# See the License for the specific language governing permissions and
# limitations under the License.
-#!/usr/bin/python
+# !/usr/bin/python
"""
-A Class representing an O-RAN Near real-time intelligent controller (ORanNearRtRic)
+A Class representing an O-RAN Near real-time intelligent controller
+(ORanNearRtRic)
"""
-from typing import overload
-from network_generation.model.python.tower import Tower
-from network_generation.model.python.o_ran_cu import ORanCu
-from network_generation.model.python.o_ran_object import IORanObject
-from network_generation.model.python.o_ran_node import ORanNode
-from network_generation.model.python.o_ran_termination_point import ORanTerminationPoint
-from network_generation.model.python.hexagon import Hex
-import network_generation.model.python.hexagon as Hexagon
import xml.etree.ElementTree as ET
+from typing import Any, cast
+import network_generation.model.python.hexagon as Hexagon
+from network_generation.model.python.geo_location import GeoLocation
+from network_generation.model.python.hexagon import Hex
+from network_generation.model.python.o_ran_cu import ORanCu
+from network_generation.model.python.o_ran_node import (
+ IORanNode,
+ ORanNode,
+ default_value,
+)
+from network_generation.model.python.o_ran_termination_point import (
+ ORanTerminationPoint,
+)
+from network_generation.model.python.tower import Tower
# Define the "IORanNearRtRic" interface
-class IORanNearRtRic(IORanObject):
- def __init__(self, **kwargs):
- super().__init__(**kwargs)
+IORanNearRtRic = IORanNode
# Define an abstract O-RAN Node class
-class ORanNearRtRic(ORanNode, IORanNearRtRic):
- def __init__(self, o_ran_near_rt_ric_data: IORanNearRtRic = None, **kwargs):
- super().__init__(o_ran_near_rt_ric_data, **kwargs)
+class ORanNearRtRic(ORanNode):
+ def __init__(
+ self,
+ data: dict[str, Any] = cast(dict[str, Any], default_value),
+ **kwargs: dict[str, Any]
+ ) -> None:
+ o_ran_near_rt_ric_data: IORanNearRtRic = (
+ self._to_o_ran_near_rt_ric_data(data)
+ )
+ super().__init__(
+ cast(dict[str, Any], o_ran_near_rt_ric_data), **kwargs
+ )
self._o_ran_cus: list[ORanCu] = self._calculate_o_ran_cus()
+ def _to_o_ran_near_rt_ric_data(
+ self, data: dict[str, Any]
+ ) -> IORanNearRtRic:
+ result: IORanNearRtRic = default_value
+ for key, key_type in IORanNearRtRic.__annotations__.items():
+ if key in data:
+ result[key] = data[key] # type: ignore
+ return result
+
def _calculate_o_ran_cus(self) -> list[ORanCu]:
- hex_ring_radius: int = self.spiralRadiusProfile.oRanNearRtRicSpiralRadiusOfOCus
- hex_list: list[Hex] = self.spiralRadiusProfile.oRanCuSpiral(
+ hex_ring_radius: int = (
+ self.parent.parent
+ .spiral_radius_profile.oRanNearRtRicSpiralRadiusOfOCus
+ )
+ hex_list: list[
+ Hex
+ ] = self.parent.parent.spiral_radius_profile.oRanCuSpiral(
self.position, hex_ring_radius
)
result: list[ORanCu] = []
for index, hex in enumerate(hex_list):
s: str = "00" + str(index)
name: str = "-".join(
- [self.name.replace("NearRtRic", "CU"), s[len(s) - 2 : len(s)]]
+ [self.name.replace("NearRtRic", "CU"), s[len(s) - 2: len(s)]]
)
- network_center: dict = self.parent.parent.center
+ network_center: GeoLocation = self.parent.parent.center
newGeo = Hexagon.hex_to_geo_location(
self.layout, hex, network_center
).json()
"geoLocation": newGeo,
"position": hex,
"layout": self.layout,
- "spiralRadiusProfile": self.spiralRadiusProfile,
- "parent": self
+ "parent": self,
}
)
)
result.append(tower)
return result
- @property
def termination_points(self) -> list[ORanTerminationPoint]:
- result: list[ORanTerminationPoint] = super().termination_points
+ result: list[ORanTerminationPoint] = super().termination_points()
phy_tp: str = "-".join([self.name, "phy".upper()])
- result.append({"tp-id": phy_tp, "name": phy_tp})
+ result.append(ORanTerminationPoint({"tp-id": phy_tp, "name": phy_tp}))
for interface in ["a1", "o1", "o2", "e2"]:
- id:str = "-".join([self.name, interface.upper()])
- result.append(ORanTerminationPoint({"id": id, "name":id, "supporter": phy_tp, "parent":self}))
+ id: str = "-".join([self.name, interface.upper()])
+ result.append(
+ ORanTerminationPoint(
+ {"id": id, "name": id, "supporter": phy_tp, "parent": self}
+ )
+ )
return result
- def to_topology_nodes(self) -> list[dict[str, dict]]:
- result: list[dict[str, dict]] = super().to_topology_nodes()
+ def to_topology_nodes(self) -> list[dict[str, Any]]:
+ result: list[dict[str, Any]] = super().to_topology_nodes()
for o_ran_cu in self.o_ran_cus:
result.extend(o_ran_cu.to_topology_nodes())
return result
- def to_topology_links(self) -> list[dict[str, dict]]:
- result: list[dict[str, dict]] = super().to_topology_links()
+ def to_topology_links(self) -> list[dict[str, Any]]:
+ result: list[dict[str, Any]] = super().to_topology_links()
for o_ran_cu in self.o_ran_cus:
result.extend(o_ran_cu.to_topology_links())
return result
-
+
def toKml(self) -> ET.Element:
ric: ET.Element = ET.Element("Folder")
open: ET.Element = ET.SubElement(ric, "open")
ric.append(o_ran_cu.toKml())
return ric
- def toSvg(self) -> None:
- return None
+ def toSvg(self) -> ET.Element:
+ return ET.Element("to-be-implemented")