grdblend¶
Blend several partially overlapping grids into one larger grid
Synopsis¶
gmt grdblend [ blendfile | grid1 grid2 … ] -Goutgrid -Iincrement -Rregion [ -Cf|l|o|u[+n|p] ] [ -Nnodata ] [ -Q ] [ -Zscale ] [ -V[level] ] [ -W[z] ] [ -fflags ] [ -nflags ] [ -rreg ] [ --PAR=value ]
Note: No space is allowed between the option flag and the associated arguments.
Description¶
grdblend reads a listing of grid files and blend parameters and creates a binary grid file by blending the other grids using cosine-taper weights. grdblend will report if some of the nodes are not filled in with data. Such unconstrained nodes are set to a value specified by the user [Default is NaN]. Nodes with more than one value will be set to the weighted average value. Any input grid that does not share the final output grid’s node registration and grid spacing will automatically be resampled via calls to grdsample. Note: Due to the row-by-row i/o nature of operations in grdblend we only support the netCDF and native binary grid formats for both input and output.
Required Arguments¶
- blendfile
ASCII file with one record per grid file to include in the blend. Each record may contain up to three items, separated by spaces or tabs: the gridfile name (required), the -R-setting for the interior region (optional), and the relative weight wr (optional). In the combined weighting scheme, this grid will be given zero weight outside its domain, weight = wr inside the interior region, and a 2-D cosine-tapered weight between those end-members in the boundary strip. However, if a negative wr is given then the sense of tapering is inverted (i.e., zero weight inside its domain). If the inner region should instead exactly match the grid region then specify a - instead of the -R-setting, or leave it off entirely. Likewise, if a weight wr is not specified we default to a weight of 1. If the ASCII blendfile file is not given grdblend will read standard input. Alternatively, if you have more than one grid file to blend and you wish (a) all input grids to have the same weight (1) and (b) all grids should use their actual region as the interior region, then you may simply list all the grids on the command line instead of providing a blendfile. You must specify at least 2 input grids for this mechanism to work. Any grid that is not co-registered with the desired output layout implied by -R, -I (and -rreg) will first be resampled via grdsample. Also, grids that are not in netCDF or native binary format will first be reformatted via grdconvert.
- -Goutgrid
outgrid is the name of the binary output grid file. (See Grid File Formats). Only netCDF and native binary grid formats are can be written directly. Other output format choices will be handled by reformatting the output once blending is complete.
- -Ixinc[+e|n][/yinc[+e|n]]
x_inc [and optionally y_inc] is the grid spacing. Geographical (degrees) coordinates: Optionally, append a increment unit. Choose among m to indicate arc minutes or s to indicate arc seconds. If one of the units e, f, k, M, n or u is appended instead, the increment is assumed to be given in meter, foot, km, Mile, nautical mile or US survey foot, respectively, and will be converted to the equivalent degrees longitude at the middle latitude of the region (the conversion depends on PROJ_ELLIPSOID). If y_inc is given but set to 0 it will be reset equal to x_inc; otherwise it will be converted to degrees latitude. All coordinates: If +e is appended then the corresponding max x (east) or y (north) may be slightly adjusted to fit exactly the given increment [by default the increment may be adjusted slightly to fit the given domain]. Finally, instead of giving an increment you may specify the number of nodes desired by appending +n to the supplied integer argument; the increment is then recalculated from the number of nodes, the registration, and the domain. The resulting increment value depends on whether you have selected a gridline-registered or pixel-registered grid; see GMT File Formats for details. Note: If -Rgrdfile is used then the grid spacing and the registration have already been initialized; use -I and -r to override these values.
- -Rxmin/xmax/ymin/ymax[+r][+uunit]
Specify the region of interest. (See full description) (See cookbook information).
Optional Arguments¶
- -Cf|l|o|u[+n|p]
Clobber mode: Instead of blending, simply pick the value of one of the grids that covers a node. Select from the following modes: f for the first grid to visit a node; o for the last grid to visit a node; l for the grid with the lowest value, and u for the grid with the uppermost value. For modes f and o the ordering of grids in the blendfile will dictate which grid contributes to the final result. Weights and cosine tapering are not considered when clobber mode is active. Optionally, append +p or +n. Then, we always initialize output to equal the first grid but then for subsequent grids we only consider them in the decision if the values are >= 0 or <= 0, respectively.
- -Nnodata
No data. Set nodes with no input grid to this value [Default is NaN].
- -Q
Create plain header-less grid file (for use with external tools). Requires that the output grid file is a native format (i.e., not netCDF).
- -V[level]
Select verbosity level [w]. (See full description) (See cookbook information).
- -W[z]
Do not blend, just output the weights used for each node [Default makes the blend]. Append z to write the weight*z sum instead.
- -Zscale
Scale output values by scale before writing to file. [1].
- -f[i|o]colinfo (more …)
Specify data types of input and/or output columns.
- -n[b|c|l|n][+a][+bBC][+c][+tthreshold] (more …)
Select interpolation mode for grids.
- -r[g|p] (more …)
Set node registration [gridline].
- -^ or just -
Print a short message about the syntax of the command, then exit (NOTE: on Windows just use -).
- -+ or just +
Print an extensive usage (help) message, including the explanation of any module-specific option (but not the GMT common options), then exit.
- -? or no arguments
Print a complete usage (help) message, including the explanation of all options, then exit.
- --PAR=value
Temporarily override a GMT default setting; repeatable. See gmt.conf for parameters.
Geographical And Time Coordinates¶
When the output grid type is netCDF, the coordinates will be labeled “longitude”, “latitude”, or “time” based on the attributes of the input data or grid (if any) or on the -f or -R options. For example, both -f0x -f1t and -R90w/90e/0t/3t will result in a longitude/time grid. When the x, y, or z coordinate is time, it will be stored in the grid as relative time since epoch as specified by TIME_UNIT and TIME_EPOCH in the gmt.conf file or on the command line. In addition, the unit attribute of the time variable will indicate both this unit and epoch.
Tapering¶
While the weights computed are tapered from 1 to 0, we are computing weighted averages, so if there is only a single grid given then the weighted output will be identical to the input. If you are looking for a way to taper your data grid, see grdmath’s TAPER operator.
Examples¶
Note: Below are some examples of valid syntax for this module.
The examples that use remote files (file names starting with @
)
can be cut and pasted into your terminal for testing.
Other commands requiring input files are just dummy examples of the types
of uses that are common but cannot be run verbatim as written.
To create a grid file from the four grid files piece_?.nc, giving them each the different weights, make the blendfile like this
piece_1.nc -R<subregion_1> 1 piece_2.nc -R<subregion_2> 1.5 piece_3.nc -R<subregion_3> 0.9 piece_4.nc -R<subregion_4> 1
Then run
gmt grdblend blend.job -Gblend.nc -R<full_region> -I<dx/dy> -V
To blend all the grids called MB_*.nc given them all equal weight, try
gmt grdblend MB_*.nc -Gblend.nc -R<full_region> -I<dx/dy> -V
Warning on large file sets¶
While grdblend can process any number of files, it works by keeping those files open that are being blended, and close files as soon as they are finished. Depending on your session, many files may remain open at the same time. Some operating systems set fairly modest default limits on how many concurrent files can be open, e.g., 256. If you run into this problem then you can change this limit; see your operating system documentation for how to change system limits.