DocumentDB SQL - 复合 SQL 查询
复合查询使您能够组合现有查询中的数据,然后在呈现显示组合数据集的报告结果之前应用过滤器、聚合等。 复合查询检索现有查询的多个级别的相关信息,并将组合数据呈现为单个扁平查询结果。
使用复合查询,您还可以选择 −
选择 SQL 修剪选项,根据用户的属性选择删除不需要的表和字段。
设置 ORDER BY 和 GROUP BY 子句。
将 WHERE 子句设置为复合查询结果集的过滤器。
可以组合上述运算符以形成更强大的查询。 由于 DocumentDB 支持嵌套集合,因此组合可以是串联的,也可以是嵌套的。
让我们考虑此示例的以下文档。
AndersenFamily文档如下。
{
"id": "AndersenFamily",
"lastName": "Andersen",
"parents": [
{ "firstName": "Thomas", "relationship": "father" },
{ "firstName": "Mary Kay", "relationship": "mother" }
],
"children": [
{
"firstName": "Henriette Thaulow",
"gender": "female",
"grade": 5,
"pets": [ { "givenName": "Fluffy", "type": "Rabbit" } ]
}
],
"location": { "state": "WA", "county": "King", "city": "Seattle" },
"isRegistered": true
}
SmithFamily文档如下。
{
"id": "SmithFamily",
"parents": [
{ "familyName": "Smith", "givenName": "James" },
{ "familyName": "Curtis", "givenName": "Helen" }
],
"children": [
{
"givenName": "Michelle",
"gender": "female",
"grade": 1
},
{
"givenName": "John",
"gender": "male",
"grade": 7,
"pets": [
{ "givenName": "Tweetie", "type": "Bird" }
]
}
],
"location": {
"state": "NY",
"county": "Queens",
"city": "Forest Hills"
},
"isRegistered": true
}
WakefieldFamily文档如下。
{
"id": "WakefieldFamily",
"parents": [
{ "familyName": "Wakefield", "givenName": "Robin" },
{ "familyName": "Miller", "givenName": "Ben" }
],
"children": [
{
"familyName": "Merriam",
"givenName": "Jesse",
"gender": "female",
"grade": 6,
"pets": [
{ "givenName": "Charlie Brown", "type": "Dog" },
{ "givenName": "Tiger", "type": "Cat" },
{ "givenName": "Princess", "type": "Cat" }
]
},
{
"familyName": "Miller",
"givenName": "Lisa",
"gender": "female",
"grade": 3,
"pets": [
{ "givenName": "Jake", "type": "Snake" }
]
}
],
"location": { "state": "NY", "county": "Manhattan", "city": "NY" },
"isRegistered": false
}
让我们看一个串联查询的示例。
以下查询将检索第一个孩子 givenName 为 Michelle 的家庭的 ID 和位置。
SELECT f.id,f.location FROM Families f WHERE f.children[0].givenName = "Michelle"
执行上述查询时,会产生以下输出。
[
{
"id": "SmithFamily",
"location": {
"state": "NY",
"county": "Queens",
"city": "Forest Hills"
}
}
]
让我们考虑另一个串联查询的示例。
以下查询将返回第一个子成绩大于 3 的所有文档。
SELECT *
FROM Families f
WHERE ({grade: f.children[0].grade}.grade > 3)
执行上述查询时,会产生以下输出。
[
{
"id": "WakefieldFamily",
"parents": [
{
"familyName": "Wakefield",
"givenName": "Robin"
},
{
"familyName": "Miller",
"givenName": "Ben"
}
],
"children": [
{
"familyName": "Merriam",
"givenName": "Jesse",
"gender": "female",
"grade": 6,
"pets": [
{
"givenName": "Charlie Brown",
"type": "Dog"
},
{
"givenName": "Tiger",
"type": "Cat"
},
{
"givenName": "Princess",
"type": "Cat"
}
]
},
{
"familyName": "Miller",
"givenName": "Lisa",
"gender": "female",
"grade": 3,
"pets": [
{
"givenName": "Jake",
"type": "Snake"
}
]
}
],
"location": {
"state": "NY",
"county": "Manhattan",
"city": "NY"
},
"isRegistered": false,
"_rid": "Ic8LAJFujgECAAAAAAAAAA==",
"_ts": 1450541623,
"_self": "dbs/Ic8LAA==/colls/Ic8LAJFujgE=/docs/Ic8LAJFujgECAAAAAAAAAA==/",
"_etag": "\"00000500-0000-0000-0000-567582370000\"",
"_attachments": "attachments/"
},
{
"id": "AndersenFamily",
"lastName": "Andersen",
"parents": [
{
"firstName": "Thomas",
"relationship": "father"
},
{
"firstName": "Mary Kay",
"relationship": "mother"
}
],
"children": [
{
"firstName": "Henriette Thaulow",
"gender": "female",
"grade": 5,
"pets": [
{
"givenName": "Fluffy",
"type": "Rabbit"
}
]
}
],
"location": {
"state": "WA",
"county": "King",
"city": "Seattle"
},
"isRegistered": true,
"_rid": "Ic8LAJFujgEEAAAAAAAAAA==",
"_ts": 1450541624,
"_self": "dbs/Ic8LAA==/colls/Ic8LAJFujgE=/docs/Ic8LAJFujgEEAAAAAAAAAA==/",
"_etag": "\"00000700-0000-0000-0000-567582380000\"",
"_attachments": "attachments/"
}
]
让我们看一下嵌套查询的示例。
以下查询将迭代所有父项,然后返回 familyName 为 Smith 的文档。
SELECT * FROM p IN Families.parents WHERE p.familyName = "Smith"
执行上述查询时,会产生以下输出。
[
{
"familyName": "Smith",
"givenName": "James"
}
]
让我们考虑嵌套查询的另一个示例。
以下查询将返回所有familyName。
SELECT VALUE p.familyName FROM Families f JOIN p IN f.parents
执行上述查询时,会产生以下输出。
[ "Wakefield", "Miller", "Smith", "Curtis" ]
