文章介绍了Redis中的GEO数据结构,包括GEOADD、GEODIST等命令,并展示了如何使用SpringDataRedis实现附近商户功能,包括初始化店铺数据到Redis以及根据经纬度搜索附近店铺的代码示例。
一、GEO数据结构
GEO就是Geolocation的简写形式,代表地理坐标。Redis在3.2版本中加入了对GEO的支持,允许存储地理坐标信息,帮助我们根据经纬度来检索数据。常见的命令有:
- GEOADD:添加一个地理空间信息,包含:经度(longitude)、维度(latitude)、值(member)
GEOADD key [NX|XX] [CH] longitude latitude member [longitude latitude member ...]
summary: Add one or more geospatial items in the geospatial index represented using a sorted set
since: 3.2.0
GEOADD g1 116.378248 39.565275 bjn 116.42803 39.903738 bjz 116.322287 39.893729 bjx
- GEODIST:计算指定的两个点之间的距离并返回
GEODIST key member1 member2 [M|KM|FT|MI]
summary: Returns the distance between two members of a geospatial index
since: 3.2.0
# 返回距离,默认为M,可以指定
GEODIST g1 bjn bjz
- GEOHASH:将指定member的坐标转为hash字符串形式并返回
GEOHASH key member [member ...]
summary: Returns members of a geospatial index as standard geohash strings
since: 3.2.0
- GEOPOS:返回指定member的坐标
GEOPOS key member [member ...]
summary: Returns longitude and latitude of members of a geospatial index
since: 3.2.0
- GEOPADIUS:指定圆心、半径,找到该圆内包含的所有member,并按照与圆心之间的距离排序后返回。6.2以后已废弃
GEORADIUS key longitude latitude radius M|KM|FT|MI [WITHCOORD] [WITHDIST] [WITHHASH] [COUNT count [ANY]] [ASC|DESC] [STORE key] [STOREDIST key]
summary: Query a sorted set representing a geospatial index to fetch members matching a given maximum distance from a point
since: 3.2.0
- GEOSEARCH:在指定范围内搜索member,并按照与指定点之间的距离排序后返回。范围可以使圆形或矩形。6.2新功能
GEOSEARCH key FROMMEMBER member|FROMLONLAT longitude latitude BYRADIUS radius M|KM|FT|MI|BYBOX width height M|KM|FT|MI [ASC|DESC] [COUNT count [ANY]] [WITHCOORD] [WITHDIST] [WITHHASH]
summary: Query a sorted set representing a geospatial index to fetch members inside an area of a box or a circle.
since: 6.2.0
GEOSEARCH g1 FROMLONLAT 116.397904 39.909005 BYRADIUS 10 km WITHDIST
- GEOSEARCHSTORE:与GEOSEARCH功能一致,不过可以把结果存储到一个指定的key。6.2新功能
GEOSEARCHSTORE destination source FROMMEMBER member|FROMLONLAT longitude latitude BYRADIUS radius M|KM|FT|MI|BYBOX width height M|KM|FT|MI [ASC|DESC] [COUNT count [ANY]] [STOREDIST]
summary: Query a sorted set representing a geospatial index to fetch members inside an area of a box or a circle, and store the result in another key.
