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Source code for pygrass.vector

# -*- coding: utf-8 -*-
from __future__ import print_function

from os.path import join, exists
import grass.lib.gis as libgis
libgis.G_gisinit('')
import grass.lib.vector as libvect
import ctypes

#
# import pygrass modules
#
from grass.pygrass.vector.vector_type import VTYPE
from grass.pygrass.errors import GrassError, must_be_open
from grass.pygrass.gis import Location

from grass.pygrass.vector.geometry import GEOOBJ as _GEOOBJ
from grass.pygrass.vector.geometry import read_line, read_next_line
from grass.pygrass.vector.geometry import Area as _Area
from grass.pygrass.vector.abstract import Info
from grass.pygrass.vector.basic import Bbox, Cats, Ilist


_NUMOF = {"areas": libvect.Vect_get_num_areas,
          "dblinks": libvect.Vect_get_num_dblinks,
          "faces": libvect.Vect_get_num_faces,
          "holes": libvect.Vect_get_num_holes,
          "islands": libvect.Vect_get_num_islands,
          "kernels": libvect.Vect_get_num_kernels,
          "points": (libvect.Vect_get_num_primitives, libvect.GV_POINT),
          "lines": (libvect.Vect_get_num_primitives, libvect.GV_LINE),
          "nodes": libvect.Vect_get_num_nodes,
          "updated_lines": libvect.Vect_get_num_updated_lines,
          "updated_nodes": libvect.Vect_get_num_updated_nodes,
          "volumes": libvect.Vect_get_num_volumes}

# For test purposes
test_vector_name = "vector_doctest_map"

#=============================================
# VECTOR
#=============================================

[docs]class Vector(Info): """Vector class is the grass vector format without topology >>> from grass.pygrass.vector import Vector >>> test_vect = Vector(test_vector_name) >>> test_vect.is_open() False >>> test_vect.mapset '' >>> test_vect.exist() True >>> test_vect.overwrite False """ def __init__(self, name, mapset='', *args, **kwargs): # Set map name and mapset super(Vector, self).__init__(name, mapset, *args, **kwargs) self._topo_level = 1 self._class_name = 'Vector' self.overwrite = False self._cats = [] def __repr__(self): if self.exist(): return "%s(%r, %r)" % (self._class_name, self.name, self.mapset) else: return "%s(%r)" % (self._class_name, self.name) def __iter__(self): """:: >>> test_vect = Vector(test_vector_name) >>> test_vect.open(mode='r') >>> features = [feature for feature in test_vect] >>> features[:3] [Point(10.000000, 6.000000), Point(12.000000, 6.000000), Point(14.000000, 6.000000)] >>> test_vect.close() .. """ #return (self.read(f_id) for f_id in xrange(self.num_of_features())) return self @must_be_open
[docs] def next(self): """:: >>> test_vect = Vector(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect.next() Point(10.000000, 6.000000) >>> test_vect.next() Point(12.000000, 6.000000) >>> test_vect.close() .. """ return read_next_line(self.c_mapinfo, self.table, self.writeable, is2D=not self.is_3D())
@must_be_open
[docs] def rewind(self): """Rewind vector map to cause reads to start at beginning.""" if libvect.Vect_rewind(self.c_mapinfo) == -1: raise GrassError("Vect_rewind raise an error.")
