AFNI program: SurfRetinoMap
Output of -help
Usage: SurfRetinoMap <SURFACE> <-input POLAR ECCENTRICITY>
[<-prefix PREFIX>] [<-node_dbg NODE>]
<SURFACE> : Surface on which distances are computed.
(For option's syntax, see
'Specifying input surfaces' section below).
<-input POLAR ECCENTRICITY>: Retinotopic datasets.
POLAR is the polar angle dataset.
ECCENTRICITY is the eccentricity angle dataset.
Those datasets are produced by 3dRetinoPhase.
If the datasets are produced outside of 3dRetinoPhase, note that
The angle data is to be in the [0] sub-brick, and a thresholding
parameter, if any, is to be in the [2] sub-brick.
[<-node_dbg NODE>]: Index of node number for which debugging
information is output.
[<-prefix PREFIX>]: Prefix for output datasets.
The program outputs the Visual Field Ratio (VFR),
the sign of which is used to differentiate between
adjacent areas.
VFR computations based on paper by Warnking et al. Neuroimage 17, (2002)
'FMRI Retinotopic Mapping - Step by Step
A note on the output thresholding sub-brick:
In addition to VFR, you get a maximum threshold
sub-brick which retains the highest threshold at
each node in input datasets. This thresholding
parameter is like a union mask of input data
thresholded at the same level.
The signficance value is not provided on purpose.
I don't know of a good way to compute it, but
it serves its function or wedding out low SNR nodes.
Specifying input surfaces using -i or -i_TYPE options:
-i_TYPE inSurf specifies the input surface,
TYPE is one of the following:
fs: FreeSurfer surface.
If surface name has .asc it is assumed to be
in ASCII format. Otherwise it is assumed to be
in BINARY_BE (Big Endian) format.
Patches in Binary format cannot be read at the moment.
sf: SureFit surface.
You must specify the .coord followed by the .topo file.
vec (or 1D): Simple ascii matrix format.
You must specify the coord (NodeList) file followed by
the topo (FaceSetList) file.
coord contains 3 floats per line, representing
X Y Z vertex coordinates.
topo contains 3 ints per line, representing
v1 v2 v3 triangle vertices.
ply: PLY format, ascii or binary.
Only vertex and triangulation info is preserved.
mni: MNI .obj format, ascii only.
Only vertex, triangulation, and node normals info is preserved.
byu: BYU format, ascii.
Polygons with more than 3 edges are turned into
triangles.
bv: BrainVoyager format.
Only vertex and triangulation info is preserved.
dx: OpenDX ascii mesh format.
Only vertex and triangulation info is preserved.
Requires presence of 3 objects, the one of class
'field' should contain 2 components 'positions'
and 'connections' that point to the two objects
containing node coordinates and topology, respectively.
gii: GIFTI XML surface format.
Note that if the surface filename has the proper extension,
it is enough to use the -i option and let the programs guess
the type from the extension.
-onestate: Make all -i_* surfaces have the same state, i.e.
they all appear at the same time in the viewer.
By default, each -i_* surface has its own state.
For -onestate to take effect, it must precede all -i
options with on the command line.
-anatomical: Label all -i surfaces as anatomically correct.
Again, this option should precede the -i_* options.
Specifying a surface specification (spec) file:
-spec SPEC: specify the name of the SPEC file.
Specifying a surface using -surf_? method:
-surf_A SURFACE: specify the name of the first
surface to load. If the program requires
or allows multiple surfaces, use -surf_B
... -surf_Z .
You need not use _A if only one surface is
expected.
SURFACE is the name of the surface as specified
in the SPEC file. The use of -surf_ option
requires the use of -spec option.
Specifying output surfaces using -o or -o_TYPE options:
-o_TYPE outSurf specifies the output surface,
TYPE is one of the following:
fs: FreeSurfer ascii surface.
fsp: FeeSurfer ascii patch surface.
In addition to outSurf, you need to specify
the name of the parent surface for the patch.
using the -ipar_TYPE option.
This option is only for ConvertSurface
sf: SureFit surface.
For most programs, you are expected to specify prefix:
i.e. -o_sf brain. In some programs, you are allowed to
specify both .coord and .topo file names:
i.e. -o_sf XYZ.coord TRI.topo
The program will determine your choice by examining
the first character of the second parameter following
-o_sf. If that character is a '-' then you have supplied
a prefix and the program will generate the coord and topo names.
vec (or 1D): Simple ascii matrix format.
