How to Run Atlas Search Queries Against Objects in Arrays
On this page
- Overview
- About the Sample Collection
- About the Atlas Search Index
- About the Queries
- Try it in the Atlas Search Playground
- Access the Atlas Search Playground.
- Review the Data Source, Index, and Query panes.
- Click Run or press
Command+Enterto run the query. - Access the Atlas Search Playground.
- Review the Data Source, Index, and Query panes.
- Click Run or press
Command+Enterto run the query. - Access the Atlas Search Playground.
- Review the Data Source, Index, and Query panes.
- Click Run or press
Command+Enterto run the query. - Try it on Your Atlas Cluster
- Create a Sample Collection and Load the Data
- Create an Atlas Search Index
- Run
$searchQueries Against Embedded Document Fields - Run
$searchMetaQuery Against Embedded Document Fields
Overview
This tutorial describes how to index and run Atlas Search queries against
fields in documents, or objects, that are inside an array
(embeddedDocuments). The page contains instructions for running
sample queries using a
sample index for a
sample collection
that we have set up for you in the Atlas Search Playground or that you can load,
configure, and run on your Atlas cluster.
About the Sample Collection
The sample collection is named schools and it contains three
documents. Each document in the sample collection contains the name
and mascot of the school, school teachers' first and last
names, the classes that each teacher teaches including the
subject name and grade level, and the various clubs for the
school students.
About the Atlas Search Index
The index definition for the collection shows the following:
Documents in the arrays at the
teachersandteachers.classespaths are indexed as embeddedDocuments, and the fields inside the documents are dynamically indexed.Documents in the arrays at the
teacherspath are also indexed as the document type to support highlighting, and the fields inside the documents are dynamically indexed.Document in the
clubsfield is indexed as the document type with dynamic mappings enabled and the arrays of documents in theclubs.sportsfield are indexed as theembeddedDocumentstype with dynamic mappings enabled.
About the Queries
The sample queries search the embedded documents in the schools
collection. The queries use the following pipeline stages:
$searchto search the collection.$projectto include and exclude fields from the collection, and add a field namedscorein the results. For queries that enable highlighting, the$projectstage also adds a new field calledhighlights, which contains the highlighting information.
The tutorial demonstrates three different queries.
This query demonstrates a search against a field inside a nested array of documents.
It searches at the teachers path for teachers with the first name
John and specifies a preference for teachers with the last name
Smith. It also enables highlighting on the
last name field.
This query demonstrates a search against a field inside an array of documents that is nested inside a document.
It searches for schools that have sports clubs that offer students an
opportunity to play either dodgeball or frisbee at the
clubs.sports path.
This query demonstrates a search against a field inside an array of documents and a search against a field in an array of documents nested inside an array of documents.
It searches for schools that have a teacher teaching 12th grade
science class at the teachers.classes path, preferring schools
with teachers with last name Smith who teach that class. It also
enables highlighting on the subject field
inside the classes array of the documents nested inside the
teachers array of documents.
Try it in the Atlas Search Playground
On the Atlas Search Playground, we have set up an embedded documents collection, pre-configured an index for the fields in the collection, and defined a query that you can run against the collection. You can also modify the collection, index, and query in the Atlas Search Playground.
To try this query on the Atlas Search Playground, do the following:
Access the Atlas Search Playground.
Access the nested array query example in the Atlas Search Playground.
Review the Data Source, Index, and Query panes.
The Data Source pane contains the sample collection.
The Index pane contains the index definition for the collection.
The Query pane shows the query.
To try this query on the Atlas Search Playground, do the following:
Access the Atlas Search Playground.
Access the nested array with an object example query in the Atlas Search Playground.
Review the Data Source, Index, and Query panes.
The Data Source pane contains the sample collection.
The Index pane contains the index definition for the collection.
The Query pane shows the query.
To try this query on the Atlas Search Playground, do the following:
Access the Atlas Search Playground.
Access the nested array within an array example query in the Atlas Search Playground.
Review the Data Source, Index, and Query panes.
The Data Source pane contains the sample collection.
The Index pane contains the index definition for the collection.
The Query pane shows the query.
Try it on Your Atlas Cluster
To demonstrate how to run queries against embedded documents, this section walks you through the following steps:
Create a sample collection named
schoolswith embedded documents in your Atlas cluster.Set up an Atlas Search index with embeddedDocuments fields configured at the following paths:
teachersfieldteachers.classesfieldclubs.sportsfield
Run
$searchqueries that search the embedded documents in theschoolscollection using the compound operator with the embeddedDocument and text operators.Run a
$searchMetaquery against an embedded document field to get a count.
Before you begin, ensure that your Atlas cluster meets the requirements described in the Prerequisites. For this tutorial, you don't need to upload the sample data because you will create a new collection and load the documents that you need to run the queries in this tutorial.
Create a Sample Collection and Load the Data
You must begin by creating a collection named schools in an
existing or new database on your Atlas cluster. After creating the
collection, you must upload the sample data into your collection. To
learn more about the documents in the sample collection, see
About the Sample Collection.
The steps in this section walk you through creating a new database and collection, and loading the sample data into your collection.
In Atlas, go to the Clusters page for your project.
If it is not already displayed, select the organization that contains your desired project from the Organizations menu in the navigation bar.
If it is not already displayed, select your desired project from the Projects menu in the navigation bar.
If the Clusters page is not already displayed, click Database in the sidebar.
Load the following documents into the collection.
Select the
schoolscollection if it's not selected.Click Insert Document for each of the sample documents to add to the collection.
Click the JSON view ({}) to replace the default document.
Copy and paste the following sample documents, one at a time, and click Insert to add the documents, one at a time, to the collection.
