/usr/bin/gdalmove.py is in python-gdal 1.10.1+dfsg-5ubuntu1.
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#******************************************************************************
#
# Project: GDAL Python Interface
# Purpose: Application for "warping" an image by just updating it's SRS
# and geotransform.
# Author: Frank Warmerdam, warmerdam@pobox.com
#
#******************************************************************************
# Copyright (c) 2012, Frank Warmerdam
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
#******************************************************************************
from osgeo import gdal, osr
import sys
import math
###############################################################################
def fmt_loc( srs_obj, loc):
if srs_obj.IsProjected():
return '%12.3f %12.3f' % (loc[0], loc[1])
else:
return '%12.8f %12.8f' % (loc[0], loc[1])
###############################################################################
def move( filename, t_srs, s_srs=None, pixel_threshold = None ):
# -------------------------------------------------------------------------
# Open the file.
# -------------------------------------------------------------------------
ds = gdal.Open( filename )
# -------------------------------------------------------------------------
# Compute the current (s_srs) locations of the four corners and center
# of the image.
# -------------------------------------------------------------------------
corners_names = [
'Upper Left',
'Lower Left',
'Upper Right',
'Lower Right',
'Center' ]
corners_pixel_line = [
(0, 0, 0),
(0, ds.RasterYSize,0),
(ds.RasterXSize, 0, 0),
(ds.RasterXSize, ds.RasterYSize, 0),
(ds.RasterXSize/2.0, ds.RasterYSize/2.0, 0.0) ]
orig_gt = ds.GetGeoTransform()
corners_s_geo = []
for item in corners_pixel_line:
corners_s_geo.append( \
(orig_gt[0] + item[0] * orig_gt[1] + item[1] * orig_gt[2],
orig_gt[3] + item[0] * orig_gt[4] + item[1] * orig_gt[5],
item[2]) )
# -------------------------------------------------------------------------
# Prepare a transformation from source to destination srs.
# -------------------------------------------------------------------------
if s_srs is None:
s_srs = ds.GetProjectionRef()
s_srs_obj = osr.SpatialReference()
s_srs_obj.SetFromUserInput( s_srs )
t_srs_obj = osr.SpatialReference()
t_srs_obj.SetFromUserInput( t_srs )
tr = osr.CoordinateTransformation( s_srs_obj, t_srs_obj )
# -------------------------------------------------------------------------
# Transform the corners
# -------------------------------------------------------------------------
corners_t_geo = tr.TransformPoints( corners_s_geo )
# -------------------------------------------------------------------------
# Compute a new geotransform for the image in the target SRS. For now
# we just use the top left, top right, and bottom left to produce the
# geotransform. The result will be exact at these three points by
# definition, but if the underlying transformation is not affine it will
# be wrong at the center and bottom right. It would be better if we
# used all five points for a least squares fit but that is a bit beyond
# me for now.
# -------------------------------------------------------------------------
ul = corners_t_geo[0]
ur = corners_t_geo[2]
ll = corners_t_geo[1]
new_gt = (ul[0],
(ur[0] - ul[0]) / ds.RasterXSize,
(ll[0] - ul[0]) / ds.RasterYSize,
ul[1],
(ur[1] - ul[1]) / ds.RasterXSize,
(ll[1] - ul[1]) / ds.RasterYSize)
(x,inv_new_gt) = gdal.InvGeoTransform( new_gt )
# -------------------------------------------------------------------------
# Report results for the five locations.
# -------------------------------------------------------------------------
corners_t_new_geo = []
error_geo = []
error_pixel_line = []
corners_pixel_line_new = []
print('___Corner___ ________Original________ _______Adjusted_________ ______ Err (geo) ______ _Err (pix)_')
for i in range(len(corners_s_geo)):
item = corners_pixel_line[i]
corners_t_new_geo.append(
(new_gt[0] + item[0] * new_gt[1] + item[1] * new_gt[2],
new_gt[3] + item[0] * new_gt[4] + item[1] * new_gt[5],
item[2]) )
error_geo.append( (corners_t_new_geo[i][0] - corners_t_geo[i][0],
corners_t_new_geo[i][1] - corners_t_geo[i][1],
0.0) )
item = corners_t_geo[i]
corners_pixel_line_new.append(
(inv_new_gt[0] + item[0] * inv_new_gt[1] + item[1] * inv_new_gt[2],
inv_new_gt[3] + item[0] * inv_new_gt[4] + item[1] * inv_new_gt[5],
item[2]) )
error_pixel_line.append(
(corners_pixel_line_new[i][0] - corners_pixel_line[i][0],
corners_pixel_line_new[i][1] - corners_pixel_line[i][1],
corners_pixel_line_new[i][2] - corners_pixel_line[i][2]) )
print( '%-11s %s %s %s %5.2f %5.2f' % \
(corners_names[i],
fmt_loc(s_srs_obj, corners_s_geo[i]),
fmt_loc(t_srs_obj, corners_t_geo[i]),
fmt_loc(t_srs_obj, error_geo[i]),
error_pixel_line[i][0],
error_pixel_line[i][1]))
print('')
# -------------------------------------------------------------------------
# Do we want to update the file?
# -------------------------------------------------------------------------
max_error = 0
for err_item in error_pixel_line:
this_error = math.sqrt(err_item[0] * err_item[0] + err_item[1] * err_item[1])
if this_error > max_error:
max_error = this_error
update = 0
if pixel_threshold is not None:
if pixel_threshold > max_error:
update = 1
# -------------------------------------------------------------------------
# Apply the change coordinate system and geotransform.
# -------------------------------------------------------------------------
if update:
ds = None
ds = gdal.Open( filename, gdal.GA_Update )
print('Updating file...')
ds.SetGeoTransform( new_gt )
ds.SetProjection( t_srs_obj.ExportToWkt() )
print('Done.')
elif pixel_threshold is None:
print('No error threshold in pixels selected with -et, file not updated.')
else:
print("""Maximum check point error is %.5f pixels which exceeds the
error threshold so the file has not been updated.""" % max_error)
ds = None
###############################################################################
def Usage():
print("""
gdalmove.py [-s_srs <srs_defn>] -t_srs <srs_defn>
[-et <max_pixel_err>] target_file
""")
sys.exit(1)
#############################################################################
# Main
if __name__ == '__main__':
# Default GDAL argument parsing.
argv = gdal.GeneralCmdLineProcessor( sys.argv )
if argv is None:
sys.exit( 0 )
if len(argv) == 1:
Usage()
# Script argument defaults
s_srs = None
t_srs = None
update=0
filename = None
pixel_threshold = None
# Script argument parsing.
i = 1
while i < len(argv):
if argv[i] == '-s_srs' and i < len(argv)-1:
s_srs = argv[i+1]
i += 1
elif argv[i] == '-t_srs' and i < len(argv)-1:
t_srs = argv[i+1]
i += 1
elif argv[i] == '-et' and i < len(argv)-1:
pixel_threshold = float(argv[i+1])
i += 1
elif filename == None:
filename = argv[i]
else:
print('Urecognised argument: ' + argv[i])
Usage()
i = i + 1
# next argument
if filename is None:
print('Missing name of file to operate on, but required.')
Usage()
if t_srs is None:
print('Target SRS (-t_srs) missing, but required.')
Usage()
move( filename, t_srs, s_srs, pixel_threshold )
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