For most programs, you are expected to specify prefix:
i.e. -o_1D brain. In some programs, you are allowed to
specify both coord and topo file names:
i.e. -o_1D brain.1D.coord brain.1D.topo
coord contains 3 floats per line, representing
X Y Z vertex coordinates.
topo contains 3 ints per line, representing
v1 v2 v3 triangle vertices.
ply: PLY format, ascii or binary.
byu: BYU format, ascii or binary.
mni: MNI obj format, ascii only.
gii: GIFTI format, ascii.
You can also enforce the encoding of data arrays
by using gii_asc, gii_b64, or gii_b64gz for
ASCII, Base64, or Base64 Gzipped.
If AFNI_NIML_TEXT_DATA environment variable is set to YES, the
the default encoding is ASCII, otherwise it is Base64.
Note that if the surface filename has the proper extension,
it is enough to use the -o option and let the programs guess
the type from the extension.
SUMA dataset input options:
-input DSET: Read DSET1 as input.
In programs accepting multiple input datasets
you can use -input DSET1 -input DSET2 or
input DSET1 DSET2 ...
NOTE: Selecting subsets of a dataset:
Much like in AFNI, you can select subsets of a dataset
by adding qualifiers to DSET.
Append #SEL# to select certain nodes.
Append [SEL] to select certain columns.
Append {SEL} to select certain rows.
The format of SEL is the same as in AFNI, see section:
'INPUT DATASET NAMES' in 3dcalc -help for details.
Append [i] to get the node index column from
a niml formatted dataset.
* SUMA does not preserve the selection order
for any of the selectors.
For example:
dset[44,10..20] is the same as dset[10..20,44]
Also, duplicate values are not supported.
so dset[13, 13] is the same as dset[13].
I am not proud of these limitations, someday I'll get
around to fixing them.
SUMA mask options:
-n_mask INDEXMASK: Apply operations to nodes listed in
INDEXMASK only. INDEXMASK is a 1D file.
-b_mask BINARYMASK: Similar to -n_mask, except that the BINARYMASK
1D file contains 1 for nodes to filter and
0 for nodes to be ignored.
The number of rows in filter_binary_mask must be
equal to the number of nodes forming the
surface.
-c_mask EXPR: Masking based on the result of EXPR.
Use like afni's -cmask options.
See explanation in 3dmaskdump -help
and examples in output of 3dVol2Surf -help
NOTE: Unless stated otherwise, if n_mask, b_mask and c_mask
are used simultaneously, the resultant mask is the intersection
(AND operation) of all masks.
SUMA communication options:
-talk_suma: Send progress with each iteration to SUMA.
-refresh_rate rps: Maximum number of updates to SUMA per second.
The default is the maximum speed.
-send_kth kth: Send the kth element to SUMA (default is 1).
This allows you to cut down on the number of elements
being sent to SUMA.
-sh <SumaHost>: Name (or IP address) of the computer running SUMA.
This parameter is optional, the default is 127.0.0.1
-ni_text: Use NI_TEXT_MODE for data transmission.
-ni_binary: Use NI_BINARY_MODE for data transmission.
(default is ni_binary).
-feed_afni: Send updates to AFNI via SUMA's talk.
-np PORT_OFFSET: Provide a port offset to allow multiple instances of
AFNI <--> SUMA, AFNI <--> 3dGroupIncorr, or any other
programs that communicate together to operate on the same
machine.
All ports are assigned numbers relative to PORT_OFFSET.
The same PORT_OFFSET value must be used on all programs
that are to talk together. PORT_OFFSET is an integer in
the inclusive range [1025 to 65500].
When you want to use multiple instances of communicating programs,
be sure the PORT_OFFSETS you use differ by about 50 or you may
still have port conflicts. A BETTER approach is to use -npb below.
-npq PORT_OFFSET: Like -np, but more quiet in the face of adversity.
-npb PORT_OFFSET_BLOC: Simliar to -np, except it is easier to use.
PORT_OFFSET_BLOC is an integer between 0 and
MAX_BLOC. MAX_BLOC is around 4000 for now, but
it might decrease as we use up more ports in AFNI.
You should be safe for the next 10 years if you
stay under 2000.
Using this function reduces your chances of causing
port conflicts.
See also afni and suma options: -list_ports and -port_number for
information about port number assignments.
You can also provide a port offset with the environment variable
AFNI_PORT_OFFSET. Using -np overrides AFNI_PORT_OFFSET.