{ "_id": 0, "name": "Springfield High", "mascot": "Pumas", "teachers": [{ "first": "Jane", "last": "Smith", "classes": [{ "subject": "art of science", "grade": "12th" }, { "subject": "applied science and practical science", "grade": "9th" }, { "subject": "remedial math", "grade": "12th" }, { "subject": "science", "grade": "10th" }] }, { "first": "Bob", "last": "Green", "classes": [{ "subject": "science of art", "grade": "11th" }, { "subject": "art art art", "grade": "10th" }] }], "clubs": { "stem": [ { "club_name": "chess", "description": "provides students opportunity to play the board game of chess informally and competitively in tournaments." }, { "club_name": "kaboom chemistry", "description": "provides students opportunity to experiment with chemistry that fizzes and explodes." } ], "arts": [ { "club_name": "anime", "description": "provides students an opportunity to discuss, show, and collaborate on anime and broaden their Japanese cultural understanding." }, { "club_name": "visual arts", "description": "provides students an opportunity to train, experiment, and prepare for internships and jobs as photographers, illustrators, graphic designers, and more." } ] } } { "_id": 1, "name": "Evergreen High", "mascot": "Jaguars", "teachers": [{ "first": "Jane", "last": "Earwhacker", "classes": [{ "subject": "art", "grade": "9th" }, { "subject": "science", "grade": "12th" }] }, { "first": "John", "last": "Smith", "classes": [{ "subject": "math", "grade": "12th" }, { "subject": "art", "grade": "10th" }] }], "clubs": { "sports": [ { "club_name": "archery", "description": "provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment." }, { "club_name": "ultimate frisbee", "description": "provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes." } ], "stem": [ { "club_name": "zapped", "description": "provides students an opportunity to make exciting gadgets and explore electricity." }, { "club_name": "loose in the chem lab", "description": "provides students an opportunity to put the scientific method to the test and get elbow deep in chemistry." } ] } } { "_id": 2, "name": "Lincoln High", "mascot": "Sharks", "teachers": [{ "first": "Jane", "last": "Smith", "classes": [{ "subject": "science", "grade": "9th" }, { "subject": "math", "grade": "12th" }] }, { "first": "John", "last": "Redman", "classes": [{ "subject": "art", "grade": "12th" }] }], "clubs": { "arts": [ { "club_name": "ceramics", "description": "provides students an opportunity to acquire knowledge of form, volume, and space relationships by constructing hand-built and wheel-thrown forms of clay." }, { "club_name": "digital art", "description": "provides students an opportunity to learn about design for entertainment, 3D animation, technical art, or 3D modeling." } ], "sports": [ { "club_name": "dodgeball", "description": "provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves." }, { "club_name": "martial arts", "description": "provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons." } ] } }
Create an Atlas Search Index
In this section, you will create an Atlas Search index for the fields in the
embedded documents in the local_school_district.schools collection.
Required Access
To create an Atlas Search index, you must have Project Data Access Admin or higher access to the project.
Procedure
In Atlas, go to the Clusters page for your project.
If it is not already displayed, select the organization that contains your desired project from the Organizations menu in the navigation bar.
If it is not already displayed, select your desired project from the Projects menu in the navigation bar.
If the Clusters page is not already displayed, click Database in the sidebar.
Go to the Atlas Search page for your cluster.
You can go the Atlas Search page from the sidebar, the Data Explorer, or your cluster details page.
In the sidebar, click Atlas Search under the Services heading.
From the Select data source dropdown, select your cluster and click Go to Atlas Search.
Click the Browse Collections button for your cluster.
Expand the database and select the collection.
Click the Search Indexes tab for the collection.
Click the cluster's name.
Click the Atlas Search tab.
Enter the Index Name, and set the Database and Collection.
In the Index Name field, enter
embedded-documents-tutorial.Note
If you name your index
default, you don't need to specify anindexparameter when using the $search pipeline stage. Otherwise, you must specify the index name using theindexparameter.In the Database and Collection section, find the
local_school_districtdatabase, and select theschoolscollection.
Specify an index configuration that indexes embedded documents.
To learn more about the index definition, see About the Atlas Search Index.
Click Next.
Click Refine Your Index.
Click Add Field in the Field Mappings section and add the following fields by clicking Add after configuring the settings for each field, one at a time, in the Add Field Mapping window.
Field NameData TypeEnable Dynamic MappingteachersEmbeddedDocumentsOnteachers.classesEmbeddedDocumentsOnteachersDocumentOnteachers.classesDocumentOnteachers.classes.gradeStringFacetN/Aclubs.sportsEmbeddedDocumentsOnClick Add Field Mappings to open the Add Field Mapping window.
Select the following from the dropdown.
Click Add Field Mappings to open the Add Field Mapping window.
Select the following from the dropdown.
Toggle to enable Enable Dynamic Mapping if it isn't already enabled and click Add
Click Save.
Click Save Changes.
Replace the default index definition with the following index definition.
1 { 2 "mappings": { 3 "dynamic": true, 4 "fields": { 5 "clubs": { 6 "dynamic": true, 7 "fields": { 8 "sports": { 9 "dynamic": true, 10 "type": "embeddedDocuments" 11 } 12 }, 13 "type": "document" 14 }, 15 "teachers": [ 16 { 17 "dynamic": true, 18 "fields": { 19 "classes": { 20 "dynamic": true, 21 "type": "embeddedDocuments" 22 } 23 }, 24 "type": "embeddedDocuments" 25 }, 26 { 27 "dynamic": true, 28 "fields": { 29 "classes": { 30 "dynamic": true, 31 "fields": { 32 "grade": { 33 "type": "stringFacet" 34 } 35 }, 36 "type": "document" 37 } 38 }, 39 "type": "document" 40 } 41 ] 42 } 43 } 44 } Click Next.
Run $search Queries Against Embedded Document Fields
You can run queries against the embedded document fields. This tutorial uses embeddedDocument and text operators inside the compound operator in the queries.
In this section, you will connect to your Atlas cluster and run
the sample queries using the operators against the fields in the
schools collection.
➤ Use the Select your language drop-down menu on this page to set the language of the examples in this section.
In Atlas, go to the Clusters page for your project.
If it is not already displayed, select the organization that contains your desired project from the Organizations menu in the navigation bar.
If it is not already displayed, select your desired project from the Projects menu in the navigation bar.
If the Clusters page is not already displayed, click Database in the sidebar.
Go to the Atlas Search page for your cluster.
You can go the Atlas Search page from the sidebar, the Data Explorer, or your cluster details page.
In the sidebar, click Atlas Search under the Services heading.
From the Select data source dropdown, select your cluster and click Go to Atlas Search.
Click the Browse Collections button for your cluster.
Expand the database and select the collection.
Click the Search Indexes tab for the collection.
Click the cluster's name.
Click the Atlas Search tab.
Run an Atlas Search query with the embeddedDocument operator on the schools collection.
Copy and paste the following query into the Query Editor, and then click the Search button in the Query Editor.
Note
The Search Tester doesn't support highlighting. So, use mongosh or a MongoDB driver to see
highlighting information in the results.
To learn more about this query, see About the Queries.
1 [ 2 { 3 "$search": { 4 "index": "embedded-documents-tutorial", 5 "embeddedDocument": { 6 "path": "teachers", 7 "operator": { 8 "compound": { 9 "must": [{ 10 "text": { 11 "path": "teachers.first", 12 "query": "John" 13 } 14 }], 15 "should":[{ 16 "text": { 17 "path": "teachers.last", 18 "query": "Smith" 19 } 20 }] 21 } 22 } 23 } 24 } 25 } 26 ]
SCORE: 0.7830756902694702 _id: "1" name: "Evergreen High" mascot: "Jaguars" teachers: Array 0: Object first: "Jane" last: "Earwhacker" classes: Array ... 1: Object first: "John" last: "Smith" classes: Array ... clubs: Object ... SCORE: 0.468008816242218 _id: "2" name: "Lincoln High" mascot: "Sharks" teachers: Array 0: Object first: "Jane" last: "Smith" classes: Array ... 1: Object first: "John" last: "Redman" classes: Array ... clubs: Object ...
To learn more about this query, see About the Queries.
