import time from django.db.models import Q, Min, Max from django.core.cache import cache from rest_framework import serializers from counter.models import DeviceCount, DeviceInfo from mosquito.models import DeviceInfo as CelexDeviceInfo from mosquito.models import MosqPostStatistic, DevicePostStatistic def get_vol(device_id, cur_vol): vol_min_key = '{}_vol_min'.format(device_id) vol_max_key = '{}_vol_max'.format(device_id) vol_min = cache.get(vol_min_key) vol_max = cache.get(vol_max_key) if not vol_min: vol_min = DeviceCount.objects.filter(device_id=device_id).aggregate(vol_min=Min('vol'))['vol_min'] cache.set(vol_min_key, vol_min, 60 * 5) if not vol_max: vol_max = DeviceCount.objects.filter(device_id=device_id).aggregate(vol_max=Max('vol'))['vol_max'] cache.set(vol_max_key, vol_max, 60 * 5) vol = 100 * (int(cur_vol) - int(vol_min)) / (int(vol_max) - int(vol_min)) return '{}{}'.format(round(vol, 1), '%') def get_latest(device_id): latest_key = 'device_latest_{}'.format(device_id) latest = cache.get(latest_key) if latest: return latest latest = DeviceCount.objects.filter(device_id=device_id).order_by('-data_time')[0] s = DeviceCountBaseSerializer(latest) data = s.data cache.set(latest_key, data, 60 * 10) return data def get_device(device_id): device_key = 'device_lon_{}'.format(device_id) device = cache.get(device_key) if device: return device qs = DeviceCount.objects.filter(~Q(longitude=0), device_id=device_id).order_by('-data_time') if qs.count() == 0: return None device = qs.first() s = DeviceCountBaseSerializer(device) data = s.data cache.set(device_key, data, 60 * 10) return data class DeviceCountBaseSerializer(serializers.ModelSerializer): class Meta: model = DeviceCount fields = '__all__' class DeviceCountSerializer(serializers.ModelSerializer): device_name = serializers.SerializerMethodField() mosq_count = serializers.SerializerMethodField() signal = serializers.SerializerMethodField() energy = serializers.SerializerMethodField() calc_time = serializers.SerializerMethodField() longitude = serializers.SerializerMethodField() latitude = serializers.SerializerMethodField() class Meta: model = DeviceCount fields = [ 'id', 'device_id', 'device_name', 'signal', 'mosq_count', 'energy', 'calc_time', 'longitude', 'latitude' ] def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.device = None def get_mosq_count(self, obj): return obj.count def get_signal(self, obj): return obj.csq def get_energy(self, obj): if float(obj.vol) <= 100: return '{}{}'.format(round(float(obj.vol), 1), '%') return get_vol(obj.device_id, obj.vol) def get_calc_time(self, obj): return obj.data_time.strftime('%Y-%m-%d %H:%M:%S') def get_device_name(self, obj): device_id = obj.device_id device = cache.get(device_id) if device: self.device = device return device.device_name qs = CelexDeviceInfo.objects.filter(device_id=device_id) if qs.count() > 0: device = qs[0] self.device = device cache.set(device_id, device, 60 * 60 * 24) return device.device_name return None def get_longitude(self, obj): device = self.device if device: if device.longitude: return device.longitude return obj.longitude def get_latitude(self, obj): device = self.device if device: if device.latitude: return device.latitude return obj.latitude class DeviceInfoSerializer(serializers.ModelSerializer): device_name = serializers.SerializerMethodField() status = serializers.SerializerMethodField() count = serializers.SerializerMethodField() signal = serializers.SerializerMethodField() energy = serializers.SerializerMethodField() coordinate = serializers.SerializerMethodField() time = serializers.SerializerMethodField() class Meta: model = DeviceInfo fields = [ 'device_id', 'device_name', 'status', 'count', 'signal', 'energy', 'coordinate', 'time', ] def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.latest = None self.cur_device = None def get_device_name(self, obj): qs = CelexDeviceInfo.objects.filter(device_id=obj.device_id) if qs.count() > 0: device = qs[0] self.cur_device = device return device.device_name return None def get_status(self, obj): return obj.online def get_count(self, obj) ->str: try: # self.latest = DeviceCount.objects.filter(device_id=obj.device_id).order_by('-data_time')[0] self.latest = get_latest(obj.device_id) except IndexError: self.latest = None if self.latest: return self.latest['count'] return '0' def get_signal(self, obj) ->str: if self.latest: return self.latest['csq'] return '0' def get_energy(self, obj) ->str: if self.latest: if float(self.latest['vol']) <= 100: return '{}{}'.format(round(float(self.latest['vol']), 1), '%') return get_vol(obj.device_id, self.latest['vol']) return '0%' def get_coordinate(self, obj): if self.cur_device: lon, lat = [self.cur_device.longitude, self.cur_device.latitude] if lon and lat: return [lon, lat] # query = DeviceCount.objects.filter(~Q(longitude=0), device_id=obj.device_id).order_by('-data_time') device = get_device(obj.device_id) if device: return [device['longitude'], device['latitude']] return None def get_time(self, obj): if self.latest: return self.latest['data_time'].replace('T', ' ').replace('Z', '') return None class LatestDailySerializer(serializers.ModelSerializer): class Meta: model = MosqPostStatistic fields = [ 'date', 'total', 'increment', ] class DeviceLogHistorySerializer(serializers.ModelSerializer): class Meta: model = DevicePostStatistic fields = [ 'device_id', 'total', 'date' ]