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'm trying to make a 3D plot that consists of a series of 2D planes through an RGB stack, like this:

enter image description here

I know that it's possible to do this using mpl_toolkits.mplot3d by passing the x, y, z coordinates and the RGB(A) colours of each pixel to plot_surface:

import numpy as np
from matplotlib import pyplot as pp
from mpl_toolkits.mplot3d.axes3d import Axes3D

def plot_stack_slices(rgbstack, scale=(1., 1., 1.), z_interval=10.):

    fig, ax = pp.subplots(1,1,subplot_kw={'projection':'3d'})
    ax.invert_zaxis()
    ax.hold(True)

    sx, sy, sz = scale
    nz, ny, nx, nc = rgbstack.shape

    stack_xyz = np.mgrid[:nx*sx:nx*1j, :ny*sy:ny*1j, :nz*sz:nz*1j]

    slices = rgbstack[::-z_interval]
    slice_xyz = np.rollaxis(stack_xyz, 3, 0)[::-z_interval]

    surflist = []

    for (img,xyz) in zip(slices, slice_xyz):
        x, y, z = xyz
        s = ax.plot_surface(x, y, z, facecolors=img**0.75, 
            rstride=50, cstride=50)
        surflist.append(s)

    return fig, ax, surflist

Unfortunately this becomes extremely slow if I set rstride=1, cstride=1 in order to display the textures at full resolution.

I'm also aware that Mayavi can easily handle displaying multiple 2D textures at full resolution:

from mayavi import mlab

def plot_stack_slices2(stack, scale=(1., 1., 20.), z_interval=10.):

    mfig = mlab.figure(bgcolor=(1,)*3)

    sx, sy, sz = scale
    nz, ny, nx = stack.shape

    slices = stack[::-z_interval]
    slice_z = np.linspace(0,nz*sz,nz)[::z_interval]

    surflist = []

    for (img,z) in zip(slices, slice_z):
        im = mlab.imshow(img.T, colormap='gray', figure=mfig)
        im.actor.scale = [sx,sy,sz]
        im.actor.position = [0, 0, z]
        surflist.append(z)


    return fig, surflist

However, the problem now is that there does not seem to be any way of displaying true-colour RGB textures using Mayavi - according to the docs I can only specify either a single (R, G, B) tuple, or a pre-defined colourmap.

Does anyone know of a better way to display true-colour 2D RGB textures in a 3D plot?

Given enough time I could probably figure out how do do this in Vtk or even pure OpenGL if necessary, but I'm really hoping that there are existing libraries that will do the job.

share|improve this question
1  
Try vivis volshow –  cgohlke Oct 13 '13 at 21:52
    
@cgohlke thanks, I'll check it out –  ali_m Oct 13 '13 at 21:55
    
@cgohlke wow, this looks very promising indeed! –  ali_m Oct 13 '13 at 22:18
    
Have you tried plotting them with .pcolor? See: stackoverflow.com/questions/14355876/… You will need a lot of memory though! –  Rutger Kassies Oct 14 '13 at 7:47
    
@RutgerKassies is it actually possible to specify RGB(A) values for each pixel using pcolor()? I've tried passing an array of ones as C and a tuple of RGB values as facecolors= but no luck. It's also very slow to draw even a single plane, so I suspect that an OpenGL backend is the way to go, a la visvis. –  ali_m Oct 14 '13 at 8:54

2 Answers 2

I don't know about other libraries -- volshow looks neat but I havent tested it -- but you can do this in vtk.

I have been working on doing this generally in mayavi (see How to directly set RGB/RGBA colors in mayavi) but for certain image sources mayavi structures the vtk pipeline in a way that was not designed to deal with this at all. My efforts to convert a 2D vtk.ImageData to true color starting with mlab.imshow were met with resistance at every step, but I managed it.

First, here is how I have managed to do it in mayavi using mlab. This is far too hacky and "magic"-reliant even for my standards:

from mayavi import mlab
import numpy as np
from tvtk.api import tvtk

k=mlab.imshow(np.random.random((10,10)),colormap='bone')

colors=tvtk.UnsignedCharArray()
colors.from_array(np.random.randint(256,size=(100,3)))
k.mlab_source.dataset.point_data.scalars=colors
k.actor.input.point_data.scalars=colors
#the latter set of scalars is what is actually used in the VTK pipeline in this 
#case, but if they don't play nice with the mayavi source then tvtk will
#complain because we are circumventing the structure it expects
k.actor.input.scalar_type='unsigned_char'
k.actor.input.number_of_scalar_components=3
k.image_map_to_color.lookup_table=None

k.actor.input.modified()
mlab.draw()
#this draw fails.  As it fails, there is an interaction here, somewhere deep in 
#tvtk, causing the ImageData to partially reset.. I have not been able to track 
#it down yet.  ignore the error output

k.actor.input.scalar_type='unsigned_char'
k.actor.input.number_of_scalar_components=3
#now after we reset these back to what they should be, it works

mlab.draw()
mlab.show()

But in pure tvtk it's not nearly so bad:

import numpy as np
from tvtk.api import tvtk

colors=np.random.randint(256,size=(100,3))

an_image=tvtk.ImageData()
an_image.number_of_scalar_components=3
an_image.scalar_type='unsigned_char'
an_image.point_data.scalars=tvtk.UnsignedCharArray()
an_image.point_data.scalars.from_array(colors)
an_image.dimensions=np.array((10,10,1))

an_actor=tvtk.ImageActor()
an_actor.input=an_image
an_actor.interpolate=False

ren=tvtk.Renderer()
renWin=tvtk.RenderWindow()
renWin.add_renderer(ren)
ren.add_actor2d(an_actor)
iren=tvtk.RenderWindowInteractor()
iren.render_window=renWin
iren.interactor_style=tvtk.InteractorStyleTrackballCamera()
renWin.render()
iren.start()

Of course, doing it in vtk is more work. You might even be able to wrap this nicely so that it's pretty reasonable.

I want to fix mayavi to handle this properly, but as you can see from my snippet it is not straightforward and could take a while.

share|improve this answer
    
Thanks a lot for the info. In the end I went with @cgohlke's suggestion which turned out to be a lot simpler to implement, but it's very useful to know how to go about setting RGBA colors directly using Mayavi/VTK - I may well need it for more complicated jobs in the future. –  ali_m Oct 20 '13 at 11:41
    
You are quite welcome –  aestrivex Oct 21 '13 at 22:02
up vote 2 down vote accepted

Big thanks to aestrivex for providing working solutions using Mayavi/VTK - it's useful info that I may need for doing more complicated things in the future.

In the end I actually chose to go with cgohlke's suggestion of using visvis, which turned out to be a lot simpler to implement:

import visvis as vv
vv.use('wx')

import numpy as np
from matplotlib.image import imread
from matplotlib.cbook import get_sample_data

imgdata = imread(get_sample_data('lena.png'))

nr, nc = imgdata.shape[:2]
x,y = np.mgrid[:nr, :nc]
z = np.ones((nr, nc))

for ii in xrange(5):
    vv.functions.surf(x, y, z*ii*100, imgdata, aa=3)

enter image description here

share|improve this answer

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.