在线文档地址
https://elasticsearch.cn/book/elasticsearch_definitive_guide_2.x/index.html
索引文档
在Elasticsearch集群中添加3条雇员信息:
PUT /megacorp/employee/1
{
"first_name" : "John",
"last_name" : "Smith",
"age" : 25,
"about" : "I love to go rock climbing",
"interests": [ "sports", "music" ]
}
PUT /megacorp/employee/2
{
"first_name" : "Jane",
"last_name" : "Smith",
"age" : 32,
"about" : "I like to collect rock albums",
"interests": [ "music" ]
}
PUT /megacorp/employee/3
{
"first_name" : "Douglas",
"last_name" : "Fir",
"age" : 35,
"about": "I like to build cabinets",
"interests": [ "forestry" ]
}
检索文档
检索到单个雇员的数据
GET /megacorp/employee/1
将 HTTP 命令由 PUT 改为 GET 可以用来检索文档,同样的,可以使用 DELETE 命令来删除文档,以及使用 HEAD 指令来检查文档是否存在。如果想更新已存在的文档,只需再次 PUT 。
返回信息如下:
{
"_index" : "megacorp",
"_type" : "employee",
"_id" : "1",
"_version" : 1,
"found" : true,
"_source" : {
"first_name" : "John",
"last_name" : "Smith",
"age" : 25,
"about" : "I love to go rock climbing",
"interests": [ "sports", "music" ]
}
}
轻量搜索
搜索所有雇员
GET /megacorp/employee/_search
可以看到,我们仍然使用索引库 megacorp 以及类型 employee,但与指定一个文档 ID 不同,这次使用_search 。返回结果包括了所有三个文档,放在数组 hits 中。一个搜索默认返回十条结果。
返回信息如下:
{
"took": 6,
"timed_out": false,
"_shards": { ... },
"hits": {
"total": 3,
"max_score": 1,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "3",
"_score": 1,
"_source": {
"first_name": "Douglas",
"last_name": "Fir",
"age": 35,
"about": "I like to build cabinets",
"interests": [ "forestry" ]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 1,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [ "sports", "music" ]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 1,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [ "music" ]
}
}
]
}
}
搜索姓氏为"Smith"的雇员
为此,我们将使用一个 高亮 搜索,很容易通过命令行完成。这个方法一般涉及到一个 查询字符串 (query-string) 搜索,因为我们通过一个URL参数来传递查询信息给搜索接口:
GET /megacorp/employee/_search?q=last_name:Smith
我们仍然在请求路径中使用 _search 端点,并将查询本身赋值给参数 q= 。返回结果给出了所有的 Smith:
{
...
"hits": {
"total": 2,
"max_score": 0.30685282,
"hits": [
{
...
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [ "sports", "music" ]
}
},
{
...
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [ "music" ]
}
}
]
}
}
使用查询表达式搜索
Query-string 搜索通过命令非常方便地进行临时性的即席搜索 ,但它有自身的局限性(参见 轻量 搜索 )。Elasticsearch 提供一个丰富灵活的查询语言叫做 查询表达式 , 它支持构建更加复杂和健壮的查询。
领域特定语言 (DSL), 指定了使用一个 JSON 请求。我们可以像这样重写之前的查询所有 Smith 的搜索 :
GET /megacorp/employee/_search
{
"query" : {
"match" : {
"last_name" : "Smith"
}
}
}
返回结果与之前的查询一样,但还是可以看到有一些变化。其中之一是,不再使用 query-string 参数,而是一个请求体替代。这个请求使用 JSON 构造,并使用了一个 match 查询(属于查询类型之一)
更复杂的搜索
同样搜索姓氏为 Smith 的雇员,但这次我们只需要年龄大于 30 的。查询需要稍作调整,使用过滤器 filter ,它支持高效地执行一个结构化查询:
GET /megacorp/employee/_search
{
"query": {
"bool": {
"must": [
{
"match": {
"last_name": "Smith"
}
}
],
"filter": {
"range": {
"age": {
"gte": 30
}
}
}
}
}
}
查询结果:
{
"took": 10,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 1,
"max_score": 0.2876821,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 0.2876821,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [
"music"
]
}
}
]
}
}
全文搜索
截止目前的搜索相对都很简单:单个姓名,通过年龄过滤。现在尝试下稍微高级点儿的全文搜索——一项 传统数据库确实很难搞定的任务。
