Provided by: gdal-bin_3.4.1+dfsg-1build4_amd64 bug

NAME

       gdalwarp - Image reprojection and warping utility.

SYNOPSIS

          gdalwarp [--help-general] [--formats]
              [-s_srs srs_def] [-t_srs srs_def] [-ct string] [-to "NAME=VALUE"]* [-vshift | -novshift]
              [[-s_coord_epoch epoch] | [-t_coord_epoch epoch]]
              [-order n | -tps | -rpc | -geoloc] [-et err_threshold]
              [-refine_gcps tolerance [minimum_gcps]]
              [-te xmin ymin xmax ymax] [-te_srs srs_def]
              [-tr xres yres] [-tap] [-ts width height]
              [-ovr level|AUTO|AUTO-n|NONE] [-wo "NAME=VALUE"] [-ot Byte/Int16/...] [-wt Byte/Int16]
              [-srcnodata "value [value...]"] [-dstnodata "value [value...]"]
              [-srcalpha|-nosrcalpha] [-dstalpha]
              [-r resampling_method] [-wm memory_in_mb] [-multi] [-q]
              [-cutline datasource] [-cl layer] [-cwhere expression]
              [-csql statement] [-cblend dist_in_pixels] [-crop_to_cutline]
              [-if format]* [-of format] [-co "NAME=VALUE"]* [-overwrite]
              [-nomd] [-cvmd meta_conflict_value] [-setci] [-oo NAME=VALUE]*
              [-doo 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>
              Set  source  spatial reference. If not specified the SRS found in the input dataset
              will be used.

              The coordinate reference systems that can be passed are anything supported  by  the
              OGRSpatialReference.SetFromUserInput()   call,   which   includes  EPSG  Projected,
              Geographic  or  Compound  CRS  (i.e.  EPSG:4296),  a  well  known  text  (WKT)  CRS
              definition,  PROJ.4  declarations,  or the name of a .prj file containing a WKT CRS
              definition.

              Starting with GDAL 2.2, if the SRS has an explicit vertical datum that points to  a
              PROJ.4  geoidgrids,  and  the  input  dataset  is a single band dataset, a vertical
              correction will be applied to the values of the dataset.

       -s_coord_epoch <epoch>
              New in version 3.4.

              Assign a coordinate epoch, linked with the source SRS. Useful when the  source  SRS
              is a dynamic CRS. Only taken into account if -s_srs is used.

              Currently  -s_coord_epoch and -t_coord_epoch are mutually exclusive, due to lack of
              support for transformations between two dynamic CRS.

       -t_srs <srs_def>
              Set target spatial reference.

              A source SRS must be available for reprojection to occur. The source SRS will be by
              default  the  one found in the input dataset when it is available, or as overridden
              by the user with -s_srs

              The coordinate reference systems that can be passed are anything supported  by  the
              OGRSpatialReference.SetFromUserInput()   call,   which   includes  EPSG  Projected,
              Geographic  or  Compound  CRS  (i.e.  EPSG:4296),  a  well  known  text  (WKT)  CRS
              definition,  PROJ.4  declarations,  or the name of a .prj file containing a WKT CRS
              definition.

              Starting with GDAL 2.2, if the SRS has an explicit vertical datum that points to  a
              PROJ.4  geoidgrids,  and  the  input  dataset  is a single band dataset, a vertical
              correction will be applied to the values of the dataset.

       -t_coord_epoch <epoch>
              New in version 3.4.

              Assign a coordinate epoch, linked with the target SRS. Useful when the  target  SRS
              is a dynamic CRS. Only taken into account if -t_srs is used.

              Currently  -s_coord_epoch and -t_coord_epoch are mutually exclusive, due to lack of
              support for transformations between two dynamic CRS.

       -ct <string>
              A PROJ string  (single  step  operation  or  multiple  step  string  starting  with
              +proj=pipeline),   a   WKT2   string   describing   a   CoordinateOperation,  or  a
              urn:ogc:def:coordinateOperation:EPSG::XXXX    URN    overriding     the     default
              transformation  from  the  source  to the target CRS. It must take into account the
              axis order of the source and target CRS.

              New in version 3.0.

       -to <NAME=VALUE>
              Set a transformer option suitable to pass to GDALCreateGenImgProjTransformer2().

       -vshift
              Force the use of vertical shift. This option is  generally  not  necessary,  except
              when  using  an  explicit  coordinate  transformation  (-ct), and not specifying an
              explicit source and target SRS.

              New in version 3.4.

