Example #1
0
    def _truncate_last_segment(self, segment, start_point, exact_len, current_length):
        # Function is called when last segment is too long.
        # Previous length is current_length - current_segment_length
        # We have to take only (exact_len - previous_len) first meters of current_segment_length

        # Detect "correct" orientation of segment
        query = self.session.query(func.st_equals(func.ST_StartPoint(segment.geom), start_point))

        previous_length = current_length - segment.length
        take_only = exact_len - previous_length
        truncate_point = float(take_only) / float(segment.length)

        # Correct SRID: 32632 (UTM WGS84 32 North)
        if not query.first()[0]:
            shorter_line = self.session.query(func.st_asewkb(func.st_Line_Substring(segment.geom, 0, truncate_point)),
                                              func.ST_Length(
                                                  cast(func.st_Line_Substring(segment.geom, 0, truncate_point),
                                                       Geography))).first()
        else:
            shorter_line = self.session.query(func.st_asewkb(func.st_Line_Substring(segment.geom,
                                                                                    1 - truncate_point, 1)),
                                              func.ST_Length(
                                                  cast(func.st_Line_Substring(segment.geom, 1 - truncate_point, 1),
                                                       Geography))).first()

        segment_labels = []
        for label in segment.labels:
            segment_labels.append(model.Label(label=label.label, label_rate=label.label_rate))

        shorter_segment = model.Segment(name=segment.name,
                                        geom=WKBElement(shorter_line[0]),
                                        length=shorter_line[1],
                                        labels=segment_labels)
        return shorter_segment
Example #2
0
 def find_test_point_within_distance(cls, point, line):
     '''Returns a test point within settings.ALERT_DISTANCE of given point
     along the given line.
     
     Args:
       cls (SpatialQueries): Class object
       point (Geometry): PostGIS point Geometry object
       line (Geometry): PostGIS line Geometry object
     
     Returns:
       Geometry: A new PostGIS point Geometry object
     '''
     ratio_location_query = func.ST_LineLocatePoint(line, point)
     ratio = list(session.execute(ratio_location_query))[0][0]
     line_length = func.ST_Length(line)
     total_length = list(session.execute(line_length))[0][0]
     distance_on_line = ratio * total_length
     # can move point back as far as the beginning of the line
     # or within the set ALERT_DISTANCE
     allowable_subtraction = min(distance_on_line, settings.ALERT_DISTANCE)
     fraction = random.random()
     new_distance = distance_on_line - (fraction * allowable_subtraction)
     new_point = list(session.execute(
         func.ST_Line_Interpolate_Point(
         line, new_distance/total_length)))[0][0]
     return new_point
Example #3
0
    def _find_subpaths(self, last_point, current_segment, current_length, analyzed_segments):
        if current_length > self.exact_len:
            shorter_segment = self._truncate_last_segment(current_segment, last_point, self.exact_len, current_length)
            return [([shorter_segment], self.exact_len)]

        intersection_segments_rows = self.session.query(model.Segment,
                                                        func.ST_Length(cast(model.Segment.geom, Geography)))\
            .filter(model.Segment.geom.ST_Intersects(last_point)) \
            .all()

        # The path ends when point intersects with only one line
        if len(intersection_segments_rows) == 1:
            return [([current_segment], current_length)]

        all_subpaths = []
        for row in intersection_segments_rows:
            # Set length for each segment
            row[0].length = row[1]

            if row[0].name != current_segment.name and not self._segment_in_list(row[0], analyzed_segments):
                segment_last_point = self._get_opposite_bound(row[0], last_point)
                analyzed_segments.append(row[0])
                my_subpaths = self._find_subpaths(segment_last_point, row[0], current_length + row[1],
                                                  copy.copy(analyzed_segments))

                for subpath_tuple in my_subpaths:
                    subpath_tuple[0].insert(0, current_segment)
                    all_subpaths.append(subpath_tuple)
        return all_subpaths
Example #4
0
    def query(self, source, target, core, column, pkey):
        # ST_Buffer is not yet implemented so BigQueryCore won't work
        # (groups.google.com/d/msg/bq-gis-feedback/Yq4Ku6u2A80/ceVXU01RCgAJ)
        if isinstance(core, BigQueryCore):
            raise ValueError(
                "The LengthOf feature is currently incompatible with \
                BigQueryCore because ST_Buffer is not yet implemented")

