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r.in.mat(1grass) | GRASS GIS User's Manual | r.in.mat(1grass) |
NAME¶
r.in.mat - Imports a binary MAT-File(v4) to a GRASS raster.
KEYWORDS¶
raster, import
SYNOPSIS¶
r.in.mat
r.in.mat --help
r.in.mat input=name [output=name]
[--overwrite] [--help] [--verbose] [--quiet]
[--ui]
Flags:¶
- --overwrite
-
Allow output files to overwrite existing files - --help
-
Print usage summary - --verbose
-
Verbose module output - --quiet
-
Quiet module output - --ui
-
Force launching GUI dialog
Parameters:¶
- input=name [required]
-
Name of input MAT-File(v4) - output=name
-
Name for output raster map (override)
DESCRIPTION¶
r.in.mat will import a GRASS raster map from a Version 4
MAT-File which was created with Matlab or Octave. Attributes such as map
title and bounds will also be imported if they exist.
Specifically, the following array variables will be read:
- map_data
- map_name
- map_title
- map_northern_edge
- map_southern_edge
- map_eastern_edge
- map_western_edge
The ’map_name’ variable is optional, if it exists, and is valid, the new map will be thus named. If it doesn’t exist or a name is specified with the output= option, the raster map’s name will be set to "MatFile" or the name specified respectively. (maximum 64 characters; normal GRASS naming rules apply)
The ’map_title’ variable is optional, the map’s title is set if it exists.
The ’map_northern_edge’ and like variables are mandatory unless the user is importing to a "XY" non-georeferenced project (e.g. imagery data). Latitude and longitude values should be in decimal form.
NOTES¶
r.in.mat imports a Version 4 MAT-File. These files can be
successfully created with more modern versions of Matlab and Octave (see
"EXAMPLES" below).
Everything should be Endian safe, so the file to be imported can be simply
copied between different system architectures without binary translation
(caveat: see "TODO" below).
As there is no IEEE value for NaN in integer arrays, GRASS’s null value
may be used to represent it within these maps. Usually Matlab will save any
integer based matrix with NaN values as a double-precision floating point
array, so this usually isn’t an issue. To save space, once the map is
loaded into GRASS you can convert it back to an integer map with the
following command:
r.mapcalc "int_map = int(MATFile_map)"
NaN values in either floating point or double-precision floating
point matrices should translate into null values as expected.
r.in.mat must load the entire map array into memory before writing,
therefore it might have problems with huge arrays. (a 3000x4000 DCELL
map uses about 100mb RAM)
GRASS defines its map bounds at the outer-edge of the bounding cells, not at
the coordinates of their centroids. Thus, the following Matlab commands may
be used to determine and check the map’s resolution information will
be correct:
[rows cols] = size(map_data)
x_range = map_eastern_edge - map_western_edge
y_range = map_northern_edge - map_southern_edge
ns_res = y_range/rows
ew_res = x_range/cols
Remember Matlab arrays are referenced as (row,column), i.e. (y,x).
In addition, r.in.mat and r.out.mat make for a nice binary
container format for transferring georeferenced maps around, even if you
don’t use Matlab or Octave.
EXAMPLES¶
In Matlab, save with:
save filename.mat map_* -v4
In Octave, save with:
save -mat4-binary filename.mat map_*
TODO¶
Robust support for mixed-Endian importation. (This is a work in
progress, please help by reporting any failures to the GRASS bug
tracking system;
Add support for importing map history, category information, color map, etc.
if they exist.
Option to import a version 5 MAT-File, with map and support information stored
in a single structured array.
KNOWN ISSUES¶
If you encounter any problems, please contact the GRASS Development Team.
SEE ALSO¶
r.out.mat, r.in.ascii, r.in.bin, r.mapcalc, r.null.
The Octave project
AUTHOR¶
Hamish Bowman
Department of Marine Science
University of Otago
New Zealand
SOURCE CODE¶
Available at: r.in.mat source code (history)
Accessed: Saturday Jul 27 17:08:10 2024
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