1 [ 2 { 3 "$search": { 4 "index": "embedded-documents-tutorial", 5 "embeddedDocument": { 6 "path": "clubs.sports", 7 "operator": { 8 "queryString": { 9 "defaultPath": "clubs.sports.club_name", 10 "query": "dodgeball OR frisbee" 11 } 12 } 13 } 14 } 15 } 16 ]
score: 0.633669912815094 _id: 2 name: "Lincoln High" mascot: "Sharks" teachers: Array ... clubs: Object sports: Array (2) 0: Object club_name: "dodgeball" description: "provides students an opportunity to play dodgeball by throwing balls t…" 1: Object club_name: "martial arts" description: "provides students an opportunity to learn self-defense or combat that …" stem: Array (2) ... score: 0.481589138507843 _id: 1 name: "Evergreen High" mascot: "Jaguars" teachers: Array ... clubs: Object sports: Array (2) 0: Object club_name: "archery" description: "provides students an opportunity to practice and hone the skill of usi…" 1: Object club_name: "ultimate frisbee" description: "provides students an opportunity to play frisbee and learn the basics …" stem: Array (2) ...
To learn more about this query, see About the Queries.
[ { $search: { index: "embedded-documents-tutorial", "embeddedDocument": { "path": "teachers", "operator": { "compound": { "must": [{ "embeddedDocument": { "path": "teachers.classes", "operator": { "compound": { "must": [{ "text": { "path": "teachers.classes.grade", "query": "12th" } }, { "text": { "path": "teachers.classes.subject", "query": "science" } }] } } } }], "should": [{ "text": { "path": "teachers.last", "query": "smith" } }] } } } } } ]
SCORE: 0.9415585994720459 name: "Springfield High" mascot: "Pumas" teachers: Array 0: Object first: "Jane" last: "Smith" classes: Array 0: Object subject: "art of science" grade: "12th" 1: Object subject: "applied science and practical science" grade: "9th" 2: Object subject: "remedial math" grade: "12th" 3: Object subject: "science" grade: "10th" 1: Object first: "Bob" last: "Green" classes: Array 0: Object subject: "science of art" grade: "11th" 1: Object subject: "art art art" grade: "10th" clubs: Object ... SCORE: 0.7779859304428101 _id: "1" name: "Evergreen High" mascot: "Jaguars" teachers: Array 0: Object first: "Jane" last: "Earwhacker" classes: Array 0: Object subject: "art" grade: "9th" 1: Object subject: "science" grade: "12th" 1: Object first: "John" last: "Smith" classes: Array 0: Object subject: "math" grade: "12th" 1: Object subject: "art" grade: "10th" clubs: Object ...
Connect to your cluster using mongosh.
Open mongosh in a terminal window and connect to your
cluster. For detailed instructions on connecting, see
Connect via mongosh.
Use the local_school database.
Run the following command at mongosh prompt:
use local_school_district
switched to db local_school_district
Run the following Atlas Search queries against the schools collection.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 db.schools.aggregate({ 2 "$search": { 3 "index": "embedded-documents-tutorial", 4 "embeddedDocument": { 5 "path": "teachers", 6 "operator": { 7 "compound": { 8 "must": [{ 9 "text": { 10 "path": "teachers.first", 11 "query": "John" 12 } 13 }], 14 "should":[{ 15 "text": { 16 "path": "teachers.last", 17 "query": "Smith" 18 } 19 }] 20 } 21 } 22 }, 23 "highlight": { 24 "path": "teachers.last" 25 } 26 } 27 }, 28 { 29 "$project": { 30 "_id": 1, 31 "teachers": 1, 32 "score": { $meta: "searchScore" }, 33 "highlights": { "$meta": "searchHighlights" } 34 } 35 })
1 [ 2 { 3 _id: 1, 4 teachers: [ 5 { 6 first: 'Jane', 7 last: 'Earwhacker', 8 classes: [ 9 { subject: 'art', grade: '9th' }, 10 { subject: 'science', grade: '12th' } 11 ] 12 }, 13 { 14 first: 'John', 15 last: 'Smith', 16 classes: [ 17 { subject: 'math', grade: '12th' }, 18 { subject: 'art', grade: '10th' } 19 ] 20 } 21 ], 22 score: 0.7830756902694702, 23 highlights: [ 24 { 25 score: 1.4921371936798096, 26 path: 'teachers.last', 27 texts: [ { value: 'Smith', type: 'hit' } ] 28 } 29 ] 30 }, 31 { 32 _id: 2, 33 teachers: [ 34 { 35 first: 'Jane', 36 last: 'Smith', 37 classes: [ 38 { subject: 'science', grade: '9th' }, 39 { subject: 'math', grade: '12th' } 40 ] 41 }, 42 { 43 first: 'John', 44 last: 'Redman', 45 classes: [ { subject: 'art', grade: '12th' } ] 46 } 47 ], 48 score: 0.468008816242218, 49 highlights: [ 50 { 51 score: 1.4702850580215454, 52 path: 'teachers.last', 53 texts: [ { value: 'Smith', type: 'hit' } ] 54 } 55 ] 56 } 57 ]
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
To learn more about this query, see About the Queries.
1 db.schools.aggregate( 2 { 3 "$search": { 4 "index": "embedded-documents-tutorial", 5 "embeddedDocument": { 6 "path": "clubs.sports", 7 "operator": { 8 "queryString": { 9 "defaultPath": "clubs.sports.club_name", 10 "query": "dodgeball OR frisbee" 11 } 12 } 13 } 14 } 15 }, 16 { 17 "$project": { 18 "_id": 1, 19 "name": 1, 20 "clubs.sports": 1, 21 "score": { $meta: "searchScore" } 22 } 23 } 24 )
1 [ 2 { 3 _id: 2, 4 name: 'Lincoln High', 5 clubs: { 6 sports: [ 7 { 8 club_name: 'dodgeball', 9 description: 'provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves.' 10 }, 11 { 12 club_name: 'martial arts', 13 description: 'provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons.' 14 } 15 ] 16 }, 17 score: 0.633669912815094 18 }, 19 { 20 _id: 1, 21 name: 'Evergreen High', 22 clubs: { 23 sports: [ 24 { 25 club_name: 'archery', 26 description: 'provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment.' 27 }, 28 { 29 club_name: 'ultimate frisbee', 30 description: 'provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes.' 31 } 32 ] 33 }, 34 score: 0.481589138507843 35 } 36 ]
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
To learn more about this query, see About the Queries.
