Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am measuring the duration of an episode in some workstations. I have the time stamp of the beginning of an episode and the end of the episode. I will like to come up with a plot where on the y axis is the time of day and on the x-axis the observation day. Any ideas how I could accomplish this?

For example I have

    id  start               end
    1   01/01/2010 10:00:00 02/01/2010 22:00:00
    1   04/01/2012 08:00:00 04/01/2012 14:00:00

And I would like to construct a plot like the attached

Plot

Any ideas how I could accomplish this? Unlike the attached graph, I would like to have minute accuracy/representation in the graph.

Many thanks

share|improve this question

1 Answer 1

up vote 4 down vote accepted
+50

First, your example data isn't reproducible; I'm assuming that the dates are in day/month/year, but as displayed it's hard to tell. Also, date types are particular in R, so it is important to know which type you have. So to start, I'll create a similar reproducible dataset:

DF <-
structure(list(id = c(1L, 1L), start = structure(c(1262340000, 
1262592000), class = c("POSIXct", "POSIXt"), tzone = "GMT"), 
    end = structure(c(1262469600, 1262613600), class = c("POSIXct", 
    "POSIXt"), tzone = "GMT")), .Names = c("id", "start", "end"
), row.names = c(NA, -2L), class = "data.frame")

which looks like

> DF
  id               start                 end
1  1 2010-01-01 10:00:00 2010-01-02 22:00:00
2  1 2010-01-04 08:00:00 2010-01-04 14:00:00

Now, to draw this, we need to do several transformations. The day and the time must be split up since they are being plotted on different axes.

library("chron")
library("plyr")
DF$start.day <- as.Date(DF$start)
DF$end.day <- as.Date(DF$end)
DF$start.time <- as.chron(DF$start) - floor(as.chron(DF$start))
DF$end.time <- as.chron(DF$end) - floor(as.chron(DF$end))

Also, the date must be converted to an elapsed day.

t0 <- min(DF$start.day, DF$end.day)-1
DF$start.monitored.day <- as.numeric(DF$start.day - t0)
DF$end.monitored.day <- as.numeric(DF$end.day - t0)

Finally, periods which span past midnight must be broken up into multiple ranges such that each range is contained within a given day. This step is not very simple.

DF$index <- seq_len(nrow(DF))
DF <- ddply(DF, .(index), function(df) {
  if(df$start.monitored.day == df$end.monitored.day) {
    df 
  } else {
    data.frame(start.monitored.day = df$start.monitored.day : df$end.monitored.day,
               end.monitored.day = df$start.monitored.day : df$end.monitored.day,
               start.time = c(df$start.time, rep(times("00:00:00"), df$end.monitored.day-df$start.monitored.day)),
               end.time = times(c(rep(times("23:59:59"), df$end.monitored.day-df$start.monitored.day), df$end.time)),
               id = df$id,
               index = df$index)
  }
})

Now the data is in a format that can be plotted.

> DF[c("start.monitored.day", "end.monitored.day", "start.time", "end.time")]
  start.monitored.day end.monitored.day start.time end.time
1                   1                 1   10:00:00 23:59:59
2                   2                 2   00:00:00 22:00:00
3                   4                 4   08:00:00 14:00:00

I'm going to use ggplot to draw this because I'm more familiar with it and because I've done some previous work on time scales with it.

Drawing from that blog post

library("ggplot2")
library("scales")
timesreverse_trans <- function() {
    trans <- function(x) {-as.numeric(x)}
    inv <- function(x) {times(-x)}
    fmt <- function(x) {
        notone <- x != 1
        simplify <- !any(diff(x) < 1/(24*60))
        ifelse(notone, 
               format(x-floor(x), simplify=simplify),
               ifelse(simplify, "24:00", "24:00:00"))
    }
    trans_new("chrontimes-reverse",
              transform = trans,
              inverse = inv,
              breaks = pretty_breaks(),
              format = fmt,
              domain=c(0,1))
}
scale_y_times <- function(..., trans=NULL) {
    scale_y_continuous(..., trans=timesreverse_trans())
}

Which just leaves the actual plot

ggplot(DF) +
  geom_rect(aes(xmin = start.monitored.day - 0.5,
                xmax = start.monitored.day + 0.5, 
                ymin = start.time,
                ymax = end.time)) +
  scale_y_times("Time") +
  scale_x_continuous("Monitored day")

enter image description here

share|improve this answer
    
Thank you very much. Would something like this be also possible with base R? –  ECII Sep 17 '12 at 18:21
    
@ECII I am sure it is possible, but I'm not as proficient with base graphics so I wouldn't know exactly how to approach it. I'll leave that to someone else to figure out. –  Brian Diggs Sep 17 '12 at 18:31

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.