table of contents
v.rast.stats(1grass) | GRASS GIS User's Manual | v.rast.stats(1grass) |
NAME¶
v.rast.stats - Calculates univariate statistics from a raster map based on a vector map and uploads statistics to new attribute columns.
KEYWORDS¶
vector, statistics, raster, univariate statistics, zonal statistics, sampling, querying
SYNOPSIS¶
v.rast.stats
v.rast.stats --help
v.rast.stats [-cd] map=name
[layer=string] [type=string[,string,...]]
[where=sql_query] raster=name[,name,...]
column_prefix=string[,string,...]
[method=string[,string,...]]
[percentile=integer] [--help] [--verbose]
[--quiet] [--ui]
Flags:¶
Parameters:¶
- map=name [required]
-
Name of vector map
Or data source for direct OGR access - layer=string
-
Layer number or name
Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name.
Default: 1 - type=string[,string,...]
-
Input feature type
Options: point, line, boundary, centroid, area
Default: point,line,boundary,centroid,area - where=sql_query
-
WHERE conditions of SQL statement without ’where’ keyword
Example: income < 1000 and population >= 10000 - raster=name[,name,...] [required]
-
Name of input raster map to calculate statistics from - column_prefix=string[,string,...] [required]
-
Column prefix for new attribute columns - method=string[,string,...]
-
The methods to use
Options: number, null_cells, minimum, maximum, range, average, stddev, variance, coeff_var, sum, first_quartile, median, third_quartile, percentile
Default: number,null_cells,minimum,maximum,range,average,stddev,variance,coeff_var,sum,first_quartile,median,third_quartile,percentile - percentile=integer
-
Percentile to calculate
Options: 0-100
Default: 90
DESCRIPTION¶
v.rast.stats calculates basic univariate statistics from a raster map only for the parts covered by the specified vector map. The vector map will be rasterized according to the raster map resolution. Then univariate statistics are calculated per vector category (cat) from the raster map and the results uploaded to the vector map attribute table. A new column is generated in the attribute table for each statistic requested in method (if not already present).
The univariate statistics include the number of raster cells counted, the number of raster NULL cells counted, minimum and maximum cell values, range, average, standard deviation, variance, coefficient of variation, sum, first quartile, median, third quartile, and percentile.
NOTES¶
v.rast.stats is only meaningful for lines or polygons.
The module may take a long time to run if the raster region contains a large number of cells. In this case the --verbose flag may be used to track progress.
The script stops if a (prefixed) upload column is already present in the vector map attribute table, unless otherwise instructed with the -c continue flag. The column prefix will be separated from the statistic name with an underscore. For example with a prefix of "elev" the sum column will be named elev_sum.
If a DBF database is being used, note that column names are restricted by the DBF specification to 10 characters. Therefore it is advised to be economical in the use of the column prefix when using DBF as any additional characters will be chopped off.
If a MASK is present, it will be restored after the script finished. The script changes temporarily to the resolution of the given raster map.
If an area has several categories in the selected layer (equivalent to overlapping polygons in Simple Features), only one category will be kept during the rasterization process. Statistics for the skipped categories will thus be partial.
For example, if there are three areas: area 1 with cat 1, area 2 with cat 2, area 3 with cats 1, 2. Only one category value of area 3 will be used for rasterization, the other category value will be skipped. Thus statistics for the used category value will be complete, while statistics for the skipped category value will be incomplete.
Large amounts of system memory can be used when extended statistics (first_quartile,median,third_quartile,percentile ) are being requested with a very large region setting. If the region is too large the module should display memory allocation errors. Basic statistics can be calculated using any size input region.
EXAMPLES¶
Example to upload DEM statistics to ZIP codes vector map (North
Carolina sample dataset):
g.copy vect=zipcodes_wake,myzipcodes_wake # set computational region to DEM: g.region raster=elevation -p # calculate selected DEM statistics, upload to vector map table: v.rast.stats myzipcodes_wake raster=elevation \
column_prefix=elev method=minimum,maximum,average,range,stddev,percentile \
percentile=95 # verify results: v.info -c myzipcodes_wake v.db.select myzipcodes_wake v.univar myzipcodes_wake column=elev_range type=centroid
SEE ALSO¶
r.univar, v.univar, v.vect.stats, v.what.rast, v.what.rast3, v.what.vect
AUTHOR¶
Markus Neteler, CEA (for the EDEN EU/FP6 Project)
SOURCE CODE¶
Available at: v.rast.stats source code (history)
Accessed: Sunday Jan 22 07:37:44 2023
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