@must_be_open
[docs] def write(self, geo_obj, cat=None, attrs=None): """Write geometry features and attributes. :param geo_obj: a geometry grass object define in grass.pygrass.vector.geometry :type geo_obj: geometry GRASS object :param attrs: a list with the values that will be insert in the attribute table. :type attrs: list :param cat: The category of the geometry feature, otherwise the c_cats attribute of the geometry object will be used. :type cat: integer Open a new vector map :: >>> new = VectorTopo('newvect') >>> new.exist() False define the new columns of the attribute table :: >>> cols = [(u'cat', 'INTEGER PRIMARY KEY'), ... (u'name', 'TEXT')] open the vector map in write mode >>> new.open('w', tab_name='newvect', tab_cols=cols) import a geometry feature :: >>> from grass.pygrass.vector.geometry import Point create two points :: >>> point0 = Point(0, 0) >>> point1 = Point(1, 1) then write the two points on the map, with :: >>> new.write(point0, cat=1, attrs=('pub',)) >>> new.write(point1, cat=2, attrs=('resturant',)) commit the db changes :: >>> new.table.conn.commit() >>> new.table.execute().fetchall() [(1, u'pub'), (2, u'resturant')] close the vector map :: >>> new.close() >>> new.exist() True then play with the map :: >>> new.open(mode='r') >>> new.read(1) Point(0.000000, 0.000000) >>> new.read(2) Point(1.000000, 1.000000) >>> new.read(1).attrs['name'] u'pub' >>> new.read(2).attrs['name'] u'resturant' >>> new.close() >>> new.remove() """ self.n_lines += 1 if not isinstance(cat, int) and not isinstance(cat, str): # likely the case of using 7.0 API import warnings warnings.warn("Vector.write(geo_obj, attrs=(...)) is" " depreciated, specify cat explicitly", DeprecationWarning) # try to accommodate attrs = cat cat = None if attrs and cat is None: # TODO: this does not work as expected when there are # already features in the map when we opened it cat = (self._cats[-1] if self._cats else 0) + 1 if cat is not None and cat not in self._cats: self._cats.append(cat) if self.table is not None and attrs is not None: attr = [cat, ] attr.extend(attrs) cur = self.table.conn.cursor() cur.execute(self.table.columns.insert_str, attr) cur.close() if cat is not None: cats = Cats(geo_obj.c_cats) cats.reset() cats.set(cat, self.layer) if geo_obj.gtype == _Area.gtype: result = self._write_area(geo_obj) result = libvect.Vect_write_line(self.c_mapinfo, geo_obj.gtype, geo_obj.c_points, geo_obj.c_cats) if result == -1: raise GrassError("Not able to write the vector feature.") if self._topo_level == 2: # return new feature id (on level 2) geo_obj.id = result else: # return offset into file where the feature starts (on level 1) geo_obj.offset = result
@must_be_open
[docs] def has_color_table(self): """Return if vector has color table associated in file system; Color table stored in the vector's attribute table well be not checked >>> test_vect = Vector(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect.has_color_table() False >>> test_vect.close() >>> from grass.pygrass.utils import copy, remove >>> copy(test_vector_name,'mytest_vect','vect') >>> from grass.pygrass.modules.shortcuts import vector as v >>> v.colors(map='mytest_vect', color='population', column='value') Module('v.colors') >>> mytest_vect = Vector('mytest_vect') >>> mytest_vect.open(mode='r') >>> mytest_vect.has_color_table() True >>> mytest_vect.close() >>> remove('mytest_vect', 'vect') """ loc = Location() path = join(loc.path(), self.mapset, 'vector', self.name, 'colr') return True if exists(path) else False #============================================= # VECTOR WITH TOPOLOGY #=============================================
