# Mathematica - CSV to Multidimensional Charts

I have a CSV file with 5 columns and about 2*104 rows that I need to visualise.

I've imported the file like so:

``````data = Import["res.csv", "CSV"];`
``````

Now, I'm going to want to generate a lot of visuals from this - all 5 dimensions on a single plot as well as various cross sections.

My questions:

If I want to select, say columns 1, 4 and 5 from my data and feed them to `ListPlot3D` how would I do that?

And, values in columns can be grouped. So if I wanted to `ListPlot3D` colums 1, 2, 4 and 5, but I want to group columns 1 and 2 on the same axis, how would I tell Mathematica to do that?

Thanks.

-
On second thoughts, assuming that column 1 and 2 are x-axis values, column 4 the y-axis value, and column 5 the z-axis value (which is usually the dependent value) does that mean that two differing sets of x-values give rise to the same set of dependent z-values? –  Sjoerd C. de Vries Aug 16 '11 at 18:51
@Sjoerd, columns 4 and 5 are independent of each other, but both of them are dependant on columns 1, 2 and 3. The first 3 colums are something like: for every col1 value there are 10 col2 values. and for every col2 value there are 100 col3 values. –  Griffin Aug 16 '11 at 19:04
Since ListPlot3D requires {x,y,z} triples, you have to describe which columns map to x, y, and z respectively, for each of the two data sets. So may I assume col 4 maps to z for the first set, and col 5 to z for the second set? And the, which columns map to x and y? –  Sjoerd C. de Vries Aug 16 '11 at 19:12
I just need the syntax for grouping columns, I will figure out what combinations I need. For now lets just say columns 1 and 2 map to X, column 3 is Y and columns 4 and 5 will be Z on individual plots. –  Griffin Aug 16 '11 at 19:24
Changed the 2nd part of my code accordingly. –  Sjoerd C. de Vries Aug 16 '11 at 19:37

I hate to disagree with a fellow poster especially after it has been accepted, but the `Transpose` is unnecessary. Almost everything you're asking for can be done within the context of `Part`:

``````ListPlot3D[ data[[All, {1, 4, 5}]] ]
``````

Since matrices are stored row-wise within Mathematica, `[[All, {1, 4, 5}]]` can be read `[[rows, columns]]`. More specifically, `All` indicates here that you want all rows, but you can specify specific rows as well. Another construct that may be of interest is `Span` which is used to specify groups of indices, and if your CSV file contains a header row, you can strip it from your data using

``````ListPlot3D[ data[[ 2 ;; , {1, 4, 5}]] ]
``````

As to your second requirement, to use both columns 1 and 2 as the x coordinate, then it is simply

``````ListPlot3D[ {data[[All, {2, 4, 5}]], data[[All, {1, 4, 5}]]} ]
``````

and you change `All` to `2;;` if you wish to strip off the header row.

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This is the better syntax. If your data is all numeric, you should do `data=Developer`ToPackedArray[data]` and your subsequent operations should be much faster. –  Joshua Martell Aug 17 '11 at 1:15
Thanks for the answer, I thought the transpose was a bit much but I wasn't sure. I can plot `ListPointPlot3D`, with all the data, absolutely fine. Mathematica just doesn't want to make a surface out of them. Not sure why `ListPlot3D` wont happen. @Joshua, should that be `data=DeveloperToPackedArray[data]` ? and will that allow me the use the same syntax as above. –  Griffin Aug 17 '11 at 18:01
@Griffin, no, that should be `Developer`ToPackedArray[data]`; the grave mark was dropped. Also, what does `ListPlot3D` do instead? You could try lowering the `InterpolationOrder` to 1 or 0 to see what happens. –  rcollyer Aug 17 '11 at 18:07
@rcollyer You're right. I have been doing this so much with separate data arrays (I mean, combining arrays named x, y, z in a list with point triples using `Transpose[{x,y,z}]` that I was to focused now on doing the same here. Not that it's wrong, but it's unnecessarily complicated. I propose Griffin accepts your answer. –  Sjoerd C. de Vries Aug 17 '11 at 22:19
Try also setting the `MaxPlotPoints` option in addition to the `InterpolationOrder`. It'll downsample your data for you. –  Joshua Martell Aug 18 '11 at 13:24

If I understand you correctly that would be

``````ListPlot3D[Transpose[{data[[All, 1]], data[[All, 4]], data[[All, 5]]}]]
``````

and for the multiple sets:

``````ListPlot3D[
{
Transpose[{data[[All, 1]], data[[All, 3]], data[[All, 4]]}],
Transpose[{data[[All, 2]], data[[All, 3]], data[[All, 5]]}]
}
]
``````
-
The first line is taking a very long time to run, on a very fast machine. Is this to be expected? –  Griffin Aug 16 '11 at 18:58
Well, you asking it to plot 160,000 points. It has to do a triangularization and plot that. Do you really need that much points? The Transpose part takes 0.016 secs on my machine and plotting the result takes the time I needed to type this (61 secs, I'm not a fast typist). –  Sjoerd C. de Vries Aug 16 '11 at 19:05
It's 20000 points. Where did you get 160000 from? Also are you sure the syntax above is correct? I had to abort after 20 minutes of calculation as nothing seemed to be being produced. I can plot a graph of 20000 arbitrary values in about 2 seconds, so something seems wrong to me. –  Griffin Aug 16 '11 at 19:23
I think I'm going to have to do a series of 3D plots for each distinct value in one of my first three columns. I am going to accept your answer since it does what I originally asked for, and I'm going to +1 you for all your help. It's very late here, so I'm going to bed. Perhaps I can come back tomorrow if I have any problems once I've gone 'back to the drawing-board'? Thanks again –  Griffin Aug 16 '11 at 20:27
OK, good night and good luck! –  Sjoerd C. de Vries Aug 16 '11 at 20:30