gas-injection/src/views/vent/home/configurable/configurable.api.ts

import { floor, random } from 'lodash-es';
import { defHttp } from '/@/utils/http/axios';
import { get } from '../billboard/utils';

enum Api {
  list = '/safety/ventanalyDevice/homedata2',
  getHomeData = '/safety/ventanalyDevice/homedata',
  getDisHome = '/ventanaly-device/monitor/disaster/getDisHome',
  getBDDustData = '/ventanaly-device/monitor/disaster/getDisDustHome',
  getBDFireData = '/ventanaly-device/monitor/disaster/getDisFireHome',
}

// 搞这个缓存是由于：目前代码上的设计是多个模块发出多次请求，每个模块自己负责消费前者的响应。
// 这会导致相同的请求被同时发送多次。
const cache = new Map<string, Promise<any>>();

/**
 * 列表接口，5.5专用，和6.0的getHomeData基本一致
 * @param params
 */
export const list = (params) => {
  const key = `${Api.list}?${JSON.stringify(params)}`;
  if (!cache.has(key)) {
    cache.set(
      key,
      defHttp.post({ url: Api.list, params }).finally(() => {
        cache.delete(key);
      })
    );
  }
  return (cache.get(key) as Promise<any>).then((res) => {
    res.fanmain.forEach((e) => {
      if (e.readData.Fan2StartStatus === '1') {
        e.current = '二号';
        e.readData.FanFreqHz = e.readData.Fan2FreqHz;
      } else {
        e.current = '一号';
        e.readData.FanFreqHz = e.readData.Fan1FreqHz;
      }
    });
    res.fanlocal.forEach((e) => {
      e.chartData = [
        {
          x: '吸风量',
          yRealtime: e.readData.windQuantity1,
          yMock: floor(parseFloat(e.inletAirVolume_merge) * random(0.98, 1, false), 2),
          y: e.inletAirVolume_merge,
        },
        {
          x: '供风量',
          yRealtime: e.readData.windQuantity2,
          yMock: floor(parseFloat(e.ductOutletAirVolume_merge) * random(0.98, 1, false), 2),
          y: e.ductOutletAirVolume_merge,
        },
      ];
      if (e.readData.Fan2StartStatus === '1') {
        e.current = '二号';
        e.readData.FanfHz = e.readData.Fan2fHz;
      } else {
        e.current = '一号';
        e.readData.FanfHz = e.readData.Fan1fHz;
      }
    });
    res.sys_majorpath.forEach((e) => {
      const { drag_1, drag_2, drag_3, drag_total } = e.majorpath;
      const { fy_merge = { value: '1' } } = e.readData;
      const drag_merge = parseInt(fy_merge.value);
      // const m3_merge = parseInt(retM3_merge.value);

      e.piechart = [
        { val: drag_1, valMock: floor((drag_1 / drag_total) * drag_merge), label: '进风区(Pa)' },
        { val: drag_2, valMock: floor((drag_2 / drag_total) * drag_merge), label: '用风区(Pa)' },
        { val: drag_3, valMock: floor((drag_3 / drag_total) * drag_merge), label: '回风区(Pa)' },
      ];
      e.readData.dengjikong_merge = get(res, 'midinfo[0].sysinfo.equalarea');
      // e.dengjikong_merge = floor((1.19 * (m3_merge / 60)) / Math.sqrt(drag_merge), 2);
    });
    res.device_arr = Object.values(res.device);

    return res;
  });
};

