# -*- coding: utf-8 -*- """ Created on Tue Jun 26 12:38:48 2012 @author: pietro """ import fnmatch import os import grass.lib.gis as libgis import grass.lib.raster as libraster from grass.script import core as grasscore from grass.pygrass.errors import GrassError from grass.pygrass.gis.region import Region def looking(obj, filter_string): """ >>> import grass.lib.vector as libvect >>> sorted(looking(libvect, '*by_box*')) # doctest: +NORMALIZE_WHITESPACE ['Vect_select_areas_by_box', 'Vect_select_isles_by_box', 'Vect_select_lines_by_box', 'Vect_select_nodes_by_box'] """ word_list = dir(obj) word_list.sort() return fnmatch.filter(word_list, filter_string) def findfiles(dirpath, match=None): """Return a list of the files""" res = [] for f in sorted(os.listdir(dirpath)): abspath = os.path.join(dirpath, f) if os.path.isdir(abspath): res.extend(findfiles(abspath, match)) if match: if fnmatch.fnmatch(abspath, match): res.append(abspath) else: res.append(abspath) return res def remove(oldname, maptype): """Remove a map""" grasscore.run_command('g.remove', quiet=True, **{maptype: '{old}'.format(old=oldname)}) def rename(oldname, newname, maptype): """Rename a map""" grasscore.run_command('g.rename', quiet=True, **{maptype: '{old},{new}'.format(old=oldname, new=newname), }) def copy(existingmap, newmap, maptype): """Copy a map >>> copy('census', 'mycensus', 'vect') >>> rename('mycensus', 'mynewcensus', 'vect') >>> remove('mynewcensus', 'vect') """ grasscore.run_command('g.copy', quiet=True, **{maptype: '{old},{new}'.format(old=existingmap, new=newmap), }) def getenv(env): """Return the current grass environment variables :: >>> getenv("MAPSET") 'user1' """ return libgis.G__getenv(env) def get_mapset_raster(mapname, mapset=''): """Return the mapset of the raster map :: >>> get_mapset_raster('elevation') 'PERMANENT' """ return libgis.G_find_raster(mapname, mapset) def get_mapset_vector(mapname, mapset=''): """Return the mapset of the vector map :: >>> get_mapset_vector('census') 'PERMANENT' """ return libgis.G_find_vector(mapname, mapset) def is_clean_name(name): """Return if the name is valid :: >>> is_clean_name('census') True >>> is_clean_name('0census') False >>> is_clean_name('census&') False """ if name[0].isdigit(): return False for char in ' @#^?°,;%&/': if name.find(char) != -1: return False return True def coor2pixel((east, north), region): """Convert coordinates into a pixel row and col :: >>> reg = Region() >>> coor2pixel((reg.west, reg.north), reg) (0.0, 0.0) >>> coor2pixel((reg.east, reg.south), reg) == (reg.rows, reg.cols) True """ return (libraster.Rast_northing_to_row(north, region.c_region), libraster.Rast_easting_to_col(east, region.c_region)) def pixel2coor((col, row), region): """Convert row and col of a pixel into a coordinates :: >>> reg = Region() >>> pixel2coor((0, 0), reg) == (reg.north, reg.west) True >>> pixel2coor((reg.cols, reg.rows), reg) == (reg.south, reg.east) True """ return (libraster.Rast_row_to_northing(row, region.c_region), libraster.Rast_col_to_easting(col, region.c_region)) def get_raster_for_points(poi_vector, raster, column=None): """Query a raster map for each point feature of a vector Example :: >>> from grass.pygrass.vector import VectorTopo >>> from grass.pygrass.raster import RasterRow >>> ele = RasterRow('elevation') >>> copy('schools','myschools','vect') >>> sch = VectorTopo('myschools') >>> get_raster_for_points(sch, ele) # doctest: +ELLIPSIS [(1, 633649.2856743174, 221412.94434781274, 145.06602)... >>> sch.table.columns.add('elevation','double precision') >>> 'elevation' in sch.table.columns True >>> get_raster_for_points(sch, ele, 'elevation') True >>> sch.table.filters.select('NAMESHORT','elevation') Filters('SELECT NAMESHORT, elevation FROM myschools;') >>> cur = sch.table.execute() >>> cur.fetchall() # doctest: +ELLIPSIS [(u'SWIFT CREEK', 145.06602), ... (u'9TH GRADE CTR', None)] >>> remove('myschools','vect') Parameters ------------- point: point vector object raster: raster object column: column name to update """ from math import isnan if not column: result = [] reg = Region() if not poi_vector.is_open(): poi_vector.open() if not raster.is_open(): raster.open() if poi_vector.num_primitive_of('point') == 0: raise GrassError(_("Vector doesn't contain points")) for poi in poi_vector.viter('points'): val = raster.get_value(poi, reg) if column: if val is not None and not isnan(val): poi.attrs[column] = val else: if val is not None and not isnan(val): result.append((poi.id, poi.x, poi.y, val)) else: result.append((poi.id, poi.x, poi.y, None)) if not column: return result else: poi.attrs.commit() return True def r_export(rast, output='', fmt='png', **kargs): from grass.pygrass.modules import Module if rast.exist(): output = output if output else "%s_%s.%s" % (rast.name, rast.mapset, fmt) Module('r.out.%s' % fmt, input=rast.fullname(), output=output, overwrite=True, **kargs) return output else: raise ValueError('Raster map does not exist.')