        # Get all lines-of-interests (LOIs) of fclass `on`
        lois = select(
            [source.c[self.source_id], source.c.WKT],
            source.c[self.source_column] == self.source_filter,
        ).cte("lois")

        # Create a buffer `within` a distance/radius around each centroid.
        # The point has to be converted to EPSG:3857 so that meters can be
        # used instead of decimal degrees for EPSG:4326.
        buff = select([
            target,
            func.ST_Buffer(core.ST_GeoFromText(target.c[column]),
                           self.within).label("__buffer__"),
        ]).cte("buff")

        # Clip the LOIs with the buffers then calculate the length of all
        # LOIs inside each buffer.
        clip = select(
            [
                buff,
                func.ST_Intersection(
                    core.ST_GeoFromText(lois.c.WKT),
                    func.ST_Transform(buff.c["__buffer__"], 4326),
                ).label("__geom__"),
                func.ST_Length(
                    func.ST_Intersection(
                        func.ST_Transform(core.ST_GeoFromText(lois.c.WKT),
                                          3857),
                        buff.c["__buffer__"],
                    )).label("__len__"),
            ],
            func.ST_Intersects(
                core.ST_GeoFromText(lois.c.WKT),
                func.ST_Transform(buff.c["__buffer__"], 4326),
            ),
        ).cte("clip")

        # Sum the length of all LOIs inside each buffer
        sum_length = (select([
            clip.c[pkey],
            func.sum(clip.c["__len__"]).label(self.feature_name),
        ]).select_from(clip).group_by(clip.c[pkey]).cte("sum_length"))

        # Join the sum of the length of all LOIs inside each buffer
        query = select(
            [
                col for col in sum_length.columns
                if col.key not in ("__len__", "__geom__", "__buffer__")
            ],
            sum_length.c[pkey] == buff.c[pkey],
        )
        return query
Example #5
0
    def _split_start_line(self, point, segment):
        # Find segment's point nearest to point
        nearest_point = self.session.query(func.st_closestpoint(segment.geom, point)).first()

        # Locate nearest point on segment. Function returns the position on segment as rate
        located_point = self.session.query(func.st_line_locate_point(segment.geom, nearest_point)).first()

        # Split segment. First half starts from 0 and ends at located_point
        first_half = self.session.query(func.st_asewkb(func.st_Line_Substring(segment.geom, 0, located_point)),
                                        func.ST_Distance_Sphere(func.st_Line_Substring(segment.geom, 0, located_point),
                                                                nearest_point),
                                        func.ST_Length(cast(func.st_Line_Substring(segment.geom, 0, located_point),
                                                            Geography))).first()

        # Split segment. Second half starts from located_point and ends at 1
        second_half = self.session.query(func.st_asewkb(func.st_Line_Substring(segment.geom, located_point, 1)),
                                         func.ST_Distance_Sphere(func.st_Line_Substring(segment.geom, located_point, 1),
                                                                 nearest_point),
                                         func.ST_Length(cast(func.st_Line_Substring(segment.geom, located_point, 1),
                                                             Geography))).first()

        # Create temporary segments (do not add these segments to session), with their own labels
        first_segment_labels = []
        second_segment_labels = []

        for label in segment.labels:
            first_segment_labels.append(model.Label(label=label.label, label_rate=label.label_rate))
            second_segment_labels.append(model.Label(label=label.label, label_rate=label.label_rate))

        first_segment = model.Segment(name=segment.name,
                                      geom=WKBElement(first_half[0]),
                                      length=first_half[2],
                                      labels=first_segment_labels)
        second_segment = model.Segment(name=segment.name,
                                       geom=WKBElement(second_half[0]),
                                       length=second_half[2],
                                       labels=second_segment_labels)

        # If located point is the same as start point, return only second half
        if located_point[0] == 0.0:
            return [second_segment]
        # If located point is the same as end point, return only first half
        if located_point[0] == 1.0:
            return [first_segment]

        # Else, return two splitted segments
        return [first_segment, second_segment]
Example #6
0
    def find_line_substring(path, start, end):
        '''Returns a substring from start to end distances of a given path.

