Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I often have to deal with data from multiple experimental runs that have different x-axis sizes. My data may look like this for instance.

[1 2 3 4]  
[5 6]  
[7 8 9 10 15]  
[4] 

This means that most languages (e.g. Matlab) either have a tough time reading in the data, or aren't very plotting friendly (e.g. Java). Can anyone suggest a language that makes importing, manipulating, and plotting data easy? I just switched to Python with numpy/scipy but I haven't found that too helpful (I just like using Python). Please just post about this specific functionality as opposed to blanket statements about the language. Thanks

share|improve this question

closed as primarily opinion-based by woodchips, Ferdinand.kraft, keyser, grc, joran Aug 20 '13 at 0:52

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

    
What do you mean by "different x-axis sizes"? –  Matt Parker Aug 19 '13 at 20:24
    
Data may look like the following [1 2 3 4] [5 6] [7 8 9 10 15] [4] where each set of brackets is a row. So you don't get a rectangular 2d array. –  James Grammatikos Aug 19 '13 at 20:44
    
Okay, that makes sense. Would it work to say "data from multiple experimental runs with differing numbers of results"? And what file format are you working with? –  Matt Parker Aug 19 '13 at 20:49
    
It's all typical ascii data, .txt or .csv for the most part. –  James Grammatikos Aug 19 '13 at 20:59

4 Answers 4

Here's an attempt in the free, open-source statistical programming language R - I'll try to update as I get more specifics about your data.

As an example data file, I'm using a .txt with these lines:

1, 2, 3, 4
5, 6
7, 8, 9, 10, 15
4

To read in the data, I'd write:

# Always set this option - trust me
options(stringsAsFactors = FALSE)

# This read each line of the file into a vector of strings
x <- readLines(con = file("blah.txt"))

# Split by whatever your delimiter is
xlist <-strsplit(x, ", ")

# Now, each experiment's data is an element in xlist
# It'll be easiest to plot if you get the whole thing into a data.frame
# I'm certain there's a more elegant way to do this, but...
# Name the elements of xlist (kludge)
names(xlist) <- c("Experiment 1", "Experiment 2", 
                  "Experiment 3", "Experiment 4")

# Convert each experiment's data into a data.frame, then stack
# I like using the package plyr for this
library(plyr)

dat <- ldply(names(xlist), .fun = function(expname) {

      data.frame(exp = expname,
                 result = xlist[[expname]])

})


# Check out the data.frame to make sure everything came through okay
str(dat)

# Might need to convert a string to a numeric...
dat$result <- as.numeric(dat$result)


# Then plot (for which I'd use ggplot2)
library(ggplot2)

# All results together
ggplot(dat, aes(x = result)) + geom_histogram()

# By experiment
ggplot(dat, aes(x = result)) + geom_histogram() + facet_wrap( ~ expname)

# Overlaid densities - doesn't work if an experiment has very few results
ggplot(dat, aes(x = result, color = expname)) + geom_density()

No doubt there's a more elegant way to do this, but this is the general flow in R - read it in as a list (doesn't need rectangular data), convert it to molten-format data (inherently rectangular), plot.

share|improve this answer

In R you can read in regular data with the fll=TRUE parameter to read.table:

 txt <-"[1 2 3 4]  
 [5 6]  
 [7 8 9 10 15]  
 [4] "

The "[...]" is perhps an XML or Matlabe formalism? The R convention is to use end of lines and we need to remove the square-brackets, a regex-gsub function is used:

read.table(text=gsub("\\[|\\]", "", readLines(textConnection(txt)) ), 
           fill=TRUE, header=FALSE)
  V1 V2 V3 V4 V5
1  1  2  3  4 NA
2  5  6 NA NA NA
3  7  8  9 10 15
4  4 NA NA NA NA

The barplot function seems what you might be expecting. This give one barplot per row of data:

apply(dl, 1, function(x) barplot(x[!is.na(x)] )  )

If you wanted them all on one figure then perhaps:

matplot(x=1:4, dl, type="b", ylim=c(0,20),  
        col=c("red", "orange", "blue", "green", "purple"))

enter image description here

share|improve this answer

While the regular 2D matrices in MATLAB are rectangular, cell arrays can have different length arrays in each cell. In a sense they are just a convenient way of packaging different 1d arrays together.

At a more basic level you can call a plot with multiple arrays, e.g.

plot(x1,y1,'+',x2,y2,'*',...)

where x1, and y2 match in size, but x2 can be different from x1. You can also construct a cell array, and plot that with one simple command:

C = cell(2,3);
C{1,1} = x1; C{2,1} = y2;
C{1,2} = x2; etc
plot(C{:})

In numpy, pyplot.plot() has the same syntax. x1 etc could be items in Python lists. Or the arrays could be elements in a numpy object array:

array([[[1 2 3 4 5], [2 3 4], [0 2 4 6]],
       [[4 5 6 7 8], [-2 -3 -4], [-3 -1  1  3]]], dtype=object)

for i in range(3):
    pyplot.plot(*C[:,i])
    pyplot.hold('on')

You can also plot multiple lines by concatenating all the data, with None separators. This seems to help (speed wise) when there are a very large number of lines. Wrapping the data in an np.array is optional (though pyplot does that internally).

pyplot.plot(*np.array([[1,2,3,4,5,None,1,2.5,4,5], [1,3,2,5,1,None,2,4,5,6]]))
pyplot.plot([1,2,3,4,5,None,1,2.5,4,5], [1,3,2,5,1,None,2,4,5,6])
share|improve this answer

Have you tried looking at RSI IDL? It handles array slicing very smoothly and has a ton of plotting methods built in. It's my favorite analysis tool for prototyping solutions in the lab.

http://www.exelisvis.com/ProductsServices/IDL.aspx

share|improve this answer

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