gdalwarp

image reprojection and warping utility

SYNOPSIS

Usage:
gdalwarp [--help-general] [--formats]
    [-s_srs srs_def] [-t_srs srs_def] [-to "NAME=VALUE"]
    [-order n] [-tps] [-rpc] [-geoloc] [-et err_threshold]
    [-te xmin ymin xmax ymax] [-tr xres yres] [-ts width height]
    [-wo "NAME=VALUE"] [-ot Byte/Int16/...] [-wt Byte/Int16]
    [-srcnodata "value [value...]"] [-dstnodata "value [value...]"] -dstalpha
    [-r resampling_method] [-wm memory_in_mb] [-multi] [-q]
    [-cutline datasource] [-cl layer] [-cwhere expression]
    [-csql statement] [-cblend dist_in_pixels]
    [-of format] [-co "NAME=VALUE"]*
    srcfile* dstfile

DESCRIPTION

The gdalwarp utility is an image mosaicing, reprojection and warping utility. The program can reproject to any supported projection, and can also apply GCPs stored with the image if the image is "raw" with control information.

-s_srs srs def:
source spatial reference set. The coordinate systems that can be passed are anything supported by the OGRSpatialReference.SetFromUserInput() call, which includes EPSG PCS and GCSes (ie. EPSG:4296), PROJ.4 declarations (as above), or the name of a .prf file containing well known text.
-t_srs srs_def:
target spatial reference set. The coordinate systems that can be passed are anything supported by the OGRSpatialReference.SetFromUserInput() call, which includes EPSG PCS and GCSes (ie. EPSG:4296), PROJ.4 declarations (as above), or the name of a .prf file containing well known text.
-to NAME=VALUE:
set a transformer option suitable to pass to GDALCreateGenImgProjTransformer2().
-order n:
order of polynomial used for warping (1 to 3). The default is to select a polynomial order based on the number of GCPs.
-tps:
Force use of thin plate spline transformer based on available GCPs.
-rpc:
Force use of RPCs.
-geoloc:
Force use of Geolocation Arrays.
-et err_threshold:
error threshold for transformation approximation (in pixel units - defaults to 0.125).
-te xmin ymin xmax ymax:
set georeferenced extents of output file to be created (in target SRS).
-tr xres yres:
set output file resolution (in target georeferenced units)
-ts width height:
set output file size in pixels and lines
-wo "NAME=VALUE":
Set a warp options. The GDALWarpOptions::papszWarpOptions docs show all options. Multiple -wo options may be listed.
-ot type:
For the output bands to be of the indicated data type.
-wt type:
Working pixel data type. The data type of pixels in the source image and destination image buffers.
-r resampling_method:
Resampling method to use. Available methods are:
near:
nearest neighbour resampling (default, fastest algorithm, worst interpolation quality).
bilinear:
bilinear resampling.
cubic:
cubic resampling.
cubicspline:
cubic spline resampling.
lanczos:
Lanczos windowed sinc resampling.
-srcnodata value [value...]:
Set nodata masking values for input bands (different values can be supplied for each band). If more than one value is supplied all values should be quoted to keep them together as a single operating system argument. Masked values will not be used in interpolation. Use a value of None to ignore intrinsic nodata settings on the source dataset.
-dstnodata value [value...]:
Set nodata values for output bands (different values can be supplied for each band). If more than one value is supplied all values should be quoted to keep them together as a single operating system argument. New files will be initialized to this value and if possible the nodata value will be recorded in the output file.
-dstalpha:
Create an output alpha band to identify nodata (unset/transparent) pixels.
-wm memory_in_mb:
Set the amount of memory (in megabytes) that the warp API is allowed to use for caching.
-multi:
Use multithreaded warping implementation. Multiple threads will be used to process chunks of image and perform input/output operation simultaneously.
-q:
Be quiet.
-of format:
Select the output format. The default is GeoTIFF (GTiff). Use the short format name.
-co "NAME=VALUE":

passes a creation option to the output format driver. Multiple -co options may be listed. See format specific documentation for legal creation options for each format.

-cutline datasource:
Enable use of a blend cutline from the name OGR support datasource.
-cl layername:
Select the named layer from the cutline datasource.
-cwhere expression:
Restrict desired cutline features based on attribute query.
-csql query:
Select cutline features using an SQL query instead of from a layer with -cl.
-cblend distance:

Set a blend distance to use to blend over cutlines (in pixels).

srcfile:
The source file name(s).
dstfile:
The destination file name.

Mosaicing into an existing output file is supported if the output file already exists. The spatial extent of the existing file will not be modified to accomodate new data, so you may have to remove it in that case.

Polygon cutlines may be used to restrict the the area of the destination file that may be updated, including blending. Cutline features must be in the georeferenced units of the destination file.

EXAMPLE

For instance, an eight bit spot scene stored in GeoTIFF with control points mapping the corners to lat/long could be warped to a UTM projection with a command like this:

gdalwarp -t_srs '+proj=utm +zone=11 +datum=WGS84' raw_spot.tif utm11.tif

For instance, the second channel of an ASTER image stored in HDF with control points mapping the corners to lat/long could be warped to a UTM projection with a command like this:

gdalwarp HDF4_SDS:ASTER_L1B:"pg-PR1B0000-2002031402_100_001":2 pg-PR1B0000-2002031402_100_001_2.tif

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