#!/usr/bin/env python # -*- coding: utf-8 -*- #****************************************************************************** # $Id$ # # Project: GDAL Python Interface # Purpose: Application for converting raster data to a vector polygon layer. # Author: Frank Warmerdam, warmerdam@pobox.com # #****************************************************************************** # Copyright (c) 2008, Frank Warmerdam # Copyright (c) 2009-2013, Even Rouault # # 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. #****************************************************************************** import os.path import sys from osgeo import gdal from osgeo import ogr from osgeo import osr def Usage(): print(""" gdal_polygonize [-8] [-nomask] [-mask filename] raster_file [-b band|mask] [-q] [-f ogr_format] out_file [layer] [fieldname] """) sys.exit(1) def DoesDriverHandleExtension(drv, ext): exts = drv.GetMetadataItem(gdal.DMD_EXTENSIONS) return exts is not None and exts.lower().find(ext.lower()) >= 0 def GetExtension(filename): ext = os.path.splitext(filename)[1] if ext.startswith('.'): ext = ext[1:] return ext def GetOutputDriversFor(filename): drv_list = [] ext = GetExtension(filename) for i in range(gdal.GetDriverCount()): drv = gdal.GetDriver(i) if (drv.GetMetadataItem(gdal.DCAP_CREATE) is not None or \ drv.GetMetadataItem(gdal.DCAP_CREATECOPY) is not None) and \ drv.GetMetadataItem(gdal.DCAP_VECTOR) is not None: if len(ext) > 0 and DoesDriverHandleExtension(drv, ext): drv_list.append( drv.ShortName ) else: prefix = drv.GetMetadataItem(gdal.DMD_CONNECTION_PREFIX) if prefix is not None and filename.lower().startswith(prefix.lower()): drv_list.append( drv.ShortName ) return drv_list def GetOutputDriverFor(filename): drv_list = GetOutputDriversFor(filename) if len(drv_list) == 0: ext = GetExtension(filename) if len(ext) == 0: return 'ESRI Shapefile' else: raise Exception("Cannot guess driver for %s" % filename) elif len(drv_list) > 1: print("Several drivers matching %s extension. Using %s" % (ext, drv_list[0])) return drv_list[0] # ============================================================================= # Mainline # ============================================================================= format = None options = [] quiet_flag = 0 src_filename = None src_band_n = 1 dst_filename = None dst_layername = None dst_fieldname = None dst_field = -1 mask = 'default' gdal.AllRegister() argv = gdal.GeneralCmdLineProcessor( sys.argv ) if argv is None: sys.exit( 0 ) # Parse command line arguments. i = 1 while i < len(argv): arg = argv[i] if arg == '-f' or arg == '-of': i = i + 1 format = argv[i] elif arg == '-q' or arg == '-quiet': quiet_flag = 1 elif arg == '-8': options.append('8CONNECTED=8') elif arg == '-nomask': mask = 'none' elif arg == '-mask': i = i + 1 mask = argv[i] elif arg == '-b': i = i + 1 if argv[i].startswith('mask'): src_band_n = argv[i] else: src_band_n = int(argv[i]) elif src_filename is None: src_filename = argv[i] elif dst_filename is None: dst_filename = argv[i] elif dst_layername is None: dst_layername = argv[i] elif dst_fieldname is None: dst_fieldname = argv[i] else: Usage() i = i + 1 if src_filename is None or dst_filename is None: Usage() if format is None: format = GetOutputDriverFor(dst_filename) if dst_layername is None: dst_layername = 'out' # ============================================================================= # Verify we have next gen bindings with the polygonize method. # ============================================================================= try: gdal.Polygonize except: print('') print('gdal.Polygonize() not available. You are likely using "old gen"') print('bindings or an older version of the next gen bindings.') print('') sys.exit(1) # ============================================================================= # Open source file # ============================================================================= src_ds = gdal.Open( src_filename ) if src_ds is None: print('Unable to open %s' % src_filename) sys.exit(1) if src_band_n == 'mask': srcband = src_ds.GetRasterBand(1).GetMaskBand() # Workaround the fact that most source bands have no dataset attached options.append('DATASET_FOR_GEOREF=' + src_filename) elif isinstance(src_band_n, str) and src_band_n.startswith('mask,'): srcband = src_ds.GetRasterBand(int(src_band_n[len('mask,'):])).GetMaskBand() # Workaround the fact that most source bands have no dataset attached options.append('DATASET_FOR_GEOREF=' + src_filename) else: srcband = src_ds.GetRasterBand(src_band_n) if mask is 'default': maskband = srcband.GetMaskBand() elif mask is 'none': maskband = None else: mask_ds = gdal.Open( mask ) maskband = mask_ds.GetRasterBand(1) # ============================================================================= # Try opening the destination file as an existing file. # ============================================================================= try: gdal.PushErrorHandler( 'CPLQuietErrorHandler' ) dst_ds = ogr.Open( dst_filename, update=1 ) gdal.PopErrorHandler() except: dst_ds = None # ============================================================================= # Create output file. # ============================================================================= if dst_ds is None: drv = ogr.GetDriverByName(format) if not quiet_flag: print('Creating output %s of format %s.' % (dst_filename, format)) dst_ds = drv.CreateDataSource( dst_filename ) # ============================================================================= # Find or create destination layer. # ============================================================================= try: dst_layer = dst_ds.GetLayerByName(dst_layername) except: dst_layer = None if dst_layer is None: srs = None if src_ds.GetProjectionRef() != '': srs = osr.SpatialReference() srs.ImportFromWkt( src_ds.GetProjectionRef() ) dst_layer = dst_ds.CreateLayer(dst_layername, geom_type=ogr.wkbPolygon, srs = srs ) if dst_fieldname is None: dst_fieldname = 'DN' fd = ogr.FieldDefn( dst_fieldname, ogr.OFTInteger ) dst_layer.CreateField( fd ) dst_field = 0 else: if dst_fieldname is not None: dst_field = dst_layer.GetLayerDefn().GetFieldIndex(dst_fieldname) if dst_field < 0: print("Warning: cannot find field '%s' in layer '%s'" % (dst_fieldname, dst_layername)) # ============================================================================= # Invoke algorithm. # ============================================================================= if quiet_flag: prog_func = None else: prog_func = gdal.TermProgress result = gdal.Polygonize( srcband, maskband, dst_layer, dst_field, options, callback = prog_func ) srcband = None src_ds = None dst_ds = None mask_ds = None