搜索下所有喜欢攀岩(rock climbing)的雇员:
GET /megacorp/employee/_search
{
"query" : {
"match" : {
"about" : "rock climbing"
}
}
}
返回结果:
{
"took": 13,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 2,
"max_score": 0.53484553,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 0.53484553,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 0.26742277,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [
"music"
]
}
}
]
}
}
Elasticsearch 默认按照相关性得分排序,即每个文档跟查询的匹配程度。第一个最高得分的结果很明显:John Smith 的 about 属性清楚地写着 “rock climbing” 。
但为什么 Jane Smith 也作为结果返回了呢?原因是她的 about 属性里提到了 “rock” 。因为只有 “rock” 而没有 “climbing” ,所以她的相关性得分低于 John 的。
这是一个很好的案例,阐明了 Elasticsearch 如何 在 全文属性上搜索并返回相关性最强的结果。Elasticsearch中的 相关性 概念非常重要,也是完全区别于传统关系型数据库的一个概念,数据库中的一条记录要么匹配要么不匹配。
短语搜索
找出一个属性中的独立单词是没有问题的,但有时候想要精确匹配一系列单词或者短语 。 比如, 我们想执行这样一个查询,仅匹配同时包含 “rock” 和 “climbing” ,并且 二者以短语 “rock climbing” 的形式紧挨着的雇员记录。
为此对 match 查询稍作调整,使用一个叫做 match_phrase 的查询:
GET /megacorp/employee/_search
{
"query": {
"match_phrase": {
"about": "rock climbing"
}
}
}
毫无悬念,返回结果仅有 John Smith 的文档:
{
"took": 19,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 1,
"max_score": 0.53484553,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 0.53484553,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
}
}
]
}
}
高亮搜索
许多应用都倾向于在每个搜索结果中 高亮 部分文本片段,以便让用户知道为何该文档符合查询条件。在 Elasticsearch 中检索出高亮片段也很容易。
再次执行前面的查询,并增加一个新的 highlight 参数:
GET /megacorp/employee/_search
{
"query": {
"match_phrase": {
"about": "rock climbing"
}
},
"highlight": {
"fields": {
"about": {}
}
}
}
当执行该查询时,返回结果与之前一样,与此同时结果中还多了一个叫做 highlight 的部分。这个部分包含了 about 属性匹配的文本片段,并以 HTML 标签 封装:
{
"took": 144,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 1,
"max_score": 0.53484553,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 0.53484553,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
},
"highlight": {
"about": [
"I love to go <em>rock</em> <em>climbing</em>"
]
}
}
]
}
}
关于高亮搜索片段,可以在 highlighting reference documentation 了解更多信息。
分析
终于到了最后一个业务需求:支持管理者对雇员目录做分析。 Elasticsearch 有一个功能叫聚合(aggregations),允许我们基于数据生成一些精细的分析结果。聚合与 SQL 中的 GROUP BY 类似但更强大。
举个例子,挖掘出雇员中最受欢迎的兴趣爱好:
GET /megacorp/employee/_search
{
"aggs": {
"all_interests": {
"terms": { "field": "interests" }
}
}
}
这个时候报错,返回结果如下:
{
"error": {
"root_cause": [
{
"type": "illegal_argument_exception",
"reason": "Fielddata is disabled on text fields by default. Set fielddata=true on [interests] in order to load fielddata in memory by uninverting the inverted index. Note that this can however use significant memory. Alternatively use a keyword field instead."
}
],
"type": "search_phase_execution_exception",
"reason": "all shards failed",
"phase": "query",
"grouped": true,
"failed_shards": [
{
"shard": 0,
"index": "megacorp",
"node": "_7Llp2cwTx-o5QnDaf5hww",
"reason": {
"type": "illegal_argument_exception",
"reason": "Fielddata is disabled on text fields by default. Set fielddata=true on [interests] in order to load fielddata in memory by uninverting the inverted index. Note that this can however use significant memory. Alternatively use a keyword field instead."
