X-Git-Url: https://gerrit.o-ran-sc.org/r/gitweb?a=blobdiff_plain;ds=sidebyside;f=code%2Fnetwork-generator%2Fmodel%2Fpython%2Ftower.py;h=7def5e6d4c550887db555a86ee39f40ee7fc33b1;hb=cbdb3c52ee47d804b4202c77082109ef3c561594;hp=a28909db3387721d22ed4301eca3fccd2c71104d;hpb=58edf86cfffc06296d3bdb8ab7ccca113ad91577;p=oam.git diff --git a/code/network-generator/model/python/tower.py b/code/network-generator/model/python/tower.py index a28909d..7def5e6 100644 --- a/code/network-generator/model/python/tower.py +++ b/code/network-generator/model/python/tower.py @@ -15,70 +15,80 @@ #!/usr/bin/python """ -A Class representing a Tower to mount O-RAN RUx +A Class representing a Tower to mount O-RAN RUs +It can be interpreted as 'resource pool' for physical network +functions. """ -import model.python.hexagon as Hexagon -from model.python.point import Point -from model.python.geo_location import GeoLocation +from model.python.o_ran_object import IORanObject +from model.python.o_ran_ru import ORanRu from model.python.o_ran_node import ORanNode import xml.etree.ElementTree as ET -# Define an abstract O-RAN Node class -class Tower(ORanNode): - # def __init__(self, **kwargs): - # super().__init__(**kwargs) - - def toKml(self) -> ET.Element: - placemark: ET.Element = ET.Element("Placemark") - name: ET.Element = ET.SubElement(placemark, "name") - name.text = self.name - style: ET.Element = ET.SubElement(placemark, "styleUrl") - style.text = "#" + self.__class__.__name__ - multi_geometry: ET.Element = ET.SubElement(placemark, "MultiGeometry") - polygon: ET.Element = ET.SubElement(multi_geometry, "Polygon") - outer_boundary: ET.Element = ET.SubElement(polygon, "outerBoundaryIs") - linear_ring: ET.Element = ET.SubElement(outer_boundary, "LinearRing") - coordinates: ET.Element = ET.SubElement(linear_ring, "coordinates") +# Define the "IORanDu" interface +class ITower(IORanObject): + def __init__(self, o_ran_ru_count: int, **kwargs): + super().__init__(**kwargs) + self._o_ran_ru_count = o_ran_ru_count - points: list[Point] = Hexagon.polygon_corners(self.layout, self.position) - points.append(points[0]) - method = GeoLocation( - self.parent.parent.parent.parent.geoLocation - ).point_to_geo_location - geo_locations: list[GeoLocation] = list(map(method, points)) - text: list[str] = [] - for geo_location in geo_locations: - text.append( - f"{geo_location.longitude},{geo_location.latitude},{geo_location.aboveMeanSeaLevel}" - ) - coordinates.text = " ".join(text) - # cells - cell_angle = self.parent.parent.parent.parent.parent.configuration()["pattern"]["nr-cell-du"]["cell-angle"] - for index in range(int(360 / cell_angle)): - line: ET.Element = ET.SubElement(multi_geometry, "LineString") - tessellate: ET.Element = ET.SubElement(line, "tessellate") - tessellate.text = "1" - coordinates: ET.Element = ET.SubElement(line, "coordinates") +# Implement a concrete O-RAN Node class +class Tower(ORanNode): + def __init__(self, tower_data: ITower = None, **kwargs): + super().__init__(tower_data, **kwargs) + self._o_ran_ru_count = ( + tower_data["oRanRuCount"] + if tower_data and "oRanRuCount" in tower_data + else 3 + ) + self._o_ran_rus: list[ORanRu] = self._create_o_ran_rus() - intersect: Point = Point( - (points[2 * index+2].x + points[2 * index + 1].x) / 2, - (points[2 * index+2].y + points[2 * index + 1].y) / 2, + def _create_o_ran_rus(self) -> list[ORanRu]: + result: list[ORanRu] = [] + for index in range(self._o_ran_ru_count): + s: str = "00" + str(index) + name: str = "-".join( + [self.name.replace("Tower", "RU"), s[len(s) - 2 : len(s)]] ) - intersect_geo_location: GeoLocation = GeoLocation( - self.parent.parent.parent.parent.geoLocation - ).point_to_geo_location(intersect) - text: list[str] = [] - text.append( - f"{intersect_geo_location.longitude},{intersect_geo_location.latitude},{intersect_geo_location.aboveMeanSeaLevel}" + cell_count: int = self.parent.parent.parent.parent.parent.configuration()[ + "pattern" + ]["o-ran-ru"]["nr-cell-du-count"] + cell_angle : int = self.parent.parent.parent.parent.parent.configuration()[ + "pattern" + ]["nr-cell-du"]["cell-angle"] + ru_angle: int = cell_count * cell_angle + ru_azimuth: int = index * ru_angle + result.append( + ORanRu( + { + "name": name, + "geoLocation": self.geoLocation, + "position": self.position, + "layout": self.layout, + "spiralRadiusProfile": self.spiralRadiusProfile, + "parent": self, + "cellCount": cell_count, + "ruAngle": ru_angle, + "ruAzimuth": ru_azimuth, + } + ) ) - text.append( - f"{self.geoLocation['longitude']},{self.geoLocation['latitude']},{self.geoLocation['aboveMeanSeaLevel']}" - ) - coordinates.text = " ".join(text) + return result + + @property + def o_ran_rus(self) -> list[ORanRu]: + return self._o_ran_rus + + def toKml(self) -> ET.Element: + tower: ET.Element = ET.Element("Folder") + open: ET.Element = ET.SubElement(tower, "open") + open.text = "1" + name: ET.Element = ET.SubElement(tower, "name") + name.text = self.name + for o_ran_ru in self.o_ran_rus: + tower.append(o_ran_ru.toKml()) + return tower - return placemark def toSvg(self) -> None: return None