1 db.schools.aggregate({ 2 "$search": { 3 "index": "embedded-documents-tutorial", 4 "embeddedDocument": { 5 "path": "teachers", 6 "operator": { 7 "compound": { 8 "must": [{ 9 "embeddedDocument": { 10 "path": "teachers.classes", 11 "operator": { 12 "compound": { 13 "must": [{ 14 "text": { 15 "path": "teachers.classes.grade", 16 "query": "12th" 17 } 18 }, 19 { 20 "text": { 21 "path": "teachers.classes.subject", 22 "query": "science" 23 } 24 }] 25 } 26 } 27 } 28 }], 29 "should": [{ 30 "text": { 31 "path": "teachers.last", 32 "query": "smith" 33 } 34 }] 35 } 36 } 37 }, 38 "highlight": { 39 "path": "teachers.classes.subject" 40 } 41 } 42 }, 43 { 44 "$project": { 45 "_id": 1, 46 "teachers": 1, 47 "score": { $meta: "searchScore" }, 48 "highlights": { "$meta": "searchHighlights" } 49 } 50 })
1 [ 2 { 3 _id: 0, 4 teachers: [ 5 { 6 first: 'Jane', 7 last: 'Smith', 8 classes: [ 9 { subject: 'art of science', grade: '12th' }, 10 { 11 subject: 'applied science and practical science', 12 grade: '9th' 13 }, 14 { subject: 'remedial math', grade: '12th' }, 15 { subject: 'science', grade: '10th' } 16 ] 17 }, 18 { 19 first: 'Bob', 20 last: 'Green', 21 classes: [ 22 { subject: 'science of art', grade: '11th' }, 23 { subject: 'art art art', grade: '10th' } 24 ] 25 } 26 ], 27 score: 0.9415585994720459, 28 highlights: [ 29 { 30 score: 0.7354040145874023, 31 path: 'teachers.classes.subject', 32 texts: [ 33 { value: 'art of ', type: 'text' }, 34 { value: 'science', type: 'hit' } 35 ] 36 }, 37 { 38 score: 0.7871346473693848, 39 path: 'teachers.classes.subject', 40 texts: [ 41 { value: 'applied ', type: 'text' }, 42 { value: 'science', type: 'hit' }, 43 { value: ' and practical ', type: 'text' }, 44 { value: 'science', type: 'hit' } 45 ] 46 }, 47 { 48 score: 0.7581484317779541, 49 path: 'teachers.classes.subject', 50 texts: [ { value: 'science', type: 'hit' } ] 51 }, 52 { 53 score: 0.7189631462097168, 54 path: 'teachers.classes.subject', 55 texts: [ 56 { value: 'science', type: 'hit' }, 57 { value: ' of art', type: 'text' } 58 ] 59 } 60 ] 61 }, 62 { 63 _id: 1, 64 teachers: [ 65 { 66 first: 'Jane', 67 last: 'Earwhacker', 68 classes: [ 69 { subject: 'art', grade: '9th' }, 70 { subject: 'science', grade: '12th' } 71 ] 72 }, 73 { 74 first: 'John', 75 last: 'Smith', 76 classes: [ 77 { subject: 'math', grade: '12th' }, 78 { subject: 'art', grade: '10th' } 79 ] 80 } 81 ], 82 score: 0.7779859304428101, 83 highlights: [ 84 { 85 score: 1.502043604850769, 86 path: 'teachers.classes.subject', 87 texts: [ { value: 'science', type: 'hit' } ] 88 } 89 ] 90 } 91 ]
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Connect to your cluster in MongoDB Compass.
Open MongoDB Compass and connect to your cluster. For detailed instructions on connecting, see Connect via Compass.
Run the following Atlas Search queries against the schools collection.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
Pipeline Stage | Query | |||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
$search | | |||||||||||||||||||||||||
$project | If you enabled Auto Preview, MongoDB Compass
displays the following documents next to the
|
1 [ 2 { 3 _id: 1, 4 teachers: [ 5 { 6 first: 'Jane', 7 last: 'Earwhacker', 8 classes: [ 9 { subject: 'art', grade: '9th' }, 10 { subject: 'science', grade: '12th' } 11 ] 12 }, 13 { 14 first: 'John', 15 last: 'Smith', 16 classes: [ 17 { subject: 'math', grade: '12th' }, 18 { subject: 'art', grade: '10th' } 19 ] 20 } 21 ], 22 score: 0.7830756902694702, 23 highlights: [ 24 { 25 score: 1.4921371936798096, 26 path: 'teachers.last', 27 texts: [ { value: 'Smith', type: 'hit' } ] 28 } 29 ] 30 }, 31 { 32 _id: 2, 33 teachers: [ 34 { 35 first: 'Jane', 36 last: 'Smith', 37 classes: [ 38 { subject: 'science', grade: '9th' }, 39 { subject: 'math', grade: '12th' } 40 ] 41 }, 42 { 43 first: 'John', 44 last: 'Redman', 45 classes: [ { subject: 'art', grade: '12th' } ] 46 } 47 ], 48 score: 0.468008816242218, 49 highlights: [ 50 { 51 score: 1.4702850580215454, 52 path: 'teachers.last', 53 texts: [ { value: 'Smith', type: 'hit' } ] 54 } 55 ] 56 } 57 ]
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
To learn more about this query, see About the Queries.
Pipeline Stage | Query | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
$search | | ||||||||||||
$project | If you enabled Auto Preview, MongoDB Compass
displays the following documents next to the
|
1 [ 2 { 3 _id: 2, 4 name: 'Lincoln High', 5 clubs: { 6 sports: [ 7 { 8 club_name: 'dodgeball', 9 description: 'provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves.' 10 }, 11 { 12 club_name: 'martial arts', 13 description: 'provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons.' 14 } 15 ] 16 }, 17 score: 0.633669912815094 18 }, 19 { 20 _id: 1, 21 name: 'Evergreen High', 22 clubs: { 23 sports: [ 24 { 25 club_name: 'archery', 26 description: 'provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment.' 27 }, 28 { 29 club_name: 'ultimate frisbee', 30 description: 'provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes.' 31 } 32 ] 33 }, 34 score: 0.481589138507843 35 } 36 ]
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
To learn more about this query, see About the Queries.