       -novshift
              Disable the use of vertical shift when one of the  source  or  target  SRS  has  an
              explicit vertical datum, and the input dataset is a single band dataset.

              NOTE:
                 this option was named -novshiftgrid in GDAL 2.2 to 3.3.

              New in version 3.4.

       -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,  unless, starting with GDAL 2.1, the RPC_DEM warping option is specified, in
              which case, an exact transformer, i.e.  err_threshold=0, will be used).

       -refine_gcps <tolerance minimum_gcps>
              Refines  the  GCPs  by  automatically  eliminating  outliers.   Outliers  will   be
              eliminated  until  minimum_gcps  are left or when no outliers can be detected.  The
              tolerance is passed to adjust  when  a  GCP  will  be  eliminated.   Not  that  GCP
              refinement  only  works  with  polynomial interpolation.  The tolerance is in pixel
              units if no projection is available, otherwise it is in SRS units.  If minimum_gcps
              is not provided, the minimum GCPs according to the polynomial model is used.

       -te <xmin ymin xmax ymax>
              Set  georeferenced  extents of output file to be created (in target SRS by default,
              or in the SRS specified with -te_srs)

       -te_srs <srs_def>
              Specifies the SRS in which  to  interpret  the  coordinates  given  with  -te.  The
              <srs_def> may be any of the usual GDAL/OGR forms, complete WKT, PROJ.4, EPSG:n or a
              file containing the WKT.  This must not be confused with -t_srs which is the target
              SRS  of  the  output dataset. -te_srs is a convenience e.g. when knowing the output
              coordinates in a geodetic long/lat SRS, but still wanting a result in  a  projected
              coordinate system.

       -tr <xres> <yres>
              Set output file resolution (in target georeferenced units).

              If  not  specified  (or  not  deduced  from -te and -ts), gdalwarp will generate an
              output raster with xres=yres, and that even when using gdalwarp  in  scenarios  not
              involving reprojection.

       -tap   (target  aligned  pixels) align the coordinates of the extent of the output file to
              the values of the -tr, such that the aligned extent includes the minimum extent.

       -ts <width> <height>
              Set output file size in pixels and lines. If width or height is set to 0, the other
              dimension  will  be  guessed  from the computed resolution. Note that -ts cannot be
              used with -tr

       -ovr <level|AUTO|AUTO-n|NONE>
              To specify which overview level of source files must be used. The  default  choice,
              AUTO,  will select the overview level whose resolution is the closest to the target
              resolution. Specify an integer value (0-based, i.e. 0=1st overview level) to select
              a  particular level. Specify AUTO-n where n is an integer greater or equal to 1, to
              select an overview level below the AUTO one. Or specify  NONE  to  force  the  base
              resolution  to  be  used (can be useful if overviews have been generated with a low
              quality resampling  method,  and  the  warping  is  done  using  a  higher  quality
              resampling method).

       -wo `"NAME=VALUE"`
              Set  a  warp  option.  The GDALWarpOptions::papszWarpOptions docs show all options.
              Multiple -wo options may be listed.

       -ot <type>
              Force the output image bands to have a specific data type supported by the  driver,
              which  may  be  one  of the following: Byte, UInt16, Int16, UInt32, Int32, Float32,
              Float64, CInt16, CInt32, CFloat32 or CFloat64.

       -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.

              average: average resampling,  computes  the  weighted  average  of  all  non-NODATA
              contributing pixels.

              rms  root  mean square / quadratic mean of all non-NODATA contributing pixels (GDAL
              >= 3.3)

              mode: mode resampling, selects the value  which  appears  most  often  of  all  the
              sampled points.

              max: maximum resampling, selects the maximum value from all non-NODATA contributing
              pixels.

              min: minimum resampling, selects the minimum value from all non-NODATA contributing
              pixels.

              med:  median  resampling,  selects  the median value of all non-NODATA contributing
              pixels.

              q1: first quartile resampling, selects the first quartile value of  all  non-NODATA
              contributing pixels.

              q3:  third  quartile resampling, selects the third quartile value of all non-NODATA
              contributing pixels.

              sum: compute the weighted sum of all non-NODATA  contributing  pixels  (since  GDAL
              3.1)

       -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.

              When  this  option  is  set  to  a non-None value, it causes the UNIFIED_SRC_NODATA
              warping option (see GDALWarpOptions::papszWarpOptions) to be set to YES, if  it  is
              not explicitly set.

              If -srcnodata is not explicitly set, but the source dataset has nodata values, they
              will be taken into account, with UNIFIED_SRC_NODATA at PARTIAL by default.