}
}
]
},
"status": 400
}
聚合这些操作用单独的数据结构(fielddata)缓存到内存里了,需要单独开启,官方解释在此fielddata,简单来说就是在聚合前执行如下操作:
PUT megacorp/_mapping/employee/
{
"properties": {
"interests": {
"type": "text",
"fielddata": true
}
}
}
返回结果:
{
"acknowledged": true
}
再次执行聚合查询,返回结果如下:
{
"took": 40,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 3,
"max_score": 1,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 1,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 1,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "3",
"_score": 1,
"_source": {
"first_name": "Douglas",
"last_name": "Fir",
"age": 35,
"about": "I like to build cabinets",
"interests": [
"forestry"
]
}
}
]
},
"aggregations": {
"all_interests": {
"doc_count_error_upper_bound": 0,
"sum_other_doc_count": 0,
"buckets": [
{
"key": "music",
"doc_count": 2
},
{
"key": "forestry",
"doc_count": 1
},
{
"key": "sports",
"doc_count": 1
}
]
}
}
}
可以看到,两位员工对音乐感兴趣,一位对林地感兴趣,一位对运动感兴趣。这些聚合并非预先统计,而是从匹配当前查询的文档中即时生成。如果想知道叫 Smith 的雇员中最受欢迎的兴趣爱好,可以直接添加适当的查询来组合查询:
GET /megacorp/employee/_search
{
"query": {
"match": {
"last_name": "smith"
}
},
"aggs": {
"all_interests": {
"terms": {
"field": "interests"
}
}
}
}
返回结果:
{
"took": 8,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 2,
"max_score": 0.2876821,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 0.2876821,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 0.2876821,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
}
}
]
},
"aggregations": {
"all_interests": {
"doc_count_error_upper_bound": 0,
"sum_other_doc_count": 0,
"buckets": [
{
"key": "music",
"doc_count": 2
},
{
"key": "sports",
"doc_count": 1
}
]
}
}
}
聚合还支持分级汇总 。比如,查询特定兴趣爱好员工的平均年龄:
GET /megacorp/employee/_search
{
"aggs" : {
"all_interests" : {
"terms" : { "field" : "interests" },
"aggs" : {
"avg_age" : {
"avg" : { "field" : "age" }
}
}
}
}
}
返回结果:
{
"took": 11,
"timed_out": false,
"_shards": {
"total": 5,
"successful": 5,
"skipped": 0,
"failed": 0
},
"hits": {
"total": 3,
"max_score": 1,
"hits": [
{
"_index": "megacorp",
"_type": "employee",
"_id": "2",
"_score": 1,
"_source": {
"first_name": "Jane",
"last_name": "Smith",
"age": 32,
"about": "I like to collect rock albums",
"interests": [
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "1",
"_score": 1,
"_source": {
"first_name": "John",
"last_name": "Smith",
"age": 25,
"about": "I love to go rock climbing",
"interests": [
"sports",
"music"
]
}
},
{
"_index": "megacorp",
"_type": "employee",
"_id": "3",
"_score": 1,
"_source": {
"first_name": "Douglas",
"last_name": "Fir",
"age": 35,
"about": "I like to build cabinets",
"interests": [
"forestry"
]
}
}
]
},
"aggregations": {
"all_interests": {
"doc_count_error_upper_bound": 0,
"sum_other_doc_count": 0,
"buckets": [
{
"key": "music",
"doc_count": 2,
"avg_age": {
"value": 28.5
}
},
{
"key": "forestry",
"doc_count": 1,
"avg_age": {
"value": 35
}
},
{
"key": "sports",
"doc_count": 1,
"avg_age": {
"value": 25
}
}
]
}
}
}
输出基本是第一次聚合的加强版。依然有一个兴趣及数量的列表,只不过每个兴趣都有了一个附加的 avg_age 属性,代表有这个兴趣爱好的所有员工的平均年龄。
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