import unittest import warnings from lxml import etree from feedgen.feed import FeedGenerator from feedgen.ext.geo_entry import GeoRSSPolygonInteriorWarning, GeoRSSGeometryError class Geom(object): """ Dummy geom to make testing easier When we use the geo-interface we need a class with a `__geo_interface__` property. Makes it easier for the other tests as well. Ultimately this could be used to generate dummy geometries for testing a wider variety of values (e.g. with the faker library, or the hypothesis library) """ def __init__(self, geom_type, coords): self.geom_type = geom_type self.coords = coords def __str__(self): if self.geom_type == 'Point': coords = '{:f} {:f}'.format( self.coords[1], # latitude is y self.coords[0] ) return coords elif self.geom_type == 'LineString': coords = ' '.join( '{:f} {:f}'.format(vertex[1], vertex[0]) for vertex in self.coords ) return coords elif self.geom_type == 'Polygon': coords = ' '.join( '{:f} {:f}'.format(vertex[1], vertex[0]) for vertex in self.coords[0] ) return coords elif self.geom_type == 'Box': # box not really supported by GeoJSON, but it's a handy cheat here # for testing coords = ' '.join( '{:f} {:f}'.format(vertex[1], vertex[0]) for vertex in self.coords ) return coords[:2] else: return 'Not a supported geometry' @property def __geo_interface__(self): return { 'type': self.geom_type, 'coordinates': self.coords } class TestExtensionGeo(unittest.TestCase): @classmethod def setUpClass(cls): cls.point = Geom('Point', [-71.05, 42.36]) cls.line = Geom('LineString', [[-71.05, 42.36], [-71.15, 42.46]]) cls.polygon = Geom('Polygon', [[[-71.05, 42.36], [-71.15, 42.46], [-71.15, 42.36]]]) cls.box = Geom('Box', [[-71.05, 42.36], [-71.15, 42.46]]) cls.polygon_with_interior = Geom( 'Polygon', [ [ # exterior [0, 0], [0, 1], [1, 1], [1, 0], [0, 0] ], [ # interior [0.25, 0.25], [0.25, 0.75], [0.75, 0.75], [0.75, 0.25], [0.25, 0.25] ] ] ) def setUp(self): self.fg = FeedGenerator() self.fg.load_extension('geo') self.fg.title('title') self.fg.link(href='http://example.com', rel='self') self.fg.description('description') def test_point(self): fe = self.fg.add_item() fe.title('y') fe.geo.point(str(self.point)) self.assertEqual(fe.geo.point(), str(self.point)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) point = root.xpath('/rss/channel/item/georss:point/text()', namespaces=ns) self.assertEqual(point, [str(self.point)]) def test_line(self): fe = self.fg.add_item() fe.title('y') fe.geo.line(str(self.line)) self.assertEqual(fe.geo.line(), str(self.line)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) line = root.xpath('/rss/channel/item/georss:line/text()', namespaces=ns) self.assertEqual(line, [str(self.line)]) def test_polygon(self): fe = self.fg.add_item() fe.title('y') fe.geo.polygon(str(self.polygon)) self.assertEqual(fe.geo.polygon(), str(self.polygon)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) poly = root.xpath('/rss/channel/item/georss:polygon/text()', namespaces=ns) self.assertEqual(poly, [str(self.polygon)]) def test_box(self): fe = self.fg.add_item() fe.title('y') fe.geo.box(str(self.box)) self.assertEqual(fe.geo.box(), str(self.box)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) box = root.xpath('/rss/channel/item/georss:box/text()', namespaces=ns) self.assertEqual(box, [str(self.box)]) def test_featuretypetag(self): fe = self.fg.add_item() fe.title('y') fe.geo.featuretypetag('city') self.assertEqual(fe.geo.featuretypetag(), 'city') # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) featuretypetag = root.xpath( '/rss/channel/item/georss:featuretypetag/text()', namespaces=ns ) self.assertEqual(featuretypetag, ['city']) def test_relationshiptag(self): fe = self.fg.add_item() fe.title('y') fe.geo.relationshiptag('is-centred-at') self.assertEqual(fe.geo.relationshiptag(), 'is-centred-at') # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) relationshiptag = root.xpath( '/rss/channel/item/georss:relationshiptag/text()', namespaces=ns ) self.assertEqual(relationshiptag, ['is-centred-at']) def test_featurename(self): fe = self.fg.add_item() fe.title('y') fe.geo.featurename('Footscray') self.assertEqual(fe.geo.featurename(), 'Footscray') # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) featurename = root.xpath( '/rss/channel/item/georss:featurename/text()', namespaces=ns ) self.assertEqual(featurename, ['Footscray']) def test_elev(self): fe = self.fg.add_item() fe.title('y') fe.geo.elev(100.3) self.assertEqual(fe.geo.elev(), 100.3) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) elev = root.xpath( '/rss/channel/item/georss:elev/text()', namespaces=ns ) self.assertEqual(elev, ['100.3']) def test_elev_fails_nonnumeric(self): fe = self.fg.add_item() fe.title('y') with self.assertRaises(ValueError): fe.geo.elev('100.3') def test_floor(self): fe = self.fg.add_item() fe.title('y') fe.geo.floor(4) self.assertEqual(fe.geo.floor(), 4) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) floor = root.xpath( '/rss/channel/item/georss:floor/text()', namespaces=ns ) self.assertEqual(floor, ['4']) def test_floor_fails_nonint(self): fe = self.fg.add_item() fe.title('y') with self.assertRaises(ValueError): fe.geo.floor(100.3) with self.assertRaises(ValueError): fe.geo.floor('4') def test_radius(self): fe = self.fg.add_item() fe.title('y') fe.geo.radius(100.3) self.assertEqual(fe.geo.radius(), 100.3) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) radius = root.xpath( '/rss/channel/item/georss:radius/text()', namespaces=ns ) self.assertEqual(radius, ['100.3']) def test_radius_fails_nonnumeric(self): fe = self.fg.add_item() fe.title('y') with self.assertRaises(ValueError): fe.geo.radius('100.3') def test_geom_from_geointerface_point(self): fe = self.fg.add_item() fe.title('y') fe.geo.geom_from_geo_interface(self.point) self.assertEqual(fe.geo.point(), str(self.point)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) point = root.xpath('/rss/channel/item/georss:point/text()', namespaces=ns) self.assertEqual(point, [str(self.point)]) def test_geom_from_geointerface_line(self): fe = self.fg.add_item() fe.title('y') fe.geo.geom_from_geo_interface(self.line) self.assertEqual(fe.geo.line(), str(self.line)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) line = root.xpath('/rss/channel/item/georss:line/text()', namespaces=ns) self.assertEqual(line, [str(self.line)]) def test_geom_from_geointerface_poly(self): fe = self.fg.add_item() fe.title('y') fe.geo.geom_from_geo_interface(self.polygon) self.assertEqual(fe.geo.polygon(), str(self.polygon)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) poly = root.xpath('/rss/channel/item/georss:polygon/text()', namespaces=ns) self.assertEqual(poly, [str(self.polygon)]) def test_geom_from_geointerface_fail_other_geom(self): fe = self.fg.add_item() fe.title('y') with self.assertRaises(GeoRSSGeometryError): fe.geo.geom_from_geo_interface(self.box) def test_geom_from_geointerface_fail_requires_geo_interface(self): fe = self.fg.add_item() fe.title('y') with self.assertRaises(AttributeError): fe.geo.geom_from_geo_interface(str(self.box)) def test_geom_from_geointerface_warn_poly_interior(self): """ Test complex polygons warn as expected. Taken from https://stackoverflow.com/a/3892301/379566 and https://docs.python.org/2.7/library/warnings.html#testing-warnings """ fe = self.fg.add_item() fe.title('y') with warnings.catch_warnings(record=True) as w: # Cause all warnings to always be triggered. warnings.simplefilter("always") # Trigger a warning. fe.geo.geom_from_geo_interface(self.polygon_with_interior) # Verify some things assert len(w) == 1 assert issubclass(w[-1].category, GeoRSSPolygonInteriorWarning) self.assertEqual(fe.geo.polygon(), str(self.polygon_with_interior)) # Check that we have the item in the resulting XML ns = {'georss': 'http://www.georss.org/georss'} root = etree.fromstring(self.fg.rss_str()) poly = root.xpath('/rss/channel/item/georss:polygon/text()', namespaces=ns) self.assertEqual(poly, [str(self.polygon_with_interior)])