Pipeline Stage | Query | ||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
$search | | ||||||||||||||||||||||||||||||||||||||||
$project | If you enabled Auto Preview, MongoDB Compass
displays the following documents next to the
|
1 [ 2 { 3 _id: 0, 4 teachers: [ 5 { 6 first: 'Jane', 7 last: 'Smith', 8 classes: [ 9 { subject: 'art of science', grade: '12th' }, 10 { 11 subject: 'applied science and practical science', 12 grade: '9th' 13 }, 14 { subject: 'remedial math', grade: '12th' }, 15 { subject: 'science', grade: '10th' } 16 ] 17 }, 18 { 19 first: 'Bob', 20 last: 'Green', 21 classes: [ 22 { subject: 'science of art', grade: '11th' }, 23 { subject: 'art art art', grade: '10th' } 24 ] 25 } 26 ], 27 score: 0.9415585994720459, 28 highlights: [ 29 { 30 score: 0.7354040145874023, 31 path: 'teachers.classes.subject', 32 texts: [ 33 { value: 'art of ', type: 'text' }, 34 { value: 'science', type: 'hit' } 35 ] 36 }, 37 { 38 score: 0.7871346473693848, 39 path: 'teachers.classes.subject', 40 texts: [ 41 { value: 'applied ', type: 'text' }, 42 { value: 'science', type: 'hit' }, 43 { value: ' and practical ', type: 'text' }, 44 { value: 'science', type: 'hit' } 45 ] 46 }, 47 { 48 score: 0.7581484317779541, 49 path: 'teachers.classes.subject', 50 texts: [ { value: 'science', type: 'hit' } ] 51 }, 52 { 53 score: 0.7189631462097168, 54 path: 'teachers.classes.subject', 55 texts: [ 56 { value: 'science', type: 'hit' }, 57 { value: ' of art', type: 'text' } 58 ] 59 } 60 ] 61 }, 62 { 63 _id: 1, 64 teachers: [ 65 { 66 first: 'Jane', 67 last: 'Earwhacker', 68 classes: [ 69 { subject: 'art', grade: '9th' }, 70 { subject: 'science', grade: '12th' } 71 ] 72 }, 73 { 74 first: 'John', 75 last: 'Smith', 76 classes: [ 77 { subject: 'math', grade: '12th' }, 78 { subject: 'art', grade: '10th' } 79 ] 80 } 81 ], 82 score: 0.7779859304428101, 83 highlights: [ 84 { 85 score: 1.502043604850769, 86 path: 'teachers.classes.subject', 87 texts: [ { value: 'science', type: 'hit' } ] 88 } 89 ] 90 } 91 ]
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Set up and initialize the .NET/C# project for the query.
Create a new directory called
embedded-documents-queryand initialize your project with the dotnet new command.mkdir embedded-documents-query cd embedded-documents-query dotnet new console Add the .NET/C# Driver to your project as a dependency.
dotnet add package MongoDB.Driver
Copy and paste the query into the Program.cs file.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 using MongoDB.Bson; 2 using MongoDB.Bson.Serialization.Attributes; 3 using MongoDB.Bson.Serialization.Conventions; 4 using MongoDB.Driver; 5 using MongoDB.Driver.Search; 6 7 public class NestedArrayExample 8 { 9 private const string MongoConnectionString = "<connection-string>"; 10 11 public static void Main(string[] args) 12 { 13 // allow automapping of the camelCase database fields to our SchoolDocument 14 var camelCaseConvention = new ConventionPack { new CamelCaseElementNameConvention() }; 15 ConventionRegistry.Register("CamelCase", camelCaseConvention, type => true); 16 17 // connect to your Atlas cluster 18 var mongoClient = new MongoClient(MongoConnectionString); 19 var districtSchoolsDatabase = mongoClient.GetDatabase("local_school_district"); 20 var schoolsCollection = districtSchoolsDatabase.GetCollection<SchoolDocument>("schools"); 21 22 // define variables for query 23 var compoundQuery = Builders<TeacherDocument>.Search.Compound() 24 .Must(Builders<TeacherDocument>.Search.Text(teacher => teacher.First, "John")) 25 .Should(Builders<TeacherDocument>.Search.Text(teacher => teacher.Last, "Smith")); 26 var opts = new SearchHighlightOptions<SchoolDocument>(school => school.Teachers.Select(teacher => teacher.Last));; 27 28 // define and run pipeline 29 var results = schoolsCollection.Aggregate() 30 .Search(Builders<SchoolDocument>.Search.EmbeddedDocument( 31 school => school.Teachers, compoundQuery), opts, 32 indexName: "embedded-documents-tutorial" 33 ) 34 .Project<SchoolDocument>(Builders<SchoolDocument>.Projection 35 .Include(school => school.Name) 36 .Include(school => school.Mascot) 37 .Include(school => school.Teachers) 38 .MetaSearchScore(school => school.Score) 39 .MetaSearchHighlights("highlights")) 40 .ToList(); 41 42 // print results 43 foreach (var school in results) 44 { 45 Console.WriteLine(school.ToJson()); 46 } 47 } 48 } 49 50 [] 51 public class SchoolDocument 52 { 53 public int Id { get; set; } 54 public string Name { get; set; } 55 public string Mascot { get; set; } 56 public TeacherDocument[] Teachers { get; set; } 57 [] 58 public List<SearchHighlight> Highlights { get; set; } 59 public double Score { get; set; } 60 } 61 62 [] 63 public class TeacherDocument 64 { 65 public string First { get; set; } 66 public string Last { get; set; } 67 public ClassDocument[] Classes { get; set; } 68 } 69 70 [] 71 public class ClassDocument 72 { 73 public string Subject { get; set; } 74 public string Grade { get; set; } 75 }
To learn more about this query, see About the Queries.
1 using MongoDB.Bson; 2 using MongoDB.Bson.Serialization.Attributes; 3 using MongoDB.Bson.Serialization.Conventions; 4 using MongoDB.Driver; 5 using MongoDB.Driver.Search; 6 using System; 7 using System.Collections.Generic; 8 using System.Reflection.Emit; 9 10 public class NestedArrayWithinObjectExample 11 { 12 private const string MongoConnectionString = "<connection-string>"; 13 14 public static void Main(string[] args) 15 { 16 // allow automapping of the camelCase database fields to our SchoolDocument 17 var camelCaseConvention = new ConventionPack { new CamelCaseElementNameConvention() }; 18 ConventionRegistry.Register("CamelCase", camelCaseConvention, type => true); 19 20 // connect to your Atlas cluster 21 var mongoClient = new MongoClient(MongoConnectionString); 22 var districtSchoolsDatabase = mongoClient.GetDatabase("local_school_district"); 23 var schoolsCollection = districtSchoolsDatabase.GetCollection<SchoolDocument>("schools"); 24 25 // define variables for query 26 var queryStringQuery = Builders<ExtraCurricularDocument>.Search.QueryString( 27 sport => sport.ClubName, "dodgeball OR frisbee" 28 ); 29 30 // define and run pipeline 31 var results = schoolsCollection.Aggregate() 32 .Search(Builders<SchoolDocument>.Search.EmbeddedDocument( 33 school => school.Clubs.Sports, queryStringQuery), 34 indexName: "embedded-documents-tutorial" 35 ) 36 .Project<SchoolDocument>(Builders<SchoolDocument>.Projection 37 .Include(school => school.Clubs) 38 .Include(school => school.Name) 39 .Include(school => school.Id) 40 .MetaSearchScore(school => school.Score)) 41 .ToList(); 42 43 // print results 44 foreach (var school in results) 45 { 46 Console.WriteLine(school.ToJson()); 47 } 48 } 49 } 50 51 [] 52 public class SchoolDocument 53 { 54 public int Id { get; set; } 55 public string Name { get; set; } 56 public ClubDocument Clubs { get; set; } 57 public double Score { get; set; } 58 } 59 60 [] 61 public class ClubDocument 62 { 63 public ExtraCurricularDocument[] Sports { get; set; } 64 } 65 66 [] 67 public class ExtraCurricularDocument 68 { 69 [] 70 public string ClubName { get; set; } 71 public string Description { get; set; } 72 }
To learn more about this query, see About the Queries.
