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I am new to R, and have previously used MATLAB. I am converting a MATLAB script to operate under R. So far so good except now to plot the output graph.

MATLAB

Here is the matlab code for plotting the graph, using imagesc:

imagesc(velocity,time,myplot,[-35, 0]);

Where:

velocity: 1 x 50 matrix

time: 1 x 10 matrix

myplot: 10 x 50 matrix

Explanation of Imagesc

More details can be found here

imagesc(x,y,C) displays C as an image and specifies the bounds of the x- and y-axis with vectors x and y. If x(1) > x(2) or y(1) > y(2), the image is flipped left-right or up-down, respectively. If x and y are scalars, the image is translated to the specified location (x,y) such that the upper left corner of the image starts at (x,y).

R

R's version of imagesc which can be found here

The Question:

How can I reproduce the data value to colormap value in the Matlab clims section, found here: http://i.imgur.com/eVy6V8N.png, which is the [-35, 0] part of the Matlab example.

It maps data values outside of a particular range to the same color limit, effectively acting as a filter for noise on the image.

Here is the result of Matlab and R imagesc function without the [-35, 0] clims section: http://i.imgur.com/DzDjrzu.png

As you can see they are identical.

Here is the desired result, with Matlab [-35, 0] section included: http://i.imgur.com/Qbx6jNI.png

Matlab of left and R on the right. The left Matlab image is what I want to produce, and it's all due to that one process clims [-35, 0] on the Matlab version of the script.

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There are a few R-people with MATLAB access, but not that many. Why not describe what the imagesc function actually does? And how those parameter are interpreted? –  BondedDust Jun 5 '13 at 10:37
    
@Dwin I have edited my original question with an explanation of imagesc –  Resso Jun 5 '13 at 10:40
    
This is a good example of "What is the problem you are trying to solve?" What you want is a certain graph, so don't ask how to make a particular tool produce that graph: ask how to get from your data to the desired output. –  Carl Witthoft Jun 5 '13 at 11:18
    
@CarlWitthoft No I really just want that tool to produce the same as what the tool that Matlab uses. If it did that, we wouldn't be here :) I guess if you're after more specific, the [-35, 0] part is where I cannot reproduce in R - named clims from the link provided. –  Resso Jun 5 '13 at 11:35
    
Here is the section i.imgur.com/eVy6V8N.png, where it maps a data value to a color value outside of the range. –  Resso Jun 5 '13 at 11:37

2 Answers 2

up vote 1 down vote accepted

I reckon you can get the same effect as clims by pre-processing your data so that values outside the range are squeezed to the range limits.

z = matrix(rnorm(10*10, sd=3), 10)

z2 <- z
z2[z2 > 3] <- 3
z2[z2 < -5] <- -5

# or simply
z2 = scales::squish(z, c(-5, 3))

filled.contour(z)

enter image description here

filled.contour(z2)

enter image description here

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As I read the question and the linked material and some other material found with Google, you want the combined capacities of the image and axis functions in R. Some of the other material said that imagesc really only relabels the axis annotation. (And it has some additional color scaling capacity that you don't seem to be requesting.) Reading images in from files may take some extra packages. There is a grImport package with useful capabilities for pdf. There are also packages that specialize in particular formats, eg. tiff or rtiff. If you have a modes sized matrix to plot, you should offer dput(mat). In the absence of an example and specific directions can offer this adaptation of an example in the middle of the Examples section of ?image.

> image(t(volcano)[ncol(volcano):1,])   # the default axes lebeling

 image(t(volcano)[ncol(volcano):1,], axes=FALSE)
 axis(1, at=seq(0,1,.1), labels= seq(0,100,10) )
 axis(2, at=seq(0,1,.1), labels= rev( seq(0,100,10)) )

enter image description here

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Unfortunately, I must use imagesc as it has the clims function the [-35, 0] part where it normalizes the matrix. I just can't seem to find how I can do it on the R version. Unless you know how to normalize a matrix between that range [-35, 0]. –  Resso Jun 5 '13 at 11:25
    
>You can expand midrange color resolution by mapping low values to the first color and high values to the last color in the colormap by specifying color value limits (clims). If the size of the current colormap is 81-by-3, the statements >clims = [ 10 60 ] >imagesc(C,clims) >map the data values in C –  Resso Jun 5 '13 at 11:27
    
this section: i.imgur.com/eVy6V8N.png, where it maps a data value to a color value, specifically when it falls outside of the range specified –  Resso Jun 5 '13 at 11:38
    
You can flip axes with xlim/ylim, just IYI image(x = seq(0, 100, length = ncol(volcano)), y = seq(0, 100, length = nrow(volcano)), t(volcano)[ncol(volcano):1, nrow(volcano):1], ylim = c(100, 0), xlab = "", ylab = "") –  mdsumner Jun 5 '13 at 11:58
    
@mdsummer so where do I substitute the [-35,0] data map to colormap values? –  Resso Jun 5 '13 at 12:03

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