screen_demo3.git

			@@ -39,7 +39,7 @@
			legend: {
			data: [],
			orient: 'vertical',
			right: 40,
			right: 30,
			top: 5,
			bottom: 20,
			type: 'scroll'
			@@ -59,17 +59,18 @@
			};

			public sensorArr: any = [];
			public resultArr: any = [];
			public items: any = [];
			public title: string;
			private timeArr = ['年', '月', '日', '时', '分'];
			public typeArr = ['year', 'month', 'day', 'hour'];
			public sensorKeys: any = [
			{key: 'e1', name: 'PM 2.5'},
			{key: 'e2', name: 'PM 10'},
			{key: 'e10', name: '一氧化碳（CO）'},
			{key: 'e11', name: '二氧化硫（SO₂）'},
			{key: 'e15', name: '臭氧（O₃）'},
			{key: 'e16', name: '二氧化氮（NO₂）'}
			{key: 'e1', name: 'PM 2.5', effect: 'PM2.5被吸入人体后易引发包括哮喘、支气管炎和心血管病等方面疾病', measures: '外出戴专业防尘口罩室内可使用空气净化器，少开窗户，勤洗脸'},
			{key: 'e2', name: 'PM 10', effect: '大气中PM10浓度上升易引起上呼吸道感染，鼻炎、慢性咽炎等呼吸系统疾病', measures: '室内可使用空气净化器，少开窗户工厂内应注意防止造成大量扬尘'},
			{key: 'e10', name: '一氧化碳（CO）', effect: '一氧化碳与血红蛋白的结合，抑制、延缓氧血红蛋白的解析和释放', measures: '制定和执行一氧化碳的卫生标准'},
			{key: 'e11', name: '二氧化硫（SO₂）', effect: '二氧化硫浓度较高时，可以引起呼吸道疾病，改变肺的防病机制', measures: '控制工艺过程中的二氧化硫排放，工人用饱和碳酸钠溶液湿润后夹在纱布口罩中以吸收SO2'},
			{key: 'e15', name: '臭氧（O₃）', effect: '臭氧能刺激粘液膜，它对人体有毒能造成人的神经中毒，强烈刺激人的呼吸道', measures: '从源头控制、制定排放标准'},
			{key: 'e16', name: '二氧化氮（NO₂）', effect: '二氧化氮吸入后对肺组织具有强烈的刺激性和腐蚀性，出现肺水肿', measures: '佩戴自吸过滤式防毒面具(全面罩)工作现场禁止吸烟、进食和饮水'}
			];

			private pieCharOption: any = {
			@@ -89,7 +90,7 @@
			graphic: [],
			series: []
			};

			public isShow = true;
			ngOnInit() {
			const params = JSON.parse(sessionStorage.getItem('queryParams'));
			if (!!params) {
			@@ -114,7 +115,7 @@
			option.yAxis.name = split[2] && split[2] !== 'null' ? '单位:' + split[2] : '';
			option.series = [];
			option.legend.data = [];
			if (index % 2 == 0) {
			if (index % 2 === 0) {
			option.backgroundColor = 'rgba(0,0,0,0)';
			} else {
			option.backgroundColor = 'rgba(23,133,23,0.06)';
			@@ -156,14 +157,14 @@
			this.title += title[i] + timeArr[i];
			}

			if ((params.type == 'month' \|\| params.type == 'year') && res.data.sortList.length > 0) {
			if ((params.type === 'month' \|\| params.type === 'year') && res.data.sortList.length > 0) {
			let center = ['50%', '50%'];
			let left = '40%';
			const length = items.length;
			const alarmDatas = res.data.alarmDatas;
			for (let i = 0; i < length; i++) {
			this.pieCharOption.legend.data = [];
			let data = [];
			const data = [];
			this.sensorKeys.forEach(sensorKey => {
			this.pieCharOption.legend.data.push(sensorKey.name);
			if (alarmDatas[i]) {
			@@ -173,8 +174,8 @@
			});
			}
			});
			if (length == 2) {
			if (i == 0) {
			if (length === 2) {
			if (i === 0) {
			center = ['25%', '50%'];
			left = '15%';
			} else {
			@@ -189,7 +190,7 @@
			center: center,
			label: {
			normal: {
			formatter: "{b}:{d}%"
			formatter: '{b}:{d}%'
			}
			},
			labelLine: {
			@@ -209,16 +210,37 @@
			});
			}

			if (sensors.length % 2 == 0) {
			if (sensors.length % 2 === 0) {
			this.pieCharOption.backgroundColor = 'rgba(0,0,0,0)';
			} else {
			this.pieCharOption.backgroundColor = 'rgba(23,133,23,0.06)';
			}
			const myChart = echarts.init(document.getElementById('pieChar'));
			myChart.setOption(this.pieCharOption, true);
			window.onresize = myChart.resize;
			const myChart = echarts.init(document.getElementById('pieChar'));
			myChart.setOption(this.pieCharOption, true);
			window.onresize = myChart.resize;

			for (let i = 0, j = res.data.sortList.length; i < j; i++) {
			if (i < 5) {
			for (const key in res.data.sortList[i]) {
			const split = key.split('-');
			this.sensorKeys.forEach(sensor => {
			if (sensor.key === split[0]) {
			this.resultArr.push({
			sensorName: sensor.name,
			monitorPointName: this.items[split[1]].mac ? this.items[split[1]].deviceName : this.items[split[1]].monitorPointName,
			result: res.data.sortList[i][key] + '%',
			effect: sensor.effect,
			measures: sensor.measures
			});
			}

			});
			}
			}
			}
			} else {
			$('#pieChar').remove();
			this.isShow = false;
			}
			}
			});