[docs]class VectorTopo(Vector): """Vector class with the support of the GRASS topology. Open a vector map using the *with statement*: :: >>> with VectorTopo(test_vector_name, mode='r') as test_vect: ... for feature in test_vect[:7]: ... print(feature.attrs['name']) ... point point point line line line >>> test_vect.is_open() False .. """ def __init__(self, name, mapset='', *args, **kwargs): super(VectorTopo, self).__init__(name, mapset, *args, **kwargs) self._topo_level = 2 self._class_name = 'VectorTopo' def __len__(self): return libvect.Vect_get_num_lines(self.c_mapinfo) def __getitem__(self, key): """:: >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect[:4] [Point(10.000000, 6.000000), Point(12.000000, 6.000000), Point(14.000000, 6.000000)] >>> test_vect.close() .. """ if isinstance(key, slice): return [self.read(indx) for indx in range(key.start if key.start else 1, key.stop if key.stop else len(self), key.step if key.step else 1)] elif isinstance(key, int): return self.read(key) else: raise ValueError("Invalid argument type: %r." % key) @must_be_open
[docs] def num_primitive_of(self, primitive): """Return the number of primitive :param primitive: the name of primitive to query; the supported values are: * *boundary*, * *centroid*, * *face*, * *kernel*, * *line*, * *point* * *area* * *volume* :type primitive: str :: >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect.num_primitive_of('point') 3 >>> test_vect.num_primitive_of('line') 3 >>> test_vect.num_primitive_of('centroid') 4 >>> test_vect.num_primitive_of('boundary') 11 >>> test_vect.close() .. """ return libvect.Vect_get_num_primitives(self.c_mapinfo, VTYPE[primitive])
@must_be_open
[docs] def number_of(self, vtype): """Return the number of the chosen element type :param vtype: the name of type to query; the supported values are: *areas*, *dblinks*, *faces*, *holes*, *islands*, *kernels*, *line_points*, *lines*, *nodes*, *points*, *update_lines*, *update_nodes*, *volumes* :type vtype: str >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect.number_of("areas") 4 >>> test_vect.number_of("islands") 2 >>> test_vect.number_of("holes") 0 >>> test_vect.number_of("lines") 21 >>> test_vect.number_of("nodes") 15 >>> test_vect.number_of("pizza") ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE Traceback (most recent call last): ... ValueError: vtype not supported, use one of: 'areas', ... >>> test_vect.close() .. """ if vtype in _NUMOF.keys(): if isinstance(_NUMOF[vtype], tuple): fn, ptype = _NUMOF[vtype] return fn(self.c_mapinfo, ptype) else: return _NUMOF[vtype](self.c_mapinfo) else: keys = "', '".join(sorted(_NUMOF.keys())) raise ValueError("vtype not supported, use one of: '%s'" % keys)
@must_be_open
[docs] def num_primitives(self): """Return dictionary with the number of all primitives """ output = {} for prim in VTYPE.keys(): output[prim] = self.num_primitive_of(prim) return output
@must_be_open
[docs] def viter(self, vtype, idonly=False): """Return an iterator of vector features :param vtype: the name of type to query; the supported values are: *areas*, *dblinks*, *faces*, *holes*, *islands*, *kernels*, *line_points*, *lines*, *nodes*, *points*, *update_lines*, *update_nodes*, *volumes* :type vtype: str :param idonly: variable to return only the id of features instead of full features :type idonly: bool >>> test_vect = VectorTopo(test_vector_name, mode='r') >>> test_vect.open(mode='r') >>> areas = [area for area in test_vect.viter('areas')] >>> areas[:3] [Area(1), Area(2), Area(3)] to sort the result in a efficient way, use: :: >>> from operator import methodcaller as method >>> areas.sort(key=method('area'), reverse=True) # sort the list >>> for area in areas[:3]: ... print(area, area.area()) Area(1) 12.0 Area(2) 8.0 Area(4) 8.0 >>> areas = [area for area in test_vect.viter('areas')] >>> for area in areas: ... print(area.centroid().cat) 3 3 3 3 >>> test_vect.close() """ if vtype in _GEOOBJ.keys(): if _GEOOBJ[vtype] is not None: ids = (indx for indx in range(1, self.number_of(vtype) + 1)) if idonly: return ids return (_GEOOBJ[vtype](v_id=indx, c_mapinfo=self.c_mapinfo, table=self.table, writeable=self.writeable) for indx in ids) else: keys = "', '".join(sorted(_GEOOBJ.keys())) raise ValueError("vtype not supported, use one of: '%s'" % keys)
@must_be_open
[docs] def rewind(self): """Rewind vector map to cause reads to start at beginning. :: >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open(mode='r') >>> test_vect.next() Point(10.000000, 6.000000) >>> test_vect.next() Point(12.000000, 6.000000) >>> test_vect.next() Point(14.000000, 6.000000) >>> test_vect.rewind() >>> test_vect.next() Point(10.000000, 6.000000) >>> test_vect.close() .. """ libvect.Vect_rewind(self.c_mapinfo)