-max_port_bloc: Print the current value of MAX_BLOC and exit.
Remember this value can get smaller with future releases.
Stay under 2000.
-max_port_bloc_quiet: Spit MAX_BLOC value only and exit.
-num_assigned_ports: Print the number of assigned ports used by AFNI
then quit.
-num_assigned_ports_quiet: Do it quietly.
Port Handling Examples:
-----------------------
Say you want to run three instances of AFNI <--> SUMA.
For the first you just do:
suma -niml -spec ... -sv ... &
afni -niml &
Then for the second instance pick an offset bloc, say 1 and run
suma -niml -npb 1 -spec ... -sv ... &
afni -niml -npb 1 &
And for yet another instance:
suma -niml -npb 2 -spec ... -sv ... &
afni -niml -npb 2 &
etc.
Since you can launch many instances of communicating programs now,
you need to know wich SUMA window, say, is talking to which AFNI.
To sort this out, the titlebars now show the number of the bloc
of ports they are using. When the bloc is set either via
environment variables AFNI_PORT_OFFSET or AFNI_PORT_BLOC, or
with one of the -np* options, window title bars change from
[A] to [A#] with # being the resultant bloc number.
In the examples above, both AFNI and SUMA windows will show [A2]
when -npb is 2.
[-novolreg]: Ignore any Rotate, Volreg, Tagalign,
or WarpDrive transformations present in
the Surface Volume.
[-noxform]: Same as -novolreg
[-setenv "'ENVname=ENVvalue'"]: Set environment variable ENVname
to be ENVvalue. Quotes are necessary.
Example: suma -setenv "'SUMA_BackgroundColor = 1 0 1'"
See also options -update_env, -environment, etc
in the output of 'suma -help'
Common Debugging Options:
[-trace]: Turns on In/Out debug and Memory tracing.
For speeding up the tracing log, I recommend
you redirect stdout to a file when using this option.
For example, if you were running suma you would use:
suma -spec lh.spec -sv ... > TraceFile
This option replaces the old -iodbg and -memdbg.
[-TRACE]: Turns on extreme tracing.
[-nomall]: Turn off memory tracing.
[-yesmall]: Turn on memory tracing (default).
NOTE: For programs that output results to stdout
(that is to your shell/screen), the debugging info
might get mixed up with your results.
Global Options (available to all AFNI/SUMA programs)
-overwrite: Overwrite existing output dataset.
Equivalent to setting env. AFNI_DECONFLICT=OVERWRITE
-ok_1D_text: Zero out uncommented text in 1D file.
Equivalent to setting env. AFNI_1D_ZERO_TEXT=YES
-Dname=val: Set environment variable 'name' to value 'val'
For example: -DAFNI_1D_ZERO_TEXT=YES
-Vname=: Print value of environment variable 'name' to stdout and quit.
This is more reliable that the shell's env query because it would
include envs set in .afnirc files and .sumarc files for SUMA
programs.
For example: -VAFNI_1D_ZERO_TEXT=
-all_opts: Try to identify all options for the program from the
output of its -help option. Some options might be missed
and others misidentified. Use this output for hints only.
-h_find WORD: Look for lines in this programs's -help output that match
(approximately) WORD.
-h_view: Open help in text editor. AFNI will try to find a GUI editor
on your machine. You can control which it should use by
setting environment variable AFNI_GUI_EDITOR.
-h_web: Open help in web browser. AFNI will try to find a browser
on your machine. You can control which it should use by
setting environment variable AFNI_GUI_EDITOR.
-skip_afnirc: Do not read the afni resource (like ~/.afnirc) file.
-pad_to_node NODE: Output a full dset from node 0 to MAX_NODE-1
** Instead of directly setting NODE to an integer you
can set NODE to something like:
ld120 (or rd17) which sets NODE to be the maximum
node index on an Icosahedron with -ld 120. See
CreateIcosahedron for details.
d:DSET.niml.dset which sets NODE to the maximum node found
in dataset DSET.niml.dset.
** This option is for surface-based datasets only.
Some programs may not heed it, so check the output if
you are not sure.
-pif SOMETHING: Does absolutely nothing but provide for a convenient
way to tag a process and find it in the output of ps -a
-echo_edu: Echos the entire command line to stdout (without -echo_edu)
for edification purposes
Compile Date:
May 31 2013
Ziad S. Saad SSCC/NIMH/NIH saadz@mail.nih.gov
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