• 百万点数据矢量切片实时聚合展示


    背景

        平时我们可能有比较大量的点数据要展示又不想预处理,在线浏览数据请求时间控制在3s左右。

    准备

        软件环境:PostGIS,数据是3578998条点数据。

    环境

        八核处理器(Intel(R)Core(TM) i7-10750H CPU @2.60GHz 2.59GHZ),RAM 16.0 GB,硬盘SSD

    原理

        聚合原理参考我之前的文章千万数据展示-矢量切片点聚合
    比较重要的是要进行pg数据库配置修改,参考阿里的配置项,调整过程中要先备份好配置文件,可以修改完一两个配置就重启数据库,这样就避免全部修改完不能启动的尴尬局面。

    --示例1
     SELECT ST_AsMVT(vt,'points',256,'geo') tile 
    FROM (select ST_SetSRID( ST_Point( ST_X(a.geo),ST_Y(a.geo)), 4326) geo from (
    	SELECT ST_AsMVTGeom(w.geom,Box2D(TileBBox(10,176,409,4326)),256,0,true) AS geo 
    FROM  public.capnt w  where TileBBox(10,176,409,4326)&&geom) a
    group by ST_X(a.geo),ST![](https://p1-juejin.byteimg.com/tos-cn-i-k3u1fbpfcp/644f045b96e34fe6b4d456c6eb8e8d13~tplv-k3u1fbpfcp-zoom-1.image)_Y(a.geo)  ) AS  vt					
    

    实战

        写个简单的查询服务,当级别在8-11级别可以使用聚合减少数据量,当级别大于11级直接查出就可以

    package main
    import 
    (   
        _ "github.com/lib/pq"
    	"database/sql"
    	"github.com/julienschmidt/httprouter"
    	"time"
        "log"
        "errors"
    	"fmt"
        "net/http"
    	"strconv"
    	"bytes"
        "compress/gzip"
    )
    func FloatToString(input_num float64) string {
        return strconv.FormatFloat(input_num, 'f', 6, 64)
    }
    
    func gZipData(data []byte) (compressedData []byte, 
    	err error) {
    	var b bytes.Buffer
    	gz := gzip.NewWriter(&b)
    
    	_, err = gz.Write(data)
    	if err != nil {
    		return
    	}
    
    	if err = gz.Flush(); err != nil {
    		return
    	}
    
    	if err = gz.Close(); err != nil {
    		return
    	}
    	compressedData =b.Bytes()
    	return
    }
    
    func check(e error) {
        if e != nil {
            log.Fatal(e)
        }
    }
    
    type Tile struct {
    	X, Y, Z int
    }
    // ZMax is the maximum Z coordinate for a tile as well as quadkey level
    const ZMax = 23
    func Tile2Quadkey(t Tile) string {
    	//bytes.Buffer was bottleneck
    	z := t.Z
    	var qk [ZMax]byte
    	for i := z; i > 0; i-- {
    		q := 0
    		m := 1 << uint(i-1)
    		if (t.X & m) != 0 {
    			q++
    		}
    		if (t.Y & m) != 0 {
    			q += 2
    		}
    		var d byte
    		switch q {
    		case 0:
    			d = '0'
    		case 1:
    			d = '1'
    		case 2:
    			d = '2'
    		case 3:
    			d = '3'
    		default:
    			panic("Invalid tile.Quadkey()")
    		}
    		qk[z-i] = d
    	}
    	return string(qk[:z])
    }
    func Quad2Tile(qk string) (tile Tile, err error) {
    	tile.Z = len(qk)
    	for i := tile.Z; i > 0; i-- {
    		m := 1 << uint(i-1)
    		c := len(qk) - i
    		q := qk[c]
    		switch q {
    		case '0':
    		case '1':
    			tile.X |= m
    		case '2':
    			tile.Y |= m
    		case '3':
    			tile.X |= m
    			tile.Y |= m
    		default:
    			err = errors.New("Invalid Quadkey " + qk)
    			tile = Tile{} // zero tile
    			return
    		}
    	}
    	return
    }
    func createTile(w http.ResponseWriter, r *http.Request, p httprouter.Params){
    	//start := time.Now() 
    	header := w.Header()
    	if origin := r.Header.Get("Origin"); origin != "" {
    		header.Set("Access-Control-Allow-Methods", r.Header.Get("Allow"))
    		header.Set("Access-Control-Allow-Origin", "*")
    	}
    	header.Set("Content-Type", "application/x-protobuf")
    	header.Add("Content-Encoding", "gzip")
    	header.Add("Accept-Encoding", "gzip")
    	xs:=p.ByName("x")
    	ys:=p.ByName("y")
    	zs:=p.ByName("z")
    	z,errz := strconv.Atoi(zs)
    	check(errz) 
    