export const getHomeData = (params) => {
  const key = `${Api.getHomeData}?${JSON.stringify(params)}`;
  if (!cache.has(key)) {
    cache.set(
      key,
      defHttp.post({ url: Api.getHomeData, params }).finally(() => {
        cache.delete(key);
      })
    );
  }
  return (cache.get(key) as Promise<any>).then((res) => {
    res.fanmain.forEach((e) => {
      if (e.readData.Fan2StartStatus === '1') {
        e.current = '二号';
        e.readData.FanFreqHz = e.readData.Fan2FreqHz;
      } else {
        e.current = '一号';
        e.readData.FanFreqHz = e.readData.Fan1FreqHz;
      }
    });
    res.fanlocal.forEach((e) => {
      e.chartData = [
        {
          x: '吸风量',
          y: e.readData.windQuantity1,
        },
        {
          x: '供风量',
          y: e.readData.windQuantity2,
        },
      ];
      if (e.readData.Fan2StartStatus === '1') {
        e.current = '二号';
        e.readData.FanfHz = e.readData.Fan2fHz;
      } else {
        e.current = '一号';
        e.readData.FanfHz = e.readData.Fan1fHz;
      }
    });
    res.sys_majorpath.forEach((e) => {
      e.piechart = [
        { val: e.majorpath.drag_1, label: '进风区' },
        { val: e.majorpath.drag_2, label: '用风区' },
        { val: e.majorpath.drag_3, label: '回风区' },
      ];
    });

    return res;
  });
};

export const getBDDustData = (params) => {
  const key = `${Api.getBDDustData}?${JSON.stringify(params)}`;
  if (!cache.has(key)) {
    cache.set(
      key,
      defHttp.post({ url: Api.getBDDustData, params }).finally(() => {
        cache.delete(key);
      })
    );
  }
  return cache.get(key) as Promise<any>;
};

export const getBDFireData = (params) => {
  const key = `${Api.getBDFireData}?${JSON.stringify(params)}`;
  if (!cache.has(key)) {
    cache.set(
      key,
      defHttp.post({ url: Api.getBDFireData, params }).finally(() => {
        cache.delete(key);
      })
    );
  }
  return (cache.get(key) as Promise<any>).then((res) => {
    res.pdArray.forEach((e) => {
      e.arrayFiber.forEach((j) => {
        j.fibreTemperatureArr = JSON.parse(j.fibreTemperature);
      });
    });
    res.sgGxObj.devGxcw.forEach((e) => {
      e.fibreTemperatureArr = JSON.parse(e.fibreTemperature);
    });
    res.sgGxObj.devSgjc.forEach((e) => {
      e.o2val = e.o2Val || 0;
      e.coval = e.coVal || 0;
      e.gasval = e.gasVal || 0;
      e.ch2val = e.ch2Val || 0;
      e.chval = e.chVal || 0;
    });
    return res;
  });
};

export const getDisHome = (params) => {
  const key = `${Api.getDisHome}?${JSON.stringify(params)}`;
  if (!cache.has(key)) {
    cache.set(
      key,
      defHttp.post({ url: Api.getDisHome, params }).finally(() => {
        cache.delete(key);
      })
    );
  }
  return (cache.get(key) as Promise<any>).then((res) => {
    if (res.pdArray) {
      res.pdArray.forEach((e) => {
        e.arrayFiber.forEach((j) => {
          j.fibreTemperatureArr = JSON.parse(j.fibreTemperature);
        });
      });
    }
    if (res.sgGxObj) {
      res.sgGxObj.devGxcw.forEach((e) => {
        e.fibreTemperatureArr = JSON.parse(e.fibreTemperature);
      });
      res.sgGxObj.devSgjc.forEach((e) => {
        e.o2val = e.o2Val || 0;
        e.coval = e.coVal || 0;
        e.gasval = e.gasVal || 0;
        e.ch2val = e.ch2Val || 0;
        e.chval = e.chVal || 0;
      });
    }
    if (res.obfObj) {
      res.obfObj.obfObjModded = [
        {
          objType: '甲烷',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.ch4Val || 0,
            };
          }),
        },
        {
          objType: '一氧化碳',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.coVal || 0,
            };
          }),
        },
        {
          objType: '乙炔',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.c2h2Val || 0,
            };
          }),
        },
        {
          objType: '二氧化碳',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.co2Val || 0,
            };
          }),
        },
        {
          objType: '氧气',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.o2Val || 0,
            };
          }),
        },
        {
          objType: '乙烯',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.c2h4Val || 0,
            };
          }),
        },
        {
          objType: '压差',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.dpVal || 0,
            };
          }),
        },
        {
          objType: '温度',
          arrayDev: res.obfObj.arrayDev.map((e) => {
            return {
              strinstallpos: e.strinstallpos,
              val: e.tempVal || 0,
            };
          }),
        },
      ];
    }
    return res;
  });
};