@must_be_open
[docs] def cat(self, cat_id, vtype, layer=None, generator=False, geo=None): """Return the geometry features with category == cat_id. :param cat_id: the category number :type cat_id: int :param vtype: the type of geometry feature that we are looking for :type vtype: str :param layer: the layer number that will be used :type layer: int :param generator: if True return a generator otherwise it return a list of features :type generator: bool """ if geo is None and vtype not in _GEOOBJ: keys = "', '".join(sorted(_GEOOBJ.keys())) raise ValueError("vtype not supported, use one of: '%s'" % keys) Obj = _GEOOBJ[vtype] if geo is None else geo ilist = Ilist() libvect.Vect_cidx_find_all(self.c_mapinfo, layer if layer else self.layer, Obj.gtype, cat_id, ilist.c_ilist) is2D = not self.is_3D() if generator: return (read_line(feature_id=v_id, c_mapinfo=self.c_mapinfo, table=self.table, writeable=self.writeable, is2D=is2D) for v_id in ilist) else: return [read_line(feature_id=v_id, c_mapinfo=self.c_mapinfo, table=self.table, writeable=self.writeable, is2D=is2D) for v_id in ilist]
@must_be_open
[docs] def read(self, feature_id): """Return a geometry object given the feature id. :param int feature_id: the id of feature to obtain >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open(mode='r') >>> feature1 = test_vect.read(0) #doctest: +ELLIPSIS Traceback (most recent call last): ... ValueError: The index must be >0, 0 given. >>> feature1 = test_vect.read(5) >>> feature1 Line([Point(12.000000, 4.000000), Point(12.000000, 2.000000), Point(12.000000, 0.000000)]) >>> feature1.length() 4.0 >>> test_vect.read(-1) Centoid(7.500000, 3.500000) >>> len(test_vect) 21 >>> test_vect.read(21) Centoid(7.500000, 3.500000) >>> test_vect.read(22) #doctest: +ELLIPSIS Traceback (most recent call last): ... IndexError: Index out of range >>> test_vect.close() """ return read_line(feature_id, self.c_mapinfo, self.table, self.writeable, is2D=not self.is_3D())
@must_be_open
[docs] def is_empty(self): """Return if a vector map is empty or not """ primitives = self.num_primitives() output = True for v in primitives.values(): if v != 0: output = False break return output
@must_be_open
[docs] def rewrite(self, geo_obj, cat, attrs=None, **kargs): """Rewrite a geometry features >>> cols = [(u'cat', 'INTEGER PRIMARY KEY'), ... (u'name', 'TEXT')] Generate a new vector map >>> test_vect = VectorTopo('newvect_2') >>> test_vect.open('w', tab_name='newvect_2', tab_cols=cols, ... overwrite=True) import a geometry feature :: >>> from grass.pygrass.vector.geometry import Point create two points :: >>> point0 = Point(0, 0) >>> point1 = Point(1, 1) >>> point2 = Point(2, 2) then write the two points on the map, with :: >>> test_vect.write(point0, cat=1, attrs=('pub',)) >>> test_vect.write(point1, cat=2, attrs=('resturant',)) >>> test_vect.table.conn.commit() # save changes in the DB >>> test_vect.table_to_dict() {1: [1, u'pub'], 2: [2, u'resturant']} >>> test_vect.close() Now rewrite one point of the vector map: :: >>> test_vect.open('rw') >>> test_vect.rewrite(point2, cat=1, attrs=('Irish Pub',)) >>> test_vect.table.conn.commit() # save changes in the DB >>> test_vect.close() Check the output: >>> test_vect.open('r') >>> test_vect[1] == point2 True >>> test_vect[1].attrs['name'] == 'Irish Pub' True >>> test_vect.close() >>> test_vect.remove() """ if self.table is not None and attrs: self.table.update(key=cat, values=attrs) elif self.table is None and attrs: print("Table for vector {name} does not exist, attributes not" " loaded".format(name=self.name)) libvect.Vect_cat_set(geo_obj.c_cats, self.layer, cat) result = libvect.Vect_rewrite_line(self.c_mapinfo, cat, geo_obj.gtype, geo_obj.c_points, geo_obj.c_cats) if result == -1: raise GrassError("Not able to write the vector feature.") # return offset into file where the feature starts geo_obj.offset = result
@must_be_open
[docs] def delete(self, feature_id): """Remove a feature by its id :param feature_id: the id of the feature :type feature_id: int """ if libvect.Vect_rewrite_line(self.c_mapinfo, feature_id) == -1: raise GrassError("C function: Vect_rewrite_line.")
