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Version:
3.10.0 ▾
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#!/usr/bin/env python3
###############################################################################
# $Id$
#
# Project: GDAL Python samples
# Purpose: Script to write out ASCII GRD rasters (used in Golden Software
# Surfer)
# from any source supported by GDAL.
# Author: Andrey Kiselev, dron@remotesensing.org
#
###############################################################################
# Copyright (c) 2003, Andrey Kiselev <dron@remotesensing.org>
# Copyright (c) 2009, Even Rouault <even dot rouault at spatialys.com>
#
# SPDX-License-Identifier: MIT
###############################################################################
import sys
from osgeo import gdal
gdal.TermProgress = gdal.TermProgress_nocb
# =============================================================================
def Usage():
print("Usage: gdal2grd.py [-b band] [-quiet] infile outfile")
print("Write out ASCII GRD rasters (used in Golden Software Surfer)")
print("")
print(" -b band Select a band number to convert (1 based)")
print(" -quiet Do not report any diagnostic information")
print(" infile Name of the input GDAL supported file")
print(" outfile Name of the output GRD file")
print("")
return 2
def main(argv=sys.argv):
infile = None
outfile = None
iBand = 1
quiet = 0
# Parse command line arguments.
i = 1
while i < len(sys.argv):
arg = sys.argv[i]
if arg == "-b":
i = i + 1
iBand = int(sys.argv[i])
elif arg == "-quiet":
quiet = 1
elif infile is None:
infile = arg
elif outfile is None:
outfile = arg
else:
Usage()
i = i + 1
if infile is None:
return Usage()
if outfile is None:
return Usage()
indataset = gdal.Open(infile, gdal.GA_ReadOnly)
if infile is None:
print("Cannot open", infile)
return 2
geotransform = indataset.GetGeoTransform()
band = indataset.GetRasterBand(iBand)
if band is None:
print("Cannot load band", iBand, "from the", infile)
return 2
if not quiet:
print(
"Size is ",
indataset.RasterXSize,
"x",
indataset.RasterYSize,
"x",
indataset.RasterCount,
)
print("Projection is ", indataset.GetProjection())
print("Origin = (", geotransform[0], ",", geotransform[3], ")")
print("Pixel Size = (", geotransform[1], ",", geotransform[5], ")")
print(
"Converting band number",
iBand,
"with type",
gdal.GetDataTypeName(band.DataType),
)
# Header printing
fpout = open(outfile, "wt")
fpout.write("DSAA\n")
fpout.write(str(band.XSize) + " " + str(band.YSize) + "\n")
fpout.write(
str(geotransform[0] + geotransform[1] / 2)
+ " "
+ str(geotransform[0] + geotransform[1] * (band.XSize - 0.5))
+ "\n"
)
if geotransform[5] < 0:
fpout.write(
str(geotransform[3] + geotransform[5] * (band.YSize - 0.5))
+ " "
+ str(geotransform[3] + geotransform[5] / 2)
+ "\n"
)
else:
fpout.write(
str(geotransform[3] + geotransform[5] / 2)
+ " "
+ str(geotransform[3] + geotransform[5] * (band.YSize - 0.5))
+ "\n"
)
fpout.write(
str(band.ComputeRasterMinMax(0)[0])
+ " "
+ str(band.ComputeRasterMinMax(0)[1])
+ "\n"
)
for i in range(band.YSize - 1, -1, -1):
scanline = band.ReadAsArray(0, i, band.XSize, 1, band.XSize, 1)
j = 0
while j < band.XSize:
fpout.write(str(scanline[0, j]))
j = j + 1
if j % 10: # Print no more than 10 values per line
fpout.write(" ")
else:
fpout.write("\n")
fpout.write("\n")
# Display progress report on terminal
if not quiet:
gdal.TermProgress(float(band.YSize - i) / band.YSize)
return 0
if __name__ == "__main__":
sys.exit(main(sys.argv))