Difference between revisions of "MongoDB Aggregate Pipeline"
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This is similar to using GROUP BY in SQL, where you might aggregate the average grades of all students taking a module. | This is similar to using GROUP BY in SQL, where you might aggregate the average grades of all students taking a module. | ||
| + | |||
| + | The power of the aggregation pipeline is to do processing on the data. | ||
The MongoDB aggregation pipeline consists of stages and each stage transforms the documents as they pass through the pipeline. A stage can generate new documents or filter out documents. A stage can also appear several times in the pipeline. | The MongoDB aggregation pipeline consists of stages and each stage transforms the documents as they pass through the pipeline. A stage can generate new documents or filter out documents. A stage can also appear several times in the pipeline. | ||
| − | The | + | The ''aggregate()'' method is used for aggregation and each pipeline stage appear in an array. Documents pass through the stages in sequence. |
The syntax is: | The syntax is: | ||
| − | <pre style="color: | + | <pre style="color:purple"> |
db.collectionName.aggregate( [ { <stage> }, ... ] ) | db.collectionName.aggregate( [ { <stage> }, ... ] ) | ||
</pre> | </pre> | ||
| Line 19: | Line 21: | ||
The pipeline for instance, could: | The pipeline for instance, could: | ||
| − | * project out certain details from each document, such as | + | * project out certain details from each document, such as ''sal'' and ''comm''; |
| − | * group the projected details by a certain | + | * group the projected details by a certain field and then use an aggregate function. For example, group by the deptno and then count the number of occurrences; |
| − | * | + | * sort the results in order; |
| − | * | + | * limit the results to a certain number, such as the first 10; |
These are represented by the following operators: '''$project''','''$group''', '''$sort''' or '''$limit'''. | These are represented by the following operators: '''$project''','''$group''', '''$sort''' or '''$limit'''. | ||
| Line 39: | Line 41: | ||
{ $group: | { $group: | ||
{ _id: "$deptno", total: {$sum: "$sal"} } } | { _id: "$deptno", total: {$sum: "$sal"} } } | ||
| − | + | ]) | |
This is similar to the SQL command: | This is similar to the SQL command: | ||
| − | <pre style="color: | + | <pre style="color:purple"> |
| − | SELECT deptno, sum AS total FROM emp | + | SELECT deptno, sum(sal) AS total FROM emp |
GROUP BY deptno; | GROUP BY deptno; | ||
</pre> | </pre> | ||
| Line 68: | Line 70: | ||
This is the equivalent of the SQL statement: | This is the equivalent of the SQL statement: | ||
| − | <pre style="color: | + | <pre style="color:purple"> |
SELECT * | SELECT * | ||
FROM dept | FROM dept | ||
| Line 91: | Line 93: | ||
=== Complex query === | === Complex query === | ||
| − | A more complex aggregate pipeline groups the ''emp'' collection by deptno | + | A more complex aggregate pipeline groups the ''emp'' collection by deptno and carries out several calculations: |
db.emp.aggregate( | db.emp.aggregate( | ||
[ | [ | ||
| − | { | + | {$group : { |
| − | + | _id : { _id : "$deptno"}, | |
| − | + | averageSalary: { $avg: "$sal" }, | |
| − | + | totalSal: { $sum: { $sum: "$sal"} }, | |
| − | + | totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } }, | |
| − | + | count: { $sum: 1 } | |
} | } | ||
} | } | ||
] | ] | ||
) | ) | ||
| + | |||
| + | The calculations are: | ||
| + | * averageSalary returns the average salary | ||
| + | * totalSal returns the sum of the salary by department | ||
| + | * $multiply will multiple the sal by 12 to give the total annual salary by department | ||
| + | * $sum: 1 can be used to aggregate a value of one for each document processed, so here will produce count of employees by department | ||
| + | |||
| + | === $match === | ||
| + | |||
| + | In a larger collection you may not want all the documents processed in the query. ''$match'' can be used to filter the documents required and passes them to the next stage in the pipeline. | ||
| + | |||
| + | The following query is a repeat of above, but this time only processes documents where the salary is £3000 or above: | ||
| + | |||
| + | db.emp.aggregate( | ||
| + | [ | ||
| + | {$match: {sal : {$gte:3000}}}, | ||