@must_be_open
[docs] def restore(self, geo_obj): if hasattr(geo_obj, 'offset'): if libvect.Vect_restore_line(self.c_mapinfo, geo_obj.offset, geo_obj.id) == -1: raise GrassError("C function: Vect_restore_line.") else: raise ValueError("The value have not an offset attribute.")
@must_be_open
[docs] def bbox(self): """Return the BBox of the vecor map """ bbox = Bbox() if libvect.Vect_get_map_box(self.c_mapinfo, bbox.c_bbox) == 0: raise GrassError("I can not find the Bbox.") return bbox
[docs] def close(self, build=True, release=True): """Close the VectorTopo map, if release is True, the memory occupied by spatial index is released""" if release: libvect.Vect_set_release_support(self.c_mapinfo) super(VectorTopo, self).close(build=build)
@must_be_open
[docs] def table_to_dict(self, where=None): """Return the attribute table as a dictionary with the category as keys The columns have the order of the self.table.columns.names() list. Examples >>> from grass.pygrass.vector import VectorTopo >>> from grass.pygrass.vector.basic import Bbox >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open('r') >>> test_vect.table_to_dict() {1: [1, u'point', 1.0], 2: [2, u'line', 2.0], 3: [3, u'centroid', 3.0]} >>> test_vect.table_to_dict(where="value > 2") {3: [3, u'centroid', 3.0]} >>> test_vect.table_to_dict(where="value > 0") {1: [1, u'point', 1.0], 2: [2, u'line', 2.0], 3: [3, u'centroid', 3.0]} >>> test_vect.table.filters.get_sql() u'SELECT cat,name,value FROM vector_doctest_map WHERE value > 0 ORDER BY cat;' """ if self.table is not None: table_dict = {} # Get the category index cat_index = self.table.columns.names().index("cat") # Prepare a filter if where is not None: self.table.filters.where(where) self.table.filters.order_by("cat") self.table.filters.select(",".join(self.table.columns.names())) # Execute the query and fetch the result cur = self.table.execute() l = cur.fetchall() # Generate the dictionary for entry in l: table_dict[entry[cat_index]] = list(entry) return(table_dict) return None
@must_be_open
[docs] def features_to_wkb_list(self, bbox=None, feature_type="point", field=1): """Return all features of type point, line, boundary or centroid as a list of Well Known Binary representations (WKB) (id, cat, wkb) triplets located in a specific bounding box. :param bbox: The boundingbox to search for features, if bbox=None the boundingbox of the whole vector map layer is used :type bbox: grass.pygrass.vector.basic.Bbox :param feature_type: The type of feature that should be converted to the Well Known Binary (WKB) format. Supported are: 'point' -> libvect.GV_POINT 1 'line' -> libvect.GV_LINE 2 'boundary' -> libvect.GV_BOUNDARY 3 'centroid' -> libvect.GV_CENTROID 4 :type type: string :param field: The category field :type field: integer :return: A list of triplets, or None if nothing was found The well known binary are stored in byte arrays. Examples: >>> from grass.pygrass.vector import VectorTopo >>> from grass.pygrass.vector.basic import Bbox >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open('r') >>> bbox = Bbox(north=20, south=-1, east=20, west=-1) >>> result = test_vect.features_to_wkb_list(bbox=bbox, ... feature_type="point") >>> len(result) 3 >>> for entry in result: ... f_id, cat, wkb = entry ... print((f_id, cat, len(wkb))) (1, 1, 21) (2, 1, 21) (3, 1, 21) >>> result = test_vect.features_to_wkb_list(bbox=None, ... feature_type="line") >>> len(result) 3 >>> for entry in result: ... f_id, cat, wkb = entry ... print((f_id, cat, len(wkb))) (4, 2, 57) (5, 2, 57) (6, 2, 57) >>> result = test_vect.features_to_wkb_list(bbox=bbox, ... feature_type="boundary") >>> len(result) 11 >>> result = test_vect.features_to_wkb_list(bbox=None, ... feature_type="centroid") >>> len(result) 4 >>> for entry in result: ... f_id, cat, wkb = entry ... print((f_id, cat, len(wkb))) (19, 3, 21) (18, 3, 21) (20, 3, 21) (21, 3, 21) >>> result = test_vect.features_to_wkb_list(bbox=bbox, ... feature_type="blub") Traceback (most recent call last): ... GrassError: Unsupported feature type <blub>, supported are <point,line,boundary,centroid> >>> test_vect.close() """ supported = ['point', 'line', 'boundary', 'centroid'] if feature_type.lower() not in supported: raise GrassError("Unsupported feature type <%s>, "\ "supported are <%s>"%(feature_type, ",".join(supported))) if bbox is None: bbox = self.bbox() bboxlist = self.find_by_bbox.geos(bbox, type=feature_type.lower(), bboxlist_only = True) if bboxlist is not None and len(bboxlist) > 0: l = [] line_p = libvect.line_pnts() line_c = libvect.line_cats() size = ctypes.c_size_t() cat = ctypes.c_int() error = ctypes.c_int() for f_id in bboxlist.ids: barray = libvect.Vect_read_line_to_wkb(self.c_mapinfo, ctypes.byref(line_p), ctypes.byref(line_c), f_id, ctypes.byref(size), ctypes.byref(error)) if not barray: if error == -1: raise GrassError(_("Unable to read line of feature %i"%(f_id))) if error == -2: print("Empty feature %i"%(f_id)) continue ok = libvect.Vect_cat_get(ctypes.byref(line_c), field, ctypes.byref(cat)) if ok < 1: pcat = None else: pcat = cat.value l.append((f_id, pcat, ctypes.string_at(barray, size.value))) libgis.G_free(barray) return l return None
@must_be_open
[docs] def areas_to_wkb_list(self, bbox=None, field=1): """Return all features of type point, line, boundary or centroid as a list of Well Known Binary representations (WKB) (id, cat, wkb) triplets located in a specific bounding box. :param bbox: The boundingbox to search for features, if bbox=None the boundingbox of the whole vector map layer is used :type bbox: grass.pygrass.vector.basic.Bbox :param field: The centroid category field :type field: integer :return: A list of triplets, or None if nothing was found The well known binary are stored in byte arrays. Examples: >>> from grass.pygrass.vector import VectorTopo >>> from grass.pygrass.vector.basic import Bbox >>> test_vect = VectorTopo(test_vector_name) >>> test_vect.open('r') >>> bbox = Bbox(north=20, south=-1, east=20, west=-1) >>> result = test_vect.areas_to_wkb_list(bbox=bbox) >>> len(result) 4 >>> for entry in result: ... a_id, cat, wkb = entry ... print((a_id, cat, len(wkb))) (1, 3, 225) (2, 3, 141) (3, 3, 93) (4, 3, 141) >>> result = test_vect.areas_to_wkb_list() >>> len(result) 4 >>> for entry in result: ... a_id, cat, wkb = entry ... print((a_id, cat, len(wkb))) (1, 3, 225) (2, 3, 141) (3, 3, 93) (4, 3, 141) >>> test_vect.close() """ if bbox is None: bbox = self.bbox() bboxlist = self.find_by_bbox.areas(bbox, bboxlist_only = True) if bboxlist is not None and len(bboxlist) > 0: l = [] line_c = libvect.line_cats() size = ctypes.c_size_t() cat = ctypes.c_int() for a_id in bboxlist.ids: barray = libvect.Vect_read_area_to_wkb(self.c_mapinfo, a_id, ctypes.byref(size)) if not barray: raise GrassError(_("Unable to read area with id %i"%(a_id))) pcat = None c_ok = libvect.Vect_get_area_cats(self.c_mapinfo, a_id, ctypes.byref(line_c)) if c_ok == 0: # Centroid found ok = libvect.Vect_cat_get(ctypes.byref(line_c), field, ctypes.byref(cat)) if ok > 0: pcat = cat.value l.append((a_id, pcat, ctypes.string_at(barray, size.value))) libgis.G_free(barray) return l return None
if __name__ == "__main__": import doctest from grass.pygrass import utils utils.create_test_vector_map(test_vector_name) doctest.testmod() """Remove the generated vector map, if exist""" from grass.pygrass.utils import get_mapset_vector from grass.script.core import run_command mset = get_mapset_vector(test_vector_name, mapset='') if mset: run_command("g.remove", flags='f', type='vector', name=test_vector_name)

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