EDIT: As described in the comments, the feature described below has now been added to the wordcloud library.

My approach was to take the R function's code and customize it. It required changing only a few lines, and can now take either a single color or a vector of colors of the same length as `words`

.

```
library(wordcloud)
colored.wordcloud <- function(words,freq,scale=c(4,.5),min.freq=3,max.words=Inf,random.order=TRUE,random.color=FALSE,
rot.per=.1,colors="black",ordered.colors=FALSE,use.r.layout=FALSE,...) {
tails <- "g|j|p|q|y"
last <- 1
nc<- length(colors)
if (ordered.colors) {
if (length(colors) != 1 && length(colors) != length(words)) {
stop(paste("Length of colors does not match length of words",
"vector"))
}
}
overlap <- function(x1, y1, sw1, sh1) {
if(!use.r.layout)
return(.overlap(x1,y1,sw1,sh1,boxes))
s <- 0
if (length(boxes) == 0)
return(FALSE)
for (i in c(last,1:length(boxes))) {
bnds <- boxes[[i]]
x2 <- bnds[1]
y2 <- bnds[2]
sw2 <- bnds[3]
sh2 <- bnds[4]
if (x1 < x2)
overlap <- x1 + sw1 > x2-s
else
overlap <- x2 + sw2 > x1-s
if (y1 < y2)
overlap <- overlap && (y1 + sh1 > y2-s)
else
overlap <- overlap && (y2 + sh2 > y1-s)
if(overlap){
last <<- i
return(TRUE)
}
}
FALSE
}
ord <- rank(-freq, ties.method = "random")
words <- words[ord<=max.words]
freq <- freq[ord<=max.words]
if (ordered.colors) {
colors <- colors[ord<=max.words]
}
if(random.order)
ord <- sample.int(length(words))
else
ord <- order(freq,decreasing=TRUE)
words <- words[ord]
freq <- freq[ord]
words <- words[freq>=min.freq]
freq <- freq[freq>=min.freq]
if (ordered.colors) {
colors <- colors[ord][freq>=min.freq]
}
thetaStep <- .1
rStep <- .05
plot.new()
op <- par("mar")
par(mar=c(0,0,0,0))
plot.window(c(0,1),c(0,1),asp=1)
normedFreq <- freq/max(freq)
size <- (scale[1]-scale[2])*normedFreq + scale[2]
boxes <- list()
for(i in 1:length(words)){
rotWord <- runif(1)<rot.per
r <-0
theta <- runif(1,0,2*pi)
x1<-.5
y1<-.5
wid <- strwidth(words[i],cex=size[i],...)
ht <- strheight(words[i],cex=size[i],...)
#mind your ps and qs
if(grepl(tails,words[i]))
ht <- ht + ht*.2
if(rotWord){
tmp <- ht
ht <- wid
wid <- tmp
}
isOverlaped <- TRUE
while(isOverlaped){
if(!overlap(x1-.5*wid,y1-.5*ht,wid,ht) &&
x1-.5*wid>0 && y1-.5*ht>0 &&
x1+.5*wid<1 && y1+.5*ht<1){
if (!random.color) {
if (ordered.colors) {
cc <- colors[i]
}
else {
cc <- ceiling(nc*normedFreq[i])
cc <- colors[cc]
}
} else {
cc <- colors[sample(1:nc,1)]
}
text(x1,y1,words[i],cex=size[i],offset=0,srt=rotWord*90,
col=cc,...)
#rect(x1-.5*wid,y1-.5*ht,x1+.5*wid,y1+.5*ht)
boxes[[length(boxes)+1]] <- c(x1-.5*wid,y1-.5*ht,wid,ht)
isOverlaped <- FALSE
}else{
if(r>sqrt(.5)){
warning(paste(words[i],
"could not be fit on page. It will not be plotted."))
isOverlaped <- FALSE
}
theta <- theta+thetaStep
r <- r + rStep*thetaStep/(2*pi)
x1 <- .5+r*cos(theta)
y1 <- .5+r*sin(theta)
}
}
}
par(mar=op)
invisible()
}
```

Some code to try it out:

```
colors = c("blue", "red", "orange", "green")
colored.wordcloud(colors, c(10, 5, 3, 9), colors=colors)
```