| + | {$group : { | ||
| + | _id : { _id : "$deptno"}, | ||
| + | averageSalary: { $avg: "$sal" }, | ||
| + | totalSal: { $sum: { $sum: "$sal"} }, | ||
| + | totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } }, | ||
| + | count: { $sum: 1 } | ||
| + | } | ||
| + | } | ||
| + | ] | ||
| + | ) | ||
| + | |||
| + | === $sort === | ||
| + | |||
| + | The order of the results returned can depend on how the data was stored. When dealing with a large set of results you typically would want them sorted in some way. This can be achieved using the ''$sort'' command. | ||
| + | |||
| + | The syntax is: | ||
| + | |||
| + | <pre style="color:purple"> | ||
| + | {$sort: {field1:<sort order>, field2: <sort order> .... }} | ||
| + | </pre> | ||
| + | |||
| + | Where <sort order> can have one of the following values: | ||
| + | * 1 to specify ascending order | ||
| + | * -1 to specify descending order | ||
| + | |||
| + | The previous query can be extended to sort by the _id, which represented the deptno: | ||
| + | |||
| + | db.emp.aggregate( | ||
| + | [ | ||
| + | {$match: {sal : {$gte:3000}}}, | ||
| + | {$group : { | ||
| + | _id : { _id : "$deptno"}, | ||
| + | averageSalary: { $avg: "$sal" }, | ||
| + | totalSal: { $sum: { $sum: "$sal"} }, | ||
| + | totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } }, | ||
| + | count: { $sum: 1 } | ||
| + | } | ||
| + | }, | ||
| + | {$sort: {_id: 1}} | ||
| + | ] | ||
| + | ) | ||
| + | |||
| + | The above is also an example of a pipeline with multiple stages: $match, then $group and finally $sort. | ||
| + | |||
| + | $sort can be used with a simpler query just to sort the results. For example, sort the employee details by deptno, then ename: | ||
| + | |||
| + | db.emp.aggregate( [ | ||
| + | {$sort: {deptno:1, ename: 1}} | ||
| + | ] ).pretty() | ||
== Other Functions == | == Other Functions == | ||
| Line 110: | Line 177: | ||
=== Count === | === Count === | ||
| − | + | Documents can also be counted using the ''count'' function. | |
Lets count how many employees are in department 10: | Lets count how many employees are in department 10: | ||
| Line 120: | Line 187: | ||
db.dept.find({dname:"SALES"}).count() | db.dept.find({dname:"SALES"}).count() | ||
| − | |||
=== Distinct === | === Distinct === | ||
| Line 129: | Line 195: | ||
| − | == Exercise 3 | + | == Exercise 2.3 == |
| − | Try the lookup with the collections swapped: | + | 2.3.1 Try the ''$lookup'' function with the collections swapped: |
db.emp.aggregate([ { | db.emp.aggregate([ { | ||
| Line 143: | Line 209: | ||
]) | ]) | ||
| − | Explain the results. | + | Explain how the results differ to the previous example. |
| + | |||
| + | 2.3.2 List all the documents in the ''dept'' collection, sorted by ''loc''. | ||
== Next Step == | == Next Step == | ||
[[MongoDB_Update|Updating]] the collection | [[MongoDB_Update|Updating]] the collection | ||
Latest revision as of 11:46, 11 February 2021
Main Page >> MongoDB >>MongoDB Workbook >> Aggregation Pipeline
Aggregation Pipeline
The aggregation pipeline is a framework for data aggregation modelled on the concept of data processing pipelines. What this means, is documents enter a multi-stage pipeline that transforms the documents into aggregated results.
This is similar to using GROUP BY in SQL, where you might aggregate the average grades of all students taking a module.
The power of the aggregation pipeline is to do processing on the data.
The MongoDB aggregation pipeline consists of stages and each stage transforms the documents as they pass through the pipeline. A stage can generate new documents or filter out documents. A stage can also appear several times in the pipeline.
The aggregate() method is used for aggregation and each pipeline stage appear in an array. Documents pass through the stages in sequence.
The syntax is:
db.collectionName.aggregate( [ { <stage> }, ... ] )
The pipeline for instance, could:
- project out certain details from each document, such as sal and comm;
- group the projected details by a certain field and then use an aggregate function. For example, group by the deptno and then count the number of occurrences;
- sort the results in order;
- limit the results to a certain number, such as the first 10;
These are represented by the following operators: $project,$group, $sort or $limit.