        Args:
          path (Geometry): PostGIS Geometry object
          start (int): Distance from start vertex of line in meters
          end (int): Distance from start vertex of line in meters
        
        Returns:
          Returns a subpath of given line from start to end
        '''
        length = func.ST_Length(path)
        start_fraction = start / length
        end_fraction = end / length
        return func.ST_LineSubstring(path, start_fraction, end_fraction)
Example #7
0
    def _find_nearest_lines(self):
        query = self.session.query(model.Segment,
                                   func.ST_Distance_Sphere(model.Segment.geom,
                                                           self.start_point_text_geom).label('distance'),
                                   func.ST_Length(cast(model.Segment.geom, Geography))
                                   ).order_by('distance')

        segments = []
        for row in query:  # row format [0]model.Segment, [1]distance (meters), [2]length (meters)
            if row[1] > self.start_threshold:
                break
            else:
                lines = self._split_start_line(self.start_point_text_geom, row[0])
                segments += lines
        return segments
    def test_query(self):
        conn = self.conn

        # Define geometries to insert
        values = [{
            "ewkt": "SRID=4326;LINESTRING(0 0, 1 0)"
        }, {
            "ewkt": "SRID=4326;LINESTRING(0 0, 0 1)"
        }]

        # Define the query to compute distance (without spheroid)
        distance = func.ST_Length(func.ST_GeomFromText(bindparam("ewkt")),
                                  False)

        i = table.insert()
        i = i.values(geom=bindparam("ewkt"), distance=distance)

        # Execute the query with values as parameters
        conn.execute(i, values)

        # Check the result
        q = select([table])
        res = conn.execute(q).fetchall()

        # Check results
        assert len(res) == 2

        r1 = res[0]
        assert r1[0] == 1
        assert r1[1].srid == 4326
        assert to_shape(r1[1]).wkt == "LINESTRING (0 0, 1 0)"
        assert round(r1[2]) == 111195

        r2 = res[1]
        assert r2[0] == 2
        assert r2[1].srid == 4326
        assert to_shape(r2[1]).wkt == "LINESTRING (0 0, 0 1)"
        assert round(r2[2]) == 111195
Example #9
0
    def find_test_point_outside_distance(cls, point, line):
        '''Returns a test point outside of settings.ALERT_DISTANCE of given point
        along the given line.

        Args:
          cls (SpatialQueries): Class object
          point (Geometry): PostGIS point Geometry object
          line (Geometry): PostGIS line Geometry object
        
        Returns:
          Geometry: A new PostGIS point Geometry object on success.
            If the point given is within settings.ALERT_DISTANCE of the start
            vertex of the given line, this function returns None, because
            a point outside of the requested range before the given point
            isn't possible.
        '''
        ratio_location_query = func.ST_LineLocatePoint(line, point)
        ratio = list(session.execute(ratio_location_query))[0][0]
        line_length = func.ST_Length(line)
        total_length = list(session.execute(line_length))[0][0]
        distance_on_line = ratio * total_length
        if distance_on_line <= settings.ALERT_DISTANCE:
            # can't get a point that is outside tolerance from here
            return None
        # find a point anywhere from beginning of line 
        # to threshold of event
        fraction = 1
        while fraction == 1:
            fraction = random.random()
            
        threshold_distance = distance_on_line - settings.ALERT_DISTANCE
        new_distance = fraction * threshold_distance
        new_point = list(session.execute(
            func.ST_Line_Interpolate_Point(
            line, new_distance/total_length)))[0][0]
        return new_point