table of contents
| r.out.mat(1grass) | GRASS GIS User's Manual | r.out.mat(1grass) |
NAME¶
r.out.mat - Exports a GRASS raster to a binary MAT-File.
KEYWORDS¶
raster, export, output
SYNOPSIS¶
r.out.mat
r.out.mat --help
r.out.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 raster map - output=name [required]
-
Name for output binary MAT file
DESCRIPTION¶
r.out.mat will export a GRASS raster map to a MAT-File
which can be loaded into Matlab or Octave for plotting or further analysis.
Attributes such as map title and bounds will also be exported into
additional array variables.
Specifically, the following array variables are created:
- map_data
- map_name
- map_title (if it exists)
- map_northern_edge
- map_southern_edge
- map_eastern_edge
- map_western_edge
In addition, r.out.mat makes for a nice binary container format for transferring georeferenced maps around, even if you don’t use Matlab or Octave.
NOTES¶
r.out.mat exports a Version 4 MAT-File. These files should
successfully load into more modern versions of Matlab and Octave without any
problems.
Everything should be Endian safe, so the resultant file can be simply copied
between different system architectures without binary translation.
As there is no IEEE value for NaN for integer maps, GRASS’s null value
is used to represent it within these maps. You’ll have to do
something like this to clean them once the map is loaded into Matlab:
map_data(find(map_data < -1e9)) = NaN;
Null values in maps containing either floating point or
double-precision floating point data should translate into NaN values as
expected.
r.out.mat must load the entire map into memory before writing,
therefore it might have problems with huge maps. (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 the map’s resolution information:
[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
EXAMPLE¶
In Matlab, plot with either:
imagesc(map_data), axis equal, axis tight, colorbar
or
contourf(map_data, 24), axis ij, axis equal, axis tight, colorbar
TODO¶
Add support for exporting map history, category information, color
map, etc.
Option to export as a version 5 MAT-File, with map and support information
stored in a single structured array.
SEE ALSO¶
r.in.mat
r.out.ascii, r.out.bin
r.null
The Octave project
AUTHOR¶
Hamish Bowman
Department of Marine Science
University of Otago
New Zealand
SOURCE CODE¶
Available at: r.out.mat source code (history)
Accessed: Sunday Jan 22 07:36:20 2023
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