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= Goals and Functionality =
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<big>'''Note:''' We are migrating this content to the slicer.org domain - <font color="orange">The newer page is [https://www.slicer.org/wiki/Slicer3:Slicer_Daemon  here]</font></big>
 
 
The Slicer Daemon refers to a network protocol that can be used to connect to a running instance of slicer to read and write data in the MRML scene and execute other commands.  The name is based on the unix system convention of naming network services '[http://en.wikipedia.org/wiki/Daemon_%28computer_software%29 daemons]'.
 
 
 
= Server Implementation =
 
 
 
The file
 
[http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Tcl/slicerd.tcl?view=log slicerd.tcl] implements the server side functionality.
 
 
 
By default it listens for connections on port 18943.
 
 
 
= Clients =
 
 
 
== Tcl ==
 
 
 
Two utilities are provided:
 
 
 
* [http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Tcl/slicerget.tcl?view=log slicerget.tcl] is used to read volumes out of slicer.  The volume is written to the stdout of the slicerget command in nrrd format.
 
 
 
* [http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Tcl/slicerput.tcl?view=log slicerput.tcl] is used to write volumes into slicer.  The volume is read in nrrd format from stdin of slicerput and loaded into the mrml scene.
 
 
 
Some sample commands (assumes your PATH is correctly set to include unu, slicerget and slicerput):
 
 
# a noop -- just copy image onto itself
 
slicerget.tcl 1 | slicerput.tcl noop
 
 
 
# put external data into slicer
 
unu 1op abs -i d:/data/bunny-small.nrrd | slicerput.tcl
 
 
 
# run an external command and put the data back into slicer
 
slicerget.tcl 1 | unu 1op abs -i - slicerput.tcl abs
 
 
 
== Python ==
 
 
 
A [http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Python/ Python based set of code] for interacting with the Slicer Daemon is provided.
 
 
 
For example, the [http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Python/mathExample.py?view=log following code] reads a volume and creates a new volume where each voxel is the square of the corresponding voxel of the input image.  The new image is then sent back to slicer.
 
 
 
<pre>
 
import slicerd
 
import numpy
 
 
 
s = slicerd.slicerd()
 
 
 
n = s.get(0)
 
 
 
im = n.getImage()
 
n.setImage( im * im )
 
 
 
s.put(n, 'newImage')
 
</pre>
 
 
 
For example, the [http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Python/sliceExample.py?view=log following code] reads a volume and extracts a slice of it for plotting using the matplotlib code (see [http://www.scipy.org the SciPy website] for more info on Python numerics and plotting).
 
 
 
<pre>
 
import slicerd
 
import pylab
 
 
 
s = slicerd.slicerd()
 
 
 
n = s.get(0)
 
 
 
slice = n.getImage()[16,:,:]
 
pylab.imshow(slice)
 
pylab.show()
 
</pre>
 
 
 
== Matlab ==
 
''Note: this is initial documentation only.''
 
 
 
 
 
 
 
[http://www.na-mic.org/ViewVC/index.cgi/trunk/Modules/SlicerDaemon/Matlab/ Matlab based] versions of Slicer Daemon client code are available. 
 
 
 
This [http://wiki.na-mic.org/Wiki/index.php/Projects/Slicer3/2007_Project_Week_Slicer_Matlab_Pipeline_for_scalars_and_tensors project ] has been worked on during the NAMIC project week 2007.
 
 
 
[[Image:SlicerMatlabPipeline.png|Slicer Matlab Pipeline Schema]]
 
 
 
 
 
 
 
The Matlab scripts getSlicerVolume.m and putSlicerVolume.m use Matlab extention [http://labrosa.ee.columbia.edu/matlab/popenrw.html popen] to connect to stdout(stdin respectively) of the tcl client slicerget.tcl (slicerput.tcl respectively). The tcl client establishes a channel to the SlicerDaemon socket and requests(sends) data. Thanks to Dan Ellis for letting us incorporate the popen matlab code into Slicer.
 
 
 
The SlicerDaemon in combination with matlab scripts provided here support the exchange of scalar and tensor volumes between Slicer and Matlab that are in orientation right-anterior-superior or left-posterior-superior. DWI volumes and other orientations are not supported yet.
 