1 using MongoDB.Bson; 2 using MongoDB.Bson.Serialization.Attributes; 3 using MongoDB.Bson.Serialization.Conventions; 4 using MongoDB.Driver; 5 using MongoDB.Driver.Search; 6 7 public class NestedArrayWithinArrayExample 8 { 9 private const string MongoConnectionString = "<connection-string>"; 10 11 public static void Main(string[] args) 12 { 13 // allow automapping of the camelCase database fields to our SchoolDocument 14 var camelCaseConvention = new ConventionPack { new CamelCaseElementNameConvention() }; 15 ConventionRegistry.Register("CamelCase", camelCaseConvention, type => true); 16 17 // connect to your Atlas cluster 18 var mongoClient = new MongoClient(MongoConnectionString); 19 var districtSchoolsDatabase = mongoClient.GetDatabase("local_school_district"); 20 var schoolsCollection = districtSchoolsDatabase.GetCollection<SchoolDocument>("schools"); 21 22 // define variables for query 23 var mustQuery = Builders<ClassDocument>.Search.Compound() 24 .Must(Builders<ClassDocument>.Search.Text(classes => classes.Grade, "12th"), Builders<ClassDocument>.Search.Text(classes => classes.Subject, "science")); 25 var compoundQuery = Builders<TeacherDocument>.Search.Compound() 26 .Must(Builders<TeacherDocument>.Search.EmbeddedDocument(teacher => teacher.Classes, mustQuery)) 27 .Should(Builders<TeacherDocument>.Search.Text(teacher => teacher.Last, "smith")); 28 var opts = new SearchHighlightOptions<SchoolDocument>("teachers.classes.subject"); 29 30 // define and run pipeline 31 var results = schoolsCollection.Aggregate() 32 .Search(Builders<SchoolDocument>.Search.EmbeddedDocument( 33 school => school.Teachers, compoundQuery), opts, 34 indexName: "embedded-documents-tutorial" 35 ) 36 .Project<SchoolDocument>(Builders<SchoolDocument>.Projection 37 .Include(school => school.Teachers) 38 .MetaSearchScore(school => school.Score) 39 .MetaSearchHighlights("highlights")) 40 .ToList(); 41 42 // print results 43 foreach (var school in results) 44 { 45 Console.WriteLine(school.ToJson()); 46 } 47 } 48 } 49 50 [] 51 public class SchoolDocument 52 { 53 public int Id { get; set; } 54 public TeacherDocument[] Teachers { get; set; } 55 [] 56 public List<SearchHighlight> Highlights { get; set; } 57 public double Score { get; set; } 58 } 59 60 [] 61 public class TeacherDocument 62 { 63 public string First { get; set; } 64 public string Last { get; set; } 65 public ClassDocument[] Classes { get; set; } 66 } 67 68 [] 69 public class ClassDocument 70 { 71 public string Subject { get; set; } 72 public string Grade { get; set; } 73 }
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Compile and run the Program.cs file.
dotnet run embedded-documents-query.csproj
{ "_id" : 1, "name" : "Evergreen High", "mascot" : "Jaguars", "teachers" : [{ "first" : "Jane", "last" : "Earwhacker", "classes" : [{ " subject" : "art", "grade" : "9th" }, { "subject" : "science", "grade" : "12th" }] }, { "first" : "John", "last" : "Smith", "classes" : [{ "subject" : "math", "grade" : "12th" }, { "subject" : "art", "grade" : "10th" }] }], "highlights" : [{ "path" : "teachers.last", "score" : 1.4921371936798096, "texts" : [{ "type" : "Hit", "value" : "Smith" }] }], "score" : 0.78307569026947021 } { "_id" : 2, "name" : "Lincoln High", "mascot" : "Sharks", "teachers" : [{ "first" : "Jane", "last" : "Smith", "classes" : [{ "subject" : "science", "grade" : "9th" }, { "subject" : "math", "grade" : "12th" }] }, { "first" : "John", "last" : "Redman", "classes" : [{ "subject" : "art", "grade" : "12th" }] }], "highlights" : [{ "path" : "teachers.last", "score" : 1.4702850580215454, "texts" : [{ "type" : "Hit", "value" : "Smith" }] }], "score" : 0.46800881624221802 }
dotnet run embedded-documents-query.csproj
{ "_id" : 2, "name" : "Lincoln High", "clubs" : { "sports" : [{ "club_name" : "dodgeball", "description" : "provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves." }, { "club_name" : "martial arts", "description" : "provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons." }] }, "score" : 0.63366991281509399 } { "_id" : 1, "name" : "Evergreen High", "clubs" : { "sports" : [{ "club_name" : "archery", "description" : "provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment." }, { "club_name" : "ultimate frisbee", "description" : "provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes." }] }, "score" : 0.48158913850784302 }
dotnet run embedded-documents-query.csproj
{ "_id" : 0, "teachers" : [{ "first" : "Jane", "last" : "Smith", "classes" : [{ "subject" : "art of science", "grade" : "12th" }, { "subject" : "applied science and practical science", "grade" : "9th" }, { "subject" : "remedial math", "grade" : "12th" }, { "subject" : "science", "grade" : "10th" }] }, { "first" : "Bob", "last" : "Green", "classes" : [{ "subject" : "science of art", "grade" : "11th" }, { "subject" : "art art art", "grade" : "10th" }] }], "highlights" : [{ "path" : "teachers.classes.subject", "score" : 0.73540401458740234, "texts" : [ { "type" : "Text", "value" : "art of " }, { "type" : "Hit", "value" : "science" } ] }, { "path" : "teachers.classes.subject", "score" : 0.78713464736938477, "texts" : [ { "type" : "Text", "value" : "applied " }, { "type" : "Hit", "value" : "science" }, { "type" : "Text", "value" : " and practical " }, { "type" : "Hit", "value" : "science" }] }, { "path" : "teachers.classes.subject", "score" : 0.7581484317779541, "texts" : [{ "type" : "Hit", "value" : "science" }] }, { "path" : "teachers.classes.subject", "score" : 0.7189631462097168, "texts" : [ { "type" : "Hit", "value" : "science" }, { "type" : "Text", "value" : " of art" } ] }], "score" : 0.9415585994720459 } { "_id" : 1, "teachers" : [{ "first" : "Jane", "last" : "Earwhacker", "classes" : [{ "subject" : "art", "grade" : "9th" }, { "subject" : "science", "grade" : "12th" }] }, { "first" : "John", "last" : "Smith", "classes" : [{ "subject" : "math", "grade" : "12th" }, { "subject" : "art", "grade" : "10th" }] }], "highlights" : [{ "path" : "teachers.classes.subject", "score" : 1.502043604850769, "texts" : [{ "type" : "Hit", "value" : "science" }] }], "score" : 0.77798593044281006 }
