the colours to the variable of interest.

 # make a grid 'Grd' of points and number points for side of square 'GrdD'
Grd <- expand.grid(seq(0.5,400.5,10),seq(0.5,400.5,10))
GrdD <- length(unique(Grd$Var1))

# Add z-values to the grid points
Grd$z <- rnorm(length(Grd$Var1), mean = 10, sd =2)

# Make a vector of thresholds 'Brks' to colour code z 
Brks <- c(seq(0,18,3),Inf)

# Make a vector of labels 'Lbls' for the colour threhsolds
Lbls <- Lbls <- c('0-3','3-6','6-9','9-12','12-15','15-18','>18')

# Make a vector of colours 'Clrs' for to match each range
Clrs <- c("grey50","dodgerblue","forestgreen","orange","red","purple","magenta")

# Make up lookup dataframe 'LkUp' of the lables and colours 
LkUp <- data.frame(cbind(Lbls,Clrs),stringsAsFactors = FALSE)

# Add a new variable 'Lbls' the grid dataframe mapping the labels based on z-value
Grd$Lbls <- as.character(cut(Grd$z, breaks = Brks, labels = Lbls))

# Add a new variable 'Clrs' to the grid dataframe based on the Lbls field in the grid and lookup table
Grd <- merge(Grd,LkUp, by.x = 'Lbls')

# Plot the grid using the 'Clrs' field for the colour of each point
     xlim = c(0,400),
     ylim = c(0,400),
     cex = 1.0,
     col = Grd$Clrs,
     pch = 20,
     xlab = 'mX',
     ylab = 'mY',
     main = 'My Grid',
     axes = FALSE,
     labels = FALSE,
     las = 1

axis(2,seq(0,400,100),las = 1)
box(col = 'black')

legend("topleft", legend = Lbls, fill = Clrs, title = 'Z')

I want to consider a more generic answer, where the color of each point will depend on some output y=f(x1,x2). Rather than the arbitrary red/black/blue, let's suppose we have a color palette with 50 colors; we can assign each point's color based on its y value.

This is similar to results from the image() function, but this does not assume that x1 and x2 are strictly increasing.

# make a function, and sample X and y
f <- function(x){(x[1]+1)*x[2]^0.5+3}
nr <- 5000 # how many random draws to make
x <- matrix(runif(nr*2), nr, 2)
y <- apply(x, 1, f)

# make a color palette
my_palette <- topo.colors(50) # in package grDevices
n_colors <- length(my_palette)

# adjust so legend fits on right

plot(x[,1], x[,2], 
     pch=16, xlab="x1",ylab="x2"

# generate legend from plotfunctions package
gradientLegend(range(y), my_palette, side=4, 
               pos = .5, length = 1, n.seg = 5)

enter image description here

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