A number of operations exist for the aggregation pipeline, details of which can be found in the MongoDB manual:
https://docs.mongodb.com/manual/reference/operator/aggregation/
$group
$group will take a set of input documents, group them by a specified key and then apply an aggregate function to each group.
For example, to sum the salaries found in the emp collection:
db.emp.aggregate ( [
{ $group:
{ _id: "$deptno", total: {$sum: "$sal"} } }
])
This is similar to the SQL command:
SELECT deptno, sum(sal) AS total FROM emp GROUP BY deptno;
$lookup
$lookup can be used to provide a left outer join between two collections, such as dept and emp.
The $lookup stage does an equality match between a column from the input documents with a column from the joined collection.
In this example, the dept collection provides the input documents and the lookup will be performed in the emp collection. deptno in both documents is used to join the collections:
db.dept.aggregate([ {
$lookup: {
from: "emp",
localField: "deptno",
foreignField: "deptno",
as: "employees"
}
}
]).pretty()
This is the equivalent of the SQL statement:
SELECT * FROM dept LEFT OUTER JOIN emp ON dept.deptno = emp.deptno;
The mgr field holds the empno of each employee's manager. To provide a list of employees the who they manage involved joining a collection to itself:
db.emp.aggregate([ {
$lookup: {
from: "emp",
localField: "empno",
foreignField: "mgr",
as: "manages"
}
}
]).pretty()
An empty set [] will be returned for the manages field for any employees who are not managers.
Complex query
A more complex aggregate pipeline groups the emp collection by deptno and carries out several calculations:
db.emp.aggregate(
[
{$group : {
_id : { _id : "$deptno"},
averageSalary: { $avg: "$sal" },
totalSal: { $sum: { $sum: "$sal"} },
totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } },
count: { $sum: 1 }
}
}
]
)
The calculations are:
- averageSalary returns the average salary
- totalSal returns the sum of the salary by department
- $multiply will multiple the sal by 12 to give the total annual salary by department
- $sum: 1 can be used to aggregate a value of one for each document processed, so here will produce count of employees by department
$match
In a larger collection you may not want all the documents processed in the query. $match can be used to filter the documents required and passes them to the next stage in the pipeline.
The following query is a repeat of above, but this time only processes documents where the salary is £3000 or above:
db.emp.aggregate(
[
{$match: {sal : {$gte:3000}}},
{$group : {
_id : { _id : "$deptno"},
averageSalary: { $avg: "$sal" },
totalSal: { $sum: { $sum: "$sal"} },
totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } },
count: { $sum: 1 }
}
}
]
)
$sort
The order of the results returned can depend on how the data was stored. When dealing with a large set of results you typically would want them sorted in some way. This can be achieved using the $sort command.
The syntax is:
{$sort: {field1:<sort order>, field2: <sort order> .... }}
Where <sort order> can have one of the following values:
- 1 to specify ascending order
- -1 to specify descending order
The previous query can be extended to sort by the _id, which represented the deptno:
db.emp.aggregate(
[
{$match: {sal : {$gte:3000}}},
{$group : {
_id : { _id : "$deptno"},
averageSalary: { $avg: "$sal" },
totalSal: { $sum: { $sum: "$sal"} },
totalAnnualSal: { $sum: { $multiply: [ "$sal", 12 ] } },
count: { $sum: 1 }
}
},
{$sort: {_id: 1}}
]
)
The above is also an example of a pipeline with multiple stages: $match, then $group and finally $sort.
$sort can be used with a simpler query just to sort the results. For example, sort the employee details by deptno, then ename:
db.emp.aggregate( [
{$sort: {deptno:1, ename: 1}}
] ).pretty()
Other Functions
Count
Documents can also be counted using the count function.
Lets count how many employees are in department 10:
db.emp.count({deptno: 10})
You can also add count() to a find query to count the records returned, instead of listing them:
db.dept.find({dname:"SALES"}).count()
Distinct
Sometimes you want to find the distinct values for a specified column (similar to distinct in SQL):
db.emp.distinct("deptno")
Exercise 2.3
2.3.1 Try the $lookup function with the collections swapped:
db.emp.aggregate([ {
$lookup: {
from: "dept",
localField: "deptno",
foreignField: "deptno",
as: "dept"
}
}
])
Explain how the results differ to the previous example.
2.3.2 List all the documents in the dept collection, sorted by loc.
Next Step
Updating the collection