Copy and paste the code example for the queries into the respective files.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 package main 2 3 import ( 4 "context" 5 "fmt" 6 7 "go.mongodb.org/mongo-driver/bson" 8 "go.mongodb.org/mongo-driver/mongo" 9 "go.mongodb.org/mongo-driver/mongo/options" 10 ) 11 12 func main() { 13 // connect to your Atlas cluster 14 client, err := mongo.Connect(context.TODO(), options.Client().ApplyURI("<connection-string>")) 15 if err != nil { 16 panic(err) 17 } 18 defer client.Disconnect(context.TODO()) 19 20 // set namespace 21 collection := client.Database("local_school_district").Collection("schools") 22 23 // define pipeline stages 24 searchStage := bson.D{{"$search", bson.M{ 25 "index": "embedded-documents-tutorial", 26 "embeddedDocument": bson.M{ 27 "path": "teachers", "operator": bson.M{ 28 "compound": bson.M{ 29 "must": bson.A{ 30 bson.M{ 31 "text": bson.D{ 32 {"path", "teachers.first"}, 33 {"query", "John"}, 34 }, 35 }, 36 }, 37 "should": bson.A{ 38 bson.M{ 39 "text": bson.D{ 40 {"path", "teachers.last"}, 41 {"query", "Smith"}, 42 }, 43 }, 44 }, 45 }, 46 }, 47 }, 48 "highlight": bson.D{{"path", "teachers.last"}}, 49 }}} 50 51 projectStage := bson.D{{"$project", bson.D{{"teachers", 1}, {"score", bson.D{{"$meta", "searchScore"}}}, {"highlights", bson.D{{"$meta", "searchHighlights"}}}}}} 52 53 // run pipeline 54 cursor, err := collection.Aggregate(context.TODO(), mongo.Pipeline{searchStage, projectStage}) 55 if err != nil { 56 panic(err) 57 } 58 59 // print results 60 var results []bson.D 61 if err = cursor.All(context.TODO(), &results); err != nil { 62 panic(err) 63 } 64 for _, result := range results { 65 fmt.Println(result) 66 } 67 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 package main 2 3 import ( 4 "context" 5 "fmt" 6 7 "go.mongodb.org/mongo-driver/bson" 8 "go.mongodb.org/mongo-driver/mongo" 9 "go.mongodb.org/mongo-driver/mongo/options" 10 ) 11 12 func main() { 13 // connect to your Atlas cluster 14 client, err := mongo.Connect(context.TODO(), options.Client().ApplyURI("<connection-string>")) 15 if err != nil { 16 panic(err) 17 } 18 defer client.Disconnect(context.TODO()) 19 20 // set namespace 21 collection := client.Database("local_school_district").Collection("schools") 22 23 // define pipeline stages 24 searchStage := bson.D{{"$search", bson.M{ 25 "index": "embedded-documents-tutorial", 26 "embeddedDocument": bson.D{ 27 {"path", "clubs.sports"}, 28 {"operator", 29 bson.D{ 30 {"queryString", 31 bson.D{ 32 {"defaultPath", "clubs.sports.club_name"}, 33 {"query", "dodgeball OR frisbee"}, 34 }, 35 }, 36 }, 37 }, 38 }, 39 }}} 40 41 projectStage := bson.D{{"$project", bson.D{{"name", 1}, {"clubs.sports", 1}, {"score", bson.D{{"$meta", "searchScore"}}}}}} 42 43 // run pipeline 44 cursor, err := collection.Aggregate(context.TODO(), mongo.Pipeline{searchStage, projectStage}) 45 if err != nil { 46 panic(err) 47 } 48 49 // print results 50 var results []bson.D 51 if err = cursor.All(context.TODO(), &results); err != nil { 52 panic(err) 53 } 54 for _, result := range results { 55 fmt.Println(result) 56 } 57 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 package main 2 3 import ( 4 "context" 5 "fmt" 6 7 "go.mongodb.org/mongo-driver/bson" 8 "go.mongodb.org/mongo-driver/mongo" 9 "go.mongodb.org/mongo-driver/mongo/options" 10 ) 11 12 func main() { 13 // connect to your Atlas cluster 14 client, err := mongo.Connect(context.TODO(), options.Client().ApplyURI("<connection-string>")) 15 if err != nil { 16 panic(err) 17 } 18 defer client.Disconnect(context.TODO()) 19 20 // set namespace 21 collection := client.Database("local_school_district").Collection("schools") 22 23 // define pipeline stages 24 searchStage := bson.D{{"$search", bson.M{ 25 "index": "embedded-documents-tutorial", 26 "embeddedDocument": bson.M{ 27 "path": "teachers", 28 "operator": bson.M{ 29 "compound": bson.M{ 30 "must": bson.A{ 31 bson.M{ 32 "embeddedDocument": bson.M{ 33 "path": "teachers.classes", 34 "operator": bson.M{ 35 "compound": bson.M{ 36 "must": bson.A{ 37 bson.M{ 38 "text": bson.D{ 39 {"path", "teachers.classes.grade"}, 40 {"query", "12th"}, 41 }, 42 }, 43 bson.M{ 44 "text": bson.D{ 45 {"path", "teachers.classes.subject"}, 46 {"query", "science"}, 47 }, 48 }, 49 }, 50 }, 51 }, 52 }, 53 }, 54 }, 55 "should": bson.A{ 56 bson.M{ 57 "text": bson.D{ 58 {"path", "teachers.last"}, 59 {"query", "Smith"}, 60 }, 61 }, 62 }, 63 }, 64 }, 65 }, 66 "highlight": bson.D{{"path", "teachers.classes.subject"}}, 67 }}} 68 69 projectStage := bson.D{{"$project", bson.D{{"teachers", 1}, {"score", bson.D{{"$meta", "searchScore"}}}, {"highlights", bson.D{{"$meta", "searchHighlights"}}}}}} 70 71 // run pipeline 72 cursor, err := collection.Aggregate(context.TODO(), mongo.Pipeline{searchStage, projectStage}) 73 if err != nil { 74 panic(err) 75 } 76 77 // print results 78 var results []bson.D 79 if err = cursor.All(context.TODO(), &results); err != nil { 80 panic(err) 81 } 82 for _, result := range results { 83 fmt.Println(result) 84 } 85 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
Run the following command to query your collection:
go run basic-embedded-documents-search.go
1 [ 2 {_id 1} 3 {teachers [[ 4 {first Jane} 5 {last Earwhacker} 6 {classes [[{subject art} {grade 9th}] [{subject science} {grade 12th}]]} 7 ] [ 8 {first John} 9 {last Smith} 10 {classes [[{subject math} {grade 12th}] [{subject art} {grade 10th}]]} 11 ]]} 12 {score 0.7830756902694702} 13 {highlights [[ 14 {score 1.4921371936798096} 15 {path teachers.last} 16 {texts [[{value Smith} {type hit}]]} 17 ]]} 18 ] 19 [ 20 {_id 2} 21 {teachers [[ 22 {first Jane} 23 {last Smith} 24 {classes [[{subject science} {grade 9th}] [{subject math} {grade 12th}]]} 25 ] [ 26 {first John} 27 {last Redman} 28 {classes [[{subject art} {grade 12th}]]} 29 ]]} 30 {score 0.468008816242218} 31 {highlights [[ 32 {score 1.4702850580215454} 33 {path teachers.last} 34 {texts [[{value Smith} {type hit}]]} 35 ]]} 36 ]
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
go run complex-embedded-documents-search.go