       -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.
              Use a value of None to ensure that nodata is not defined.  If this argument is  not
              used then nodata values will be copied from the source dataset.

       -srcalpha
              Force the last band of a source image to be considered as a source alpha band.

       -nosrcalpha
              Prevent  the  alpha  band  of  a  source image to be considered as such (it will be
              warped as a regular band)

              New in version 2.2.

       -dstalpha
              Create an output alpha band to identify nodata (unset/transparent) pixels.

       -wm <memory_in_mb>
              Set the amount of memory that the warp API is allowed to use for caching. The value
              is  interpreted  as  being in megabytes if the value is less than 10000. For values
              >=10000, this is interpreted as bytes.

       -multi Use multithreaded warping implementation.  Two threads  will  be  used  to  process
              chunks  of  image  and  perform  input/output  operation  simultaneously. Note that
              computation is  not  multithreaded  itself.  To  do  that,  you  can  use  the  -wo
              NUM_THREADS=val/ALL_CPUS option, which can be combined with -multi

       -q     Be quiet.

       -if <format>
              Format/driver  name  to be attempted to open the input file(s). It is generally not
              necessary to specify it, but it can be used to  skip  automatic  driver  detection,
              when  it  fails  to  select  the  appropriate  driver.  This option can be repeated
              several times to specify several candidate drivers.

              New in version 3.2.

       -of <format>
              Select the output format. Starting with GDAL 2.3, if not specified, the  format  is
              guessed from the extension (previously was GTiff). Use the short format name.

       -co <NAME=VALUE>
              Many formats have one or more optional creation options that can be used to control
              particulars about the file created.  For  instance,  the  GeoTIFF  driver  supports
              creation options to control compression, and whether the file should be tiled.

              The  creation options available vary by format driver, and some simple formats have
              no creation options at all. A list of options supported for a format can be  listed
              with  the --formats command line option but the documentation for the format is the
              definitive source of information on driver creation  options.   See  raster_drivers
              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).

       -crop_to_cutline
              Crop the extent of the target dataset to the extent of the cutline.

       -overwrite
              Overwrite the target dataset if it already exists.

       -nomd  Do  not  copy  metadata. Without this option, dataset and band metadata (as well as
              some band information) will be copied from the first source  dataset.   Items  that
              differ between source datasets will be set to * (see -cvmd option).

       -cvmd <meta_conflict_value>
              Value to set metadata items that conflict between source datasets (default is "*").
              Use "" to remove conflicting items.

       -setci Set the color interpretation of the bands of the target  dataset  from  the  source
              dataset.

       -oo <NAME=VALUE>
              Dataset open option (format specific)

       -doo <NAME=VALUE>
              Output dataset open option (format specific)

              New in version 2.1.

       <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 accommodate new data,  so  you
       may have to remove it in that case, or use the -overwrite option.

       Polygon  cutlines  may be used as a mask to restrict the area of the destination file that
       may be updated, including blending.  If the OGR layer containing the cutline features  has
       no  explicit  SRS,  the  cutline features must be in the SRS of the destination file. When
       writing to a not yet existing target dataset, its extent will be the one of  the  original
       raster unless -te or -crop_to_cutline are specified.

       Starting with GDAL 3.1, it is possible to use as output format a driver that only supports
       the CreateCopy operation. This may internally imply creation of a temporary file.

EXAMPLES

       • Basic transformation:

          gdalwarp -t_srs EPSG:4326 input.tif output.tif

       • 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' -overwrite 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:
            New in version 2.2.

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

       • To  apply  a  cutline  on a un-georeferenced image and clip from pixel (220,60) to pixel
         (1160,690):

          gdalwarp -overwrite -to SRC_METHOD=NO_GEOTRANSFORM -to DST_METHOD=NO_GEOTRANSFORM -te 220 60 1160 690 -cutline cutline.csv in.png out.tif

       where cutline.csv content is like:

          id,WKT
          1,"POLYGON((....))"

       • To transform a DEM from geoid elevations (using EGM96) to WGS84 ellipsoidal heights:
            New in version 2.2.

          gdalwarp -overwrite in_dem.tif out_dem.tif -s_srs EPSG:4326+5773 -t_srs EPSG:4979

SEE ALSO

       Wiki page discussing options and behaviours of gdalwarp

AUTHOR

       Frank Warmerdam <warmerdam@pobox.com>, Silke Reimer <silke@intevation.de>

COPYRIGHT

       1998-2021

                                           Dec 27, 2021                               GDALWARP(1)