Exemplo n.º 1
0
 def close(self, report_id):
     """ close current and create new one """
     r = Report.get(Key(report_id))
     if not r.finished:
         ndfi = NDFI(r.comparation_range(), r.range())
         data = ndfi.freeze_map(r.base_map(), int(settings.FT_TABLE_ID), r.key().id())
         logging.info(data)
         if 'data' not in data:
             abort(400)
         data = data['data']['id']
         r.close(data)
         cache_key = NDFIMapApi._cache_key(report_id)
         memcache.delete(cache_key)
         # open new report
         new_report = Report(start=date.today())
         new_report.put()
         return str(new_report.key())
     return "already finished"
Exemplo n.º 2
0
 def close(self, report_id):
     """ close current and create new one """
     r = Report.get(Key(report_id))
     if not r.finished:
         ndfi = NDFI(r.comparation_range(), r.range())
         data = ndfi.freeze_map(r.base_map(), int(settings.FT_TABLE_ID),
                                r.key().id())
         logging.info(data)
         if 'data' not in data:
             abort(400)
         data = data['data']['id']
         r.close(data)
         cache_key = NDFIMapApi._cache_key(report_id)
         memcache.delete(cache_key)
         # open new report
         new_report = Report(start=date.today())
         new_report.put()
         return str(new_report.key())
     return "already finished"
Exemplo n.º 3
0
class StatsTest(unittest.TestCase):
    """ test for reporting api 
    """
    def setUp(self):
        # create resources
        self.polygon = [[[-63.154907226557498, -4.8118385341739005],
                         [-64.143676757807498, -4.8118385341739005],
                         [-64.132690429682498, -6.2879986723276584],
                         [-62.814331054682498, -6.3535159310087908]]]
        self.inv_polygon = [[[y, x] for x, y in self.polygon[0]]]
        self.r = Report(start=date(year=2011, month=2, day=1),
                        end=date(year=2011, month=3, day=1),
                        finished=True)
        self.r.put()
        self.cell = Cell(x=0,
                         y=0,
                         z=2,
                         report=self.r,
                         ndfi_high=1.0,
                         ndfi_low=0.0)
        self.cell.put()
        self.area = Area(geo=json.dumps(self.inv_polygon),
                         added_by=None,
                         type=1,
                         cell=self.cell)
        self.area.put()
        self.area.create_fusion_tables()
        self.ndfi = NDFI(self.r.comparation_range(), self.r.range())
        self.stats = Stats()

    def test_stats(self):
        """
        """
        # freeze map with on area
        report_id = self.r.key().id()
        data = self.ndfi.freeze_map(self.r.base_map(),
                                    int(settings.FT_TABLE_ID),
                                    self.r.key().id())
        self.assertTrue('data' in data)
        self.assertTrue('id' in data['data'])
        self.assertTrue(len(data['data']['id']) > 0)

        asset_id = data['data']['id']
        print "report id: ", asset_id

        # get stats for this area
        st = self.stats.get_stats_for_polygon(report_id, asset_id,
                                              self.polygon)

        self.assertTrue(st is not None)
        polygon_stats = st[0]
        print polygon_stats
        self.assertTrue(float(polygon_stats['def']) > 0.0)
        self.assertAlmostEquals(0.0, float(polygon_stats['deg']))
        def_area = float(polygon_stats['def'])
        print "deforested area: ", def_area

        # get stats for this area
        # move the polygon a little bit
        p = [[[x, y + 1.0] for x, y in self.polygon[0]]]
        st = self.stats.get_stats_for_polygon(report_id, asset_id, p)
        self.assertTrue(st is not None)
        print st[0]
        polygon_stats = st['data']['properties']['classHistogram']['values'][
            'null']['values']
        self.assertTrue(float(polygon_stats['def']) > 0.0)
        self.assertTrue(float(polygon_stats['def']) < def_area)
        print "new deforested area: ", float(polygon_stats['def'])

        # search in area whiout deforesation
        p = [[[x + 4.0, y] for x, y in self.polygon[0]]]
        st = self.stats.get_stats_for_polygon(report_id, asset_id, p)
        self.assertTrue(st is not None)
        polygon_stats = st[0]
        self.assertAlmostEquals(0.0, float(polygon_stats['def']))
        self.assertAlmostEquals(0.0, float(polygon_stats['deg']))
class StatsTest(unittest.TestCase):
    """ test for reporting api 
    """

    def setUp(self):
        # create resources
        self.polygon = [[[-63.154907226557498, -4.8118385341739005], [-64.143676757807498, -4.8118385341739005], [-64.132690429682498, -6.2879986723276584], [-62.814331054682498, -6.3535159310087908]]]
        self.inv_polygon = [[[y, x] for x, y in self.polygon[0]]]
        self.r = Report(start=date(year=2011, month=2, day=1),
                        end=date(year=2011, month=3, day=1),
                        finished=True)
        self.r.put()
        self.cell = Cell(x=0, y=0, z=2, report=self.r, ndfi_high=1.0, ndfi_low=0.0)
        self.cell.put()
        self.area = Area(geo=json.dumps(self.inv_polygon), added_by=None, type=1, cell=self.cell)
        self.area.put()
        self.area.create_fusion_tables()
        self.ndfi = NDFI(self.r.comparation_range(), self.r.range())
        self.stats = Stats()

    def test_stats(self):
        """
        """
        # freeze map with on area
        report_id = self.r.key().id()
        data = self.ndfi.freeze_map(self.r.base_map(), 
                             int(settings.FT_TABLE_ID),
                             self.r.key().id())
        self.assertTrue('data' in data)
        self.assertTrue('id' in data['data'])
        self.assertTrue(len(data['data']['id']) > 0)
    
        asset_id = data['data']['id']
        print "report id: ", asset_id

        # get stats for this area
        st = self.stats.get_stats_for_polygon(report_id, asset_id, self.polygon)
        
        self.assertTrue(st is not None)
        polygon_stats = st[0]
        print polygon_stats
        self.assertTrue(float(polygon_stats['def']) > 0.0)
        self.assertAlmostEquals(0.0, float(polygon_stats['deg']))
        def_area = float(polygon_stats['def'])
        print "deforested area: ", def_area

        # get stats for this area
        # move the polygon a little bit
        p = [[[x, y + 1.0] for x, y in self.polygon[0]]]
        st = self.stats.get_stats_for_polygon(report_id, asset_id, p)
        self.assertTrue(st is not None)
        print st[0]
        polygon_stats = st['data']['properties']['classHistogram']['values']['null']['values']
        self.assertTrue(float(polygon_stats['def']) > 0.0)
        self.assertTrue(float(polygon_stats['def']) < def_area)
        print "new deforested area: ", float(polygon_stats['def'])

        # search in area whiout deforesation
        p = [[[x+4.0, y] for x, y in self.polygon[0]]]
        st = self.stats.get_stats_for_polygon(report_id, asset_id, p)
        self.assertTrue(st is not None)
        polygon_stats = st[0]
        self.assertAlmostEquals(0.0, float(polygon_stats['def']))
        self.assertAlmostEquals(0.0, float(polygon_stats['deg']))