    	if (z>min){
    				
    		var sql string
    		bbox:=zs+","+xs+","+ys
    		if (z>min&&z<max){
    			sql="SELECT ST_AsMVT(vt,'points',256,'geo') tile FROM (select ST_SetSRID( ST_Point( ST_X(a.geo),ST_Y(a.geo)), 4326) geo from (	SELECT ST_AsMVTGeom(w.geom,Box2D(TileBBox("+bbox+",4326)),256,0,true) AS geo FROM  "+table+" w  where TileBBox("+bbox+",4326)&&geom) a group by ST_X(a.geo),ST_Y(a.geo)  ) AS  vt"	
    
    		}else{
    			sql="SELECT ST_AsMVT(tile,'points',4096,'geom') tile  FROM (SELECT ST_AsMVTGeom(w.geom,Box2D(TileBBox("+bbox+",4326)),4096, 0, true) AS geom FROM "+table+" w where TileBBox("+bbox+",4326)&&w.geom ) AS  tile "
    						
    		}
    		//fmt.Println(sql)
    		var tile []byte				
    		rows:= db.QueryRow(sql)
    		err := rows.Scan(&tile)
    		if err != nil {
    		log.Fatal(err)
    			http.Error(w, "Invalid tile url", 400)
    			return
    		}
    		size := cap(tile)
    		if size== 0 {			
    			http.Error(w, "Invalid tile url", 400)
    			return
    		}
    		compressedData, Err := gZipData(tile)
    		if Err != nil {
    			log.Fatal(Err)
    			http.Error(w, "Invalid tile url", 400)
    			return
    		}else{
    
    			w.Write(compressedData)
    		}
    
    	}else{
    
    		http.Error(w, "Invalid tile url", 400)
    		return
    	}
    
    }
    var db *sql.DB
    var err error
    var table string
    var min int=7
    var	max int=12
    var tileBase string
    func main(){
    	start := time.Now() 
    	table="public."point_grid""
    	mux :=  httprouter.New()
    	tileBase = "/tiles/:z/:x/:y"
    	connStr := "dbname=postgis_30_sample user=postgres password=123456 host=localhost port=5432  sslmode=disable"
    	db, err = sql.Open("postgres", connStr)
    	if err != nil {
    		panic(err)
    	}
    	defer db.Close()
    	err = db.Ping()
    	if err != nil {
    		panic(err)
    	}
    	db.SetMaxOpenConns(8) 
    	db.SetMaxIdleConns(8)
    	elapsed := time.Since(start)
    	fmt.Println("min max ", min,max)
    	fmt.Println("启动耗时: ", elapsed)
    	mux.GET(tileBase, createTile) 
    	log.Fatal(http.ListenAndServe(":8081", mux))
    }
    

    参考资料:

    https://developer.aliyun.com/article/700363

  • 相关阅读:
    20199319 《深入理解计算机系统》第一章学习总结
    速读《深入理解计算机系统》
    《文献管理与信息分析》快速学习
    速读《构建之法(第三版)》 20199319
    2019-2020-1 20199319《Linux内核原理与分析》第六周作业
    2019-2020-1 20199319《Linux内核原理与分析》第五周作业
    2019-2020-1 20199319《Linux内核原理与分析》第四周作业
    2019-2020-1 20199319《Linux内核原理与分析》第三周作业
    2019-2020-1 20199319《Linux内核原理与分析》第二周作业
    2019-2020-1 20199319《Linux内核原理与分析》第一周作业
  • 原文地址:https://www.cnblogs.com/polong/p/13511924.html
Copyright © 2020-2023  润新知