TypeError：不支持的操作数类型：'property'与'complex

这段代码是用来计算液体推进剂的离心喷嘴的，每个公式都对应一个单独的功能。代码里面有一个主要的类叫做 Injector，这个类负责进行所有基本的计算。此外，还有两个其他的类 CentrifugalInjector 和 ScrewInjector，在这两个类中，记录了用户在开始计算之前需要选择的内容，具体使用哪个类，计算方式就会有所不同。

但是在运行代码后，我们得到了以下结果：

Traceback (most recent call last):
  File "G:\LARIS\tests\test_centrifugal_injector.py", line 50, in <module>
    test()
  File "G:\LARIS\tests\test_centrifugal_injector.py", line 34, in test
    print(injector.equivalent_geometric_characteristic_injector)
          ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
  File "G:\LARIS\src\centrifugal_injector_calc.py", line 95, in equivalent_geometric_characteristic_injector
    return geometric_characteristics / (1 + self.coefficient_friction / 2 * self.radius_tangential_inlet *
           ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
TypeError: unsupported operand type(s) for /: 'property' and 'complex'`

程序代码：

import math
from dataclasses import dataclass
from enum import Enum


class AngularValues(Enum):
    RIGHT_ANGLE = 90


class ConstructiveTypes(Enum):
    CENTRIFUGAL_INJECTOR = "CENTRIFUGAL"
    SCREW_INJECTOR = "SCREW"


@dataclass(frozen=True, slots=True)
class Injector:
    outer_diameter_injector: float
    side_wall_thickness_injector: float
    number_input_tangential_holes: float

    diameter_input_tangential_holes: float
    length_input_tangential_holes: float

    relative_length_twisting_chamber: float

    diameter_injector_nozzle: float
    relative_length_injector_nozzle: float

    angle_nozzle_axis: float

    mass_flow_rate: float
    viscosity: float

    injector_type: str

    @property
    def diameter_twisting_chamber_injector(self) -> float:
        """Возвращает диаметр камеры закручивания центробежной форсунки"""
        return self.outer_diameter_injector - 2 * self.side_wall_thickness_injector

    @property
    def relative_length_tangential_hole(self) -> float:
        """Возвращает отношение длины входного тангенциального к его диаметру"""
        return self.length_input_tangential_holes / self.diameter_input_tangential_holes

    @property
    def length_twisting_chamber(self) -> float:
        """Возвращает длину камеры закручивания центробежной форсунки"""
        return self.relative_length_twisting_chamber * self.diameter_twisting_chamber_injector

    @property
    def radius_twisting_chamber_injector(self) -> float:
        """Возвращает радиус камеры закручивания центробежной форсунки"""
        return self.diameter_twisting_chamber_injector / 2

    @property
    def radius_input_tangential_holes(self) -> float:
        """Возвращает радиус входных тангенциальных отверстий"""
        return self.diameter_input_tangential_holes / 2

    @property
    def radius_tangential_inlet(self) -> float:
        """Возвращает величину радиуса, на котором расположена ось входного тангенциального отверстия от оси форсунки"""
        return self.radius_twisting_chamber_injector - self.radius_input_tangential_holes

    @property
    def length_injector_nozzle(self) -> float:
        """Возвращает длину сопла форсунки"""
        return self.relative_length_injector_nozzle * self.diameter_injector_nozzle

    @property
    def radius_injector_nozzle(self) -> float:
        """Возвращает радиус сопла форсунки"""
        return self.diameter_injector_nozzle / 2

    @property
    def reynolds_number(self) -> float:
        """Возвращает число Рейнольдса"""
        return (4 * self.mass_flow_rate) / (math.pi * self.viscosity * self.diameter_input_tangential_holes
                                            * math.sqrt(self.number_input_tangential_holes))

    @property
    def coefficient_friction(self) -> float:
        """Возвращает коэффициент трения"""
        return 10 ** ((25.8 / (math.log(self.reynolds_number, 10))**2.58) - 2)

    @property
    def equivalent_geometric_characteristic_injector(self) -> float:
        """Возвращает эквивалентную геометрическую характеристику"""
        if self.injector_type == ConstructiveTypes.SCREW_INJECTOR.value:
            geometric_characteristics = ScrewInjector.geometric_characteristics
        elif self.injector_type == ConstructiveTypes.CENTRIFUGAL_INJECTOR.value:
            geometric_characteristics = CentrifugalInjector.geometric_characteristics

        return geometric_characteristics / (1 + self.coefficient_friction / 2 * self.radius_tangential_inlet *
                                            (self.radius_tangential_inlet + self.diameter_input_tangential_holes -
                                             self.radius_injector_nozzle))


class ScrewInjector(Injector):
    cross_sectional_area_one_passage_channel: float

    @property
    def geometric_characteristics(self) -> float:
        """Возвращает геометрическую характеристику шнековой форсунки"""
        return (math.pi * self.radius_tangential_inlet * self.radius_injector_nozzle) / \
               (self.number_input_tangential_holes * self.cross_sectional_area_one_passage_channel)


class CentrifugalInjector(Injector):
    @property
    def geometric_characteristics(self) -> float:
        """Возвращает геометрическую характеристику центробежной форсунки"""
        if self.angle_nozzle_axis == AngularValues.RIGHT_ANGLE.value:
            return (self.radius_tangential_inlet * self.radius_injector_nozzle) / \
                   (self.number_input_tangential_holes * self.radius_input_tangential_holes**2)
        else:
            return (self.radius_tangential_inlet * self.radius_injector_nozzle) / \
                   (self.number_input_tangential_holes * self.radius_input_tangential_holes**2) * self.angle_nozzle_axis

验证文件代码：

from src.centrifugal_injector_calc import Injector, CentrifugalInjector, ScrewInjector


def test() -> None:
    common = {
        "outer_diameter_injector": 15,
        "side_wall_thickness_injector": 1,
        "number_input_tangential_holes": 10,
        "diameter_input_tangential_holes": 10,
        "length_input_tangential_holes": 10,
        "relative_length_twisting_chamber": 10,
        "diameter_injector_nozzle": 10,
        "relative_length_injector_nozzle": 10,
        "angle_nozzle_axis": 10,
        "mass_flow_rate": 10,
        "viscosity": 1,
        "injector_type": "CENTRIFUGAL"
    }

    injector = Injector(
        **common
    )

    print(injector.diameter_twisting_chamber_injector)
    print(injector.relative_length_tangential_hole)
    print(injector.length_twisting_chamber)
    print(injector.radius_twisting_chamber_injector)
    print(injector.radius_input_tangential_holes)
    print(injector.radius_tangential_inlet)
    print(injector.length_injector_nozzle)
    print(injector.radius_injector_nozzle)
    print(injector.reynolds_number)
    print(injector.coefficient_friction)
    print(injector.equivalent_geometric_characteristic_injector)

    centrifugal = CentrifugalInjector(
        **common
    )

    print(centrifugal.geometric_characteristics)

    screw = ScrewInjector(
        **common, cross_sectional_area_one_passage_channel=5.0
    )

    print(screw.geometric_characteristics)


if __name__ == "__main__":
    test()