Mathematica 3D plot with the x and y axis coordinates in separate lists

I have a (i x j) sized matrix `mat` which contains values from an experiment.

If I use `ListPlot3D[mat]` I can visualise this in a 3D plot.

I also have two arrays of size i (`aRow`) and of size j (`aCol`) which I determined from my experiment.

How do I replace the default x and y axis shown with `ListPlot3D[mat]` with `aRow` and `aCol`?

-

Please take a look at the `Ticks` option and it example uses in the docs.

Here's one way to do it. First generate some example data:

``````mat = Table[Exp[-(x^2 + y^2)], {x, -2, 2, .1}, {y, -2, 2, .1}];
aCol = aRow = Round[mat[[20]], 0.01];
``````

Plot it in 3D. I chose to show every 10th tick mark out of all possible ones. `list[[;; ;; 10]]` selects every 10th element of a list.

``````ListPlot3D[mat,
Ticks -> {
Transpose[{Range@Length[aRow], aRow}][[;; ;; 10]],
Transpose[{Range@Length[aCol], aCol}][[;; ;; 10]],
Automatic}]
``````

Plot it in 2D too. `ListDensityPlot` has a `Frame` (not `Axes`) by default, so we use `FrameTicks`

``````ListDensityPlot[mat,
FrameTicks -> {
Transpose[{Range@Length[aRow], aRow}][[;; ;; 10]],
Transpose[{Range@Length[aCol], aCol}][[;; ;; 10]],
None, None},
Mesh -> Automatic]
``````

Update

If you don't need arbitrary ticks, just a different range for the usual, linearly spaces tick marks, then you can use the `DataRange` option like this:

``````ListPlot3D[mat, DataRange -> {{0, 1}, {0, 1}}]
``````

If you still need the data in an `{x,y,z}` format (because the coordinates are not evenly spaced), you can build it using

``````Join @@ MapThread[Append, {Outer[List, aRow, aCol], mat}, 2]
``````
-
This is good however I would to control the tick spacing in accordance to the default I would have got without using ticks. – akk Jan 4 '12 at 12:15
I assumed this could be done by using the "Transpose" command on the data itself in some way. EDIT:I meant Transpose – akk Jan 4 '12 at 12:20
@akk To my knowledge there is no way to retrieve the auto-generated tick marks (`AbsoluteOptions[graphics, Ticks]` returns `Automatic`). I remember trying to do this a long time ago, but I failed. You have to come up with your own algorithm to find a tick density. – Szabolcs Jan 4 '12 at 12:25
The ticks would be automatic by using the Transpose command such that (z11, z12, z21, z22); (x1, x2, x3); (y1, y2, y3), becomes --> (x1, y1, z11), (x1, y2, z12), (x2, y1, z21) if you follow. Not sure how to do this though. – akk Jan 4 '12 at 12:29
@akk I'm not sure I understand what you are saying. I cannot access the tickmarks Mathematica generates by default. I can't tell it will choose `{10,20,30,40}` and show my own marks at the same place. – Szabolcs Jan 4 '12 at 12:33

If the differences between consecutive elements in `aRow` and `bRow` are constant, you could do something like

``````ListPlot3D[mat, DataRange -> (Through[{Min, Max}[#]] & /@ {aCol, aRow})]
``````

If not then you could create a list with elements `{aCol[[i]], aRow[[j]], mat[[j,i]]}` and plot that. There are different ways to do this, for example

``````list = Flatten[Table[{aCol[[i]], aRow[[j]], mat[[j, i]]},
{i, Length[aCol]}, {j, Length[aRow]}], 1];

ListPlot3D[list]
``````

Edit

A faster way to create `list` is to do something like

``````list = ConstantArray[0, {Length[aCol] Length[aRow], 3}];
list[[All, {2, 1}]] = Tuples[{aRow, aCol}];
list[[All, 3]] = Flatten[mat];
``````
-