gdal_retile(1)gdal_retile(1)NAMEgdal_retile - Retiles a set of tiles and/or build tiled pyramid levels.
SYNOPSIS
gdal_retile.py [-v] [-co NAME=VALUE]* [-of out_format] [-ps pixelWidth pixelHeight]
[-overlap val_in_pixel]
[-ot {Byte/Int16/UInt16/UInt32/Int32/Float32/Float64/
CInt16/CInt32/CFloat32/CFloat64}]'
[ -tileIndex tileIndexName [-tileIndexField tileIndexFieldName]]
[ -csv fileName [-csvDelim delimiter]]
[-s_srs srs_def] [-pyramidOnly]
[-r {near/bilinear/cubic/cubicspline/lanczos}]
-levels numberoflevels
[-useDirForEachRow]
-targetDir TileDirectory input_files.fi
DESCRIPTION
This utility will retile a set of input tile(s). All the input tile(s)
must be georeferenced in the same coordinate system and have a matching
number of bands. Optionally pyramid levels are generated. It is
possible to generate shape file(s) for the tiled output.
If your number of input tiles exhausts the command line buffer, use the
general --optfile option
-targetDir directory:
The directory where the tile result is created. Pyramids are stored
in sub-directories numbered from 1. Created tile names have a
numbering schema and contain the name of the source tiles(s)-of format:
Output format, defaults to GeoTIFF (GTiff).
-co NAME=VALUE:
Creation option for output file. Multiple options can be specified.
See format specific documentation for legal creation options for
each format
-ot datatype:
Force the output image bands to have a specific type. Use type
names (i.e. Byte, Int16,...)
-ps pixelsize_x pixelsize_y:
Pixel size to be used for the output file. If not specified, 256 x
256 is the default
-overlap val_in_pixel:
(GDAL >= 2.2) Overlap in pixels between consecutive tiles. If not
specified, 0 is the default
-levels numberOfLevels:
Number of pyramids levels to build.
-v:
Generate verbose output of tile operations as they are done.
-pyramidOnly:
No retiling, build only the pyramids
-r algorithm:
Resampling algorithm, default is near
-s_srs srs_def:
Source spatial reference to use. The coordinate systems that can be
passed are anything supported by the
OGRSpatialReference.SetFromUserInput() call, which includes EPSG,
PCS, and GCSes (i.e. EPSG:4296), PROJ.4 declarations (as above), or
the name of a .prj file containing well known text. If no srs_def
is given, the srs_def of the source tiles is used (if there is
any). The srs_def will be propagated to created tiles (if possible)
and to the optional shape file(s)-tileIndex tileIndexName:
The name of shape file containing the result tile(s) index
-tileIndexField tileIndexFieldName:
The name of the attribute containing the tile name
-csv csvFileName:
The name of the csv file containing the tile(s) georeferencing
information. The file contains 5 columns:
tilename,minx,maxx,miny,maxy
-csvDelim column delimiter:
The column delimiter used in the CSV file, default value is a
semicolon ';'
-useDirForEachRow:
Normally the tiles of the base image are stored as described in
-targetDir. For large images, some file systems have performance
problems if the number of files in a directory is to big, causing
gdal_retile not to finish in reasonable time. Using this parameter
creates a different output structure. The tiles of the base image
are stored in a sub-directory called 0, the pyramids in sub-
directories numbered 1,2,.... Within each of these directories
another level of sub-directories is created, numbered from 0...n,
depending of how many tile rows are needed for each level. Finally,
a directory contains only the tiles for one row for a specific
level. For large images a performance improvement of a factor N
could be achieved.
NOTE: gdal_retile.py is a Python script, and will only work if GDAL was
built with Python support.
AUTHORS
Christian Mueller christian.mueller@nvoe.at
GDAL Sun Dec 17 2017 gdal_retile(1)