--- layout: default title: Boolean queries parent: Compound queries grand_parent: Query DSL nav_order: 10 permalink: /query-dsl/compound/bool/ redirect_from: - /opensearch/query-dsl/compound/bool/ --- # Boolean queries You can perform a Boolean query with the `bool` query type. A Boolean query compounds query clauses so you can combine multiple search queries with Boolean logic. To narrow or broaden your search results, use the `bool` query clause rules. As a compound query type, `bool` allows you to construct an advanced query by combining several simple queries. Use the following rules to define how to combine multiple sub-query clauses within a `bool` query: Clause rule | Behavior :--- | :--- `must` | Logical `and` operator. The results must match the queries in this clause. If you have multiple queries, all of them must match. `must_not` | Logical `not` operator. All matches are excluded from the results. `should` | Logical `or` operator. The results must match at least one of the queries, but, optionally, they can match more than one query. Each matching `should` clause increases the relevancy score. You can set the minimum number of queries that must match using the `minimum_number_should_match` parameter. `minimum_number_should_match` | Optional parameter for use with a `should` query clause. Specifies the minimum number of queries that the document must match for it to be returned in the results. The default value is 1. `filter` | Logical `and` operator that is applied first to reduce your dataset before applying the queries. A query within a filter clause is a yes or no option. If a document matches the query, it is returned in the results; otherwise, it is not. The results of a filter query are generally cached to allow for a faster return. Use the filter query to filter the results based on exact matches, ranges, dates, numbers, and so on. ### Boolean query structure The structure of a Boolean query contains the `bool` query type followed by clause rules, as follows: ```json GET _search { "query": { "bool": { "must": [ {} ], "must_not": [ {} ], "should": [ {} ], "filter": {} } } } ``` For example, assume you have the complete works of Shakespeare indexed in an OpenSearch cluster. You want to construct a single query that meets the following requirements: 1. The `text_entry` field must contain the word `love` and should contain either `life` or `grace`. 2. The `speaker` field must not contain `ROMEO`. 3. Filter these results to the play `Romeo and Juliet` without affecting the relevancy score. Use the following query: ```json GET shakespeare/_search { "query": { "bool": { "must": [ { "match": { "text_entry": "love" } } ], "should": [ { "match": { "text_entry": "life" } }, { "match": { "text_entry": "grace" } } ], "minimum_should_match": 1, "must_not": [ { "match": { "speaker": "ROMEO" } } ], "filter": { "term": { "play_name": "Romeo and Juliet" } } } } } ``` #### Sample output ```json { "took": 12, "timed_out": false, "_shards": { "total": 4, "successful": 4, "skipped": 0, "failed": 0 }, "hits": { "total": { "value": 1, "relation": "eq" }, "max_score": 11.356054, "hits": [ { "_index": "shakespeare", "_id": "88020", "_score": 11.356054, "_source": { "type": "line", "line_id": 88021, "play_name": "Romeo and Juliet", "speech_number": 19, "line_number": "4.5.61", "speaker": "PARIS", "text_entry": "O love! O life! not life, but love in death!" } } ] } } ``` If you want to identify which of these clauses actually caused the matching results, name each query with the `_name` parameter. To add the `_name` parameter, change the field name in the `match` query to an object: ```json GET shakespeare/_search { "query": { "bool": { "must": [ { "match": { "text_entry": { "query": "love", "_name": "love-must" } } } ], "should": [ { "match": { "text_entry": { "query": "life", "_name": "life-should" } } }, { "match": { "text_entry": { "query": "grace", "_name": "grace-should" } } } ], "minimum_should_match": 1, "must_not": [ { "match": { "speaker": { "query": "ROMEO", "_name": "ROMEO-must-not" } } } ], "filter": { "term": { "play_name": "Romeo and Juliet" } } } } } ``` OpenSearch returns a `matched_queries` array that lists the queries that matched these results: ```json "matched_queries": [ "love-must", "life-should" ] ``` If you remove the queries not in this list, you will still see the exact same result. By examining which `should` clause matched, you can better understand the relevancy score of the results. You can also construct complex Boolean expressions by nesting `bool` queries. For example, to find a `text_entry` field that matches (`love` OR `hate`) AND (`life` OR `grace`) in the play `Romeo and Juliet`: ```json GET shakespeare/_search { "query": { "bool": { "must": [ { "bool": { "should": [ { "match": { "text_entry": "love" } }, { "match": { "text": "hate" } } ] } }, { "bool": { "should": [ { "match": { "text_entry": "life" } }, { "match": { "text": "grace" } } ] } } ], "filter": { "term": { "play_name": "Romeo and Juliet" } } } } } ``` #### Sample output ```json { "took": 10, "timed_out": false, "_shards": { "total": 2, "successful": 2, "skipped": 0, "failed": 0 }, "hits": { "total": 1, "max_score": 11.37006, "hits": [ { "_index": "shakespeare", "_type": "doc", "_id": "88020", "_score": 11.37006, "_source": { "type": "line", "line_id": 88021, "play_name": "Romeo and Juliet", "speech_number": 19, "line_number": "4.5.61", "speaker": "PARIS", "text_entry": "O love! O life! not life, but love in death!" } } ] } } ```