AcidMap/app/models/water_sample.py

from sqlalchemy import Column, Integer, Float, String, Text, DateTime
from geoalchemy2 import Geometry
from app.database import Base


class WaterSampleData(Base):
    """
    灌溉水采样点数据模型

    @param {int} id - 采样点ID（主键，自增）
    @param {str} sample_code - 样品编码
    @param {str} sample_number - 样品编号
    @param {float} longitude - 采样位置经度坐标（精确到小数点后六位数）
    @param {float} latitude - 采样位置纬度坐标（精确到小数点后六位数）
    @param {str} sampling_location - 采样位置描述
    @param {datetime} sample_time - 采样时间
    @param {str} weather - 天气状况
    @param {str} container_material - 样品储存容器材质
    @param {str} container_color - 样品储存容器颜色
    @param {int} container_capacity - 样品储存容器容量(mL)
    @param {float} sampling_volume - 采样体积(mL)
    @param {str} sample_description - 样品状态感官描述
    @param {str} water_quality - 断面水质表现
    @param {str} water_environment - 断面周边环境描述
    @param {str} storage_method - 保存方式
    @param {float} cr_concentration - 铬(Cr)含量(μg/L)
    @param {float} as_concentration - 砷(As)含量(μg/L)
    @param {float} cd_concentration - 镉(Cd)含量(μg/L)
    @param {float} hg_concentration - 汞(Hg)含量(μg/L)
    @param {float} pb_concentration - 铅(Pb)含量(μg/L)
    @param {float} ph_value - 水样pH值
    @param {geometry} geom - 采样点空间位置
    """
    __tablename__ = 'water_sampling_data'

    id = Column('id', Integer, primary_key=True, autoincrement=True, comment='采样点ID')
    sample_code = Column('sample_code', String(20), nullable=True, comment='样品编码')
    sample_number = Column('sample_number', String(20), nullable=True, comment='样品编号')
    longitude = Column('longitude', Float, nullable=True, comment='经度坐标（精确到小数点后六位数）')
    latitude = Column('latitude', Float, nullable=True, comment='纬度坐标（精确到小数点后六位数）')
    sampling_location = Column('sampling_location', String(100), nullable=True, comment='采样位置描述')
    sample_time = Column('sample_time', DateTime, nullable=True, comment='采样时间')
    weather = Column('weather', String(50), nullable=True, comment='天气状况')
    container_material = Column('container_material', String(50), nullable=True, comment='储存容器材质')
    container_color = Column('container_color', String(50), nullable=True, comment='储存容器颜色')
    container_capacity = Column('container_capacity', Integer, nullable=True, comment='储存容器容量(mL)')
    sampling_volume = Column('sampling_volume', Float, nullable=True, comment='采样体积(mL)')
    sample_description = Column('sample_description', Text, nullable=True, comment='样品状态感官描述')
    water_quality = Column('water_quality', String(100), nullable=True, comment='断面水质表现')
    water_environment = Column('water_environment', String(100), nullable=True, comment='断面周边环境')
    storage_method = Column('storage_method', Text, nullable=True, comment='保存方式')

    # 重金属含量字段（单位：μg/L）
    cr_concentration = Column('cr_concentration', Float, nullable=True, comment='铬(Cr)含量(μg/L)')
    as_concentration = Column('as_concentration', Float, nullable=True, comment='砷(As)含量(μg/L)')
    cd_concentration = Column('cd_concentration', Float, nullable=True, comment='镉(Cd)含量(μg/L)')
    hg_concentration = Column('hg_concentration', Float, nullable=True, comment='汞(Hg)含量(μg/L)')
    pb_concentration = Column('pb_concentration', Float, nullable=True, comment='铅(Pb)含量(μg/L)')

    ph_value = Column('ph_value', Float, nullable=True, comment='水样pH值')