 
 
=== Basic Slicer-Matlab tutorial ===
 
Here a step by step tutorial how to send a volume from Slicer to Matlab and then from back from Matlab to Slicer:
 
 
 
* Start Slicer3 with parameter "--daemon" and load the (scalar or tensor) volume you want to send to Matlab.
 
* Start Matlab and for conveniance change into the "Matlab" subdirectory of the SlicerDaemon module in Slicer3 (something like ../Slicer3/Modules/SlicerDaemon/Matlab)
 
* Initally, the popen C functions need to be compiled for your machine (this is not handled by cmake yet). This needs to be done only once in Matlab:
 
mex popen/popenw.c
 
mex popen/popenr.c
 
* Typing the following command in Matlab, the Slicer volume named "wcase1.nhdr" will be piped into a Matlab structure called "slicer_volume":
 
slicer_volume = getSlicerVolume('wcase1.nhdr')
 
 
 
All volumes that come out of Slicer are in 'right-anterior-superior' orientation, have 'raw' encoding, and 'little' endian. Even if the original file loaded into Slicer had other header parameters.
 
 
 
The resulting Matlab strucuture will looks like this (for a scalar volume):
 
slicer_volume =
 
            content: 'wcase1.nhdr'
 
              type: 'short'
 
          dimension: 3
 
              space: 'right-anterior-superior'
 
              sizes: [256 256 124]
 
            endian: 'little'
 
          encoding: 'raw'
 
        spaceorigin: [119.5310 -92.2500 119.5310]
 
        spaceunits: {'mm'  'mm'  'mm'}
 
              kinds: {'space'  'space'  'space'}
 
              data: [256x256x124 int16]
 
    spacedirections: [3x3 double]
 
or like that (for a tensor volume):
 
slicer_volume = 
 
            content: 'helix.nhdr'
 
                type: 'float'
 
          dimension: 4
 
              space: 'right-anterior-superior'
 
              sizes: [7 64 32 12]
 
              endian: 'little'
 
            encoding: 'raw'
 
        spaceorigin: [-6.9386 -28.7554 -8.7247]
 
          spaceunits: {'"mm"'  '"mm"'  '"mm"'}
 
              kinds: {'3D-masked-symmetric-matrix'  'space'  'space'  'space'}
 
                data: [4-D single]
 
    spacedirections: [3x3 double]
 
    measurementframe: [3x3 double]
 
          centerings: {'???'  'cell'  'cell'  'cell'}
 
 
 
Instead of typing the name the volume has in Slicer, you can choose the volume by its Slicer-id. The ids are given in the order volumes are loaded in Slicer. This command fetches the volume loaded first in Slicer:
 
slicer_volume = getSlicerVolume(0)
 
 
 
 
 
* Now the volume data can be processed in Matlab. Just for example, here the volume is thresholded:
 
slicer_volume.data(slicer_volume.data > 100) = 0;
 
 
 
* By changing the field "content", the name of the volume node in Slicer will be changed:
 
slicer_volume.content='Matlab_says_hi';
 
 
 
* This command sends the volume back to Slicer:
 
putSlicerVolume(slicer_volume)
 
 
 
 
 
=== Slicer-Matlab interface and tensor data ===
 
 
 
 
 
When sending tensor data from Matlab to Slicer and vice versa, there are a couple of issues regarding tensor orientation that the user needs to be aware of.
 
If the only thing you want to do is send a tensor volume from Slicer to Matlab, do some Matlab processing, and send the volume back to Slicer, tensor orientation should not be a problem.
 
But in case you want to send tensor volumes from other sources but Slicer from Matlab to Slicer, the following needs to be considered:
 
 
 
In the original file itself, the tensor data usually lives in "diffusion-sensitizing gradient space". When loading into Slicer3 though, the tensor data automatically gets transformed into so-called IJK-space, or "Index space". This is necessary for good computational performance in Slicer3, since most ITK based filters require the data to be in ijk space.
 
When data is piped into Slicer using the SlicerDaemon, it is assumed this data is in "Index space" already, the SlicerDaemon will not do this transformation.
 
How measurement frame, space directions and the different coordinate systems are related, is depicted in this figure by Gordon Kindlemann:
 

Latest revision as of 17:35, 10 July 2017

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