since: 6.2.0
二、实现附近商户功能
2.1 初始化店铺数据,根据店铺类型分组存储
@Test
void loadShopData() {
// 1.查询店铺信息
List<Shop> list = shopService.list();
// 2.把店铺分组,按照typeId分组,typeId一致的放到一个集合
Map<Long, List<Shop>> map = list.stream().collect(Collectors.groupingBy(Shop::getTypeId));
// 3.分批完成写入Redis
for (Map.Entry<Long, List<Shop>> entry : map.entrySet()) {
// 3.1.获取类型id
Long typeId = entry.getKey();
String key = SHOP_GEO_KEY + typeId;
// 3.2.获取同类型的店铺的集合
List<Shop> value = entry.getValue();
List<RedisGeoCommands.GeoLocation<String>> locations = new ArrayList<>(value.size());
// 3.3.写入redis GEOADD key 经度 纬度 member
for (Shop shop : value) {
// stringRedisTemplate.opsForGeo().add(key, new Point(shop.getX(), shop.getY()), shop.getId().toString());
locations.add(new RedisGeoCommands.GeoLocation<>(
shop.getId().toString(),
new Point(shop.getX(), shop.getY())
));
}
stringRedisTemplate.opsForGeo().add(key, locations);
}
}
2.2 附近店铺搜索
SpringDataRedis的2.3.9版本不支持Redis6.2提供的GEOSEARCH命令,因此我们需要提升版本。
2.2.1 添加相关依赖
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-data-redis</artifactId>
<exclusions>
<exclusion>
<artifactId>spring-data-redis</artifactId>
<groupId>org.springframework.data</groupId>
</exclusion>
<exclusion>
<artifactId>lettuce-core</artifactId>
<groupId>io.lettuce</groupId>
</exclusion>
</exclusions>
</dependency>
<dependency>
<groupId>org.springframework.data</groupId>
<artifactId>spring-data-redis</artifactId>
<version>2.6.2</version>
</dependency>
<dependency>
<groupId>io.lettuce</groupId>
<artifactId>lettuce-core</artifactId>
<version>6.1.6.RELEASE</version>
</dependency>
2.2.2 根据店铺类型查找附近店铺信息
public Result queryShopByType(Integer typeId, Integer current, Double x, Double y) {
// 1.判断是否需要根据坐标查询
if (x == null || y == null) {
// 不需要坐标查询,按数据库查询
Page<Shop> page = query()
.eq("type_id", typeId)
.page(new Page<>(current, SystemConstants.DEFAULT_PAGE_SIZE));
// 返回数据
return Result.ok(page.getRecords());
}
// 2.计算分页参数
int from = (current - 1) * SystemConstants.DEFAULT_PAGE_SIZE;
int end = current * SystemConstants.DEFAULT_PAGE_SIZE;
// 3.查询redis、按照距离排序、分页。结果:shopId、distance
String key = SHOP_GEO_KEY + typeId;
GeoResults<RedisGeoCommands.GeoLocation<String>> results = stringRedisTemplate.opsForGeo() // GEOSEARCH key BYLONLAT x y BYRADIUS 10 WITHDISTANCE
.search(
key,
// 指定经纬度
GeoReference.fromCoordinate(x, y),
// 半径,这里选择5000m,默认米
new Distance(5000),
RedisGeoCommands.GeoSearchCommandArgs.newGeoSearchArgs().includeDistance().limit(end)
);
// 4.解析出id
if (results == null) {
return Result.ok(Collections.emptyList());
}
List<GeoResult<RedisGeoCommands.GeoLocation<String>>> list = results.getContent();
if (list.size() <= from) {
// 没有下一页了,结束
return Result.ok(Collections.emptyList());
}
// 4.1.截取 from ~ end的部分
List<Long> ids = new ArrayList<>(list.size());
Map<String, Distance> distanceMap = new HashMap<>(list.size());
// stream().skip() 跳过前n个元素
list.stream().skip(from).forEach(result -> {
// 4.2.获取店铺id
String shopIdStr = result.getContent().getName();
ids.add(Long.valueOf(shopIdStr));
// 4.3.获取距离
Distance distance = result.getDistance();
distanceMap.put(shopIdStr, distance);
});
// 5.根据id查询Shop
String idStr = StrUtil.join(",", ids);
List<Shop> shops = query().in("id", ids).last("ORDER BY FIELD(id," + idStr + ")").list();
for (Shop shop : shops) {
shop.setDistance(distanceMap.get(shop.getId().toString()).getValue());
}
// 6.返回
return Result.ok(shops);
}
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