1 [ 2 {_id 2} 3 {name Lincoln High} 4 {clubs [ 5 {sports [ 6 [ 7 {club_name dodgeball} 8 {description provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves.} 9 ] [ 10 {club_name martial arts} 11 {description provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons.} 12 ] 13 ]} 14 ]} 15 {score 0.633669912815094} 16 ] 17 [ 18 {_id 1} 19 {name Evergreen High} 20 {clubs [ 21 {sports [ 22 [ 23 {club_name archery} 24 {description provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment.} 25 ] [ 26 {club_name ultimate frisbee} 27 {description provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes.} 28 ] 29 ]} 30 ]} 31 {score 0.481589138507843} 32 ]
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
go run nested-embedded-documents-search.go
1 [ 2 {_id 0} 3 {teachers [[ 4 {first Jane} 5 {last Smith} 6 {classes [[{subject art of science} {grade 12th}] [{subject applied science and practical science} {grade 9th}] [{subject remedial math} {grade 12th}] [{subject science} {grade 10th}]]} 7 ] [ 8 {first Bob} 9 {last Green} 10 {classes [[{subject science of art} {grade 11th}] [{subject art art art} {grade 10th}]]} 11 ]]} 12 {score 0.9415585994720459} 13 {highlights [[ 14 {score 0.7354040145874023} 15 {path teachers.classes.subject} 16 {texts [[{value art of } {type text}] [{value science} {type hit}]]} 17 ] [ 18 {score 0.7871346473693848} 19 {path teachers.classes.subject} 20 {texts [[{value applied } {type text}] [{value science} {type hit}] [{value and practical } {type text}] [{value science} {type hit}]]} 21 ] [ 22 {score 0.7581484317779541} 23 {path teachers.classes.subject} 24 {texts [[{value science} {type hit}]]} 25 ] [ 26 {score 0.7189631462097168} 27 {path teachers.classes.subject} 28 {texts [[{value science} {type hit}] [{value of art} {type text}]]} 29 ]]} 30 ] 31 [ 32 {_id 1} 33 {teachers [[ 34 {first Jane} 35 {last Earwhacker} 36 {classes [[{subject art} {grade 9th}] [{subject science} {grade 12th}]]} 37 ] [ 38 {first John} 39 {last Smith} 40 {classes [[{subject math} {grade 12th}] [{subject art} {grade 10th}]]} 41 ]]} 42 {score 0.7779859304428101} 43 {highlights [[ 44 {score 1.502043604850769} 45 {path teachers.classes.subject} 46 {texts [[{value science} {type hit}]]} 47 ]]} 48 ]
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Copy and paste the code for the Atlas Search query into the respective file.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 import java.util.Arrays; 2 import java.util.List; 3 4 import static com.mongodb.client.model.Aggregates.limit; 5 import static com.mongodb.client.model.Aggregates.project; 6 import static com.mongodb.client.model.Projections.*; 7 import com.mongodb.client.MongoClient; 8 import com.mongodb.client.MongoClients; 9 import com.mongodb.client.MongoCollection; 10 import com.mongodb.client.MongoDatabase; 11 import org.bson.Document; 12 13 public class BasicEmbeddedDocumentsSearch { 14 public static void main( String[] args ) { 15 // define clauses 16 List<Document> mustClause = 17 List.of( 18 new Document( 19 "text", 20 new Document("path", "teachers.first") 21 .append("query", "John"))); 22 List<Document> shouldClause = 23 List.of( 24 new Document( 25 "text", 26 new Document("path", "teachers.last") 27 .append("query", "Smith"))); 28 29 // define query 30 Document agg = 31 new Document("$search", new Document("index", "embedded-documents-tutorial") 32 .append("embeddedDocument", 33 new Document("path", "teachers") 34 .append("operator", 35 new Document("compound", 36 new Document("must", mustClause) 37 .append("should", shouldClause)))) 38 .append("highlight", new Document("path", "teachers.last"))); 39 40 // specify connection 41 String uri = "<connection-string>"; 42 43 // establish connection and set namespace 44 try (MongoClient mongoClient = MongoClients.create(uri)) { 45 MongoDatabase database = mongoClient.getDatabase("local_school_district"); 46 MongoCollection<Document> collection = database.getCollection("schools"); 47 48 // run query and print results 49 collection.aggregate(Arrays.asList(agg, 50 limit(5), 51 project(Document.parse("{score: {$meta: 'searchScore'}, _id: 0, teachers: 1, highlights: {$meta: 'searchHighlights'}}")))) 52 .forEach(doc -> System.out.println(doc.toJson())); 53 } 54 } 55 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 import java.util.Arrays; 2 import static com.mongodb.client.model.Aggregates.limit; 3 import static com.mongodb.client.model.Aggregates.project; 4 import static com.mongodb.client.model.Projections.computed; 5 import static com.mongodb.client.model.Projections.fields; 6 import static com.mongodb.client.model.Projections.include; 7 import com.mongodb.client.MongoClient; 8 import com.mongodb.client.MongoClients; 9 import com.mongodb.client.MongoCollection; 10 import com.mongodb.client.MongoDatabase; 11 import org.bson.Document; 12 13 public class ComplexEmbeddedDocumentQuery { 14 public static void main(String[] args) { 15 // connect to your Atlas cluster 16 String uri = "<connection-string>"; 17 18 try (MongoClient mongoClient = MongoClients.create(uri)) { 19 // set namespace 20 MongoDatabase database = mongoClient.getDatabase("my_test"); 21 MongoCollection<Document> collection = database.getCollection("schools"); 22 23 // define pipeline 24 Document agg = new Document("$search", 25 new Document("embeddedDocument", 26 new Document("path", "clubs.sports") 27 .append("operator", 28 new Document("queryString", 29 new Document("defaultPath", "clubs.sports.club_name") 30 .append("query", "dodgeball OR frisbee"))))); 31 32 // run pipeline and print results 33 collection.aggregate(Arrays.asList(agg, 34 limit(5), 35 project(fields( 36 include("name", "clubs.sports"), 37 computed("score", new Document("$meta", "searchScore")))))) 38 .forEach(doc -> System.out.println(doc.toJson())); 39 } 40 } 41 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 import java.util.Arrays; 2 import java.util.List; 3 4 import static com.mongodb.client.model.Aggregates.limit; 5 import static com.mongodb.client.model.Aggregates.project; 6 import com.mongodb.client.MongoClient; 7 import com.mongodb.client.MongoClients; 8 import com.mongodb.client.MongoCollection; 9 import com.mongodb.client.MongoDatabase; 10 import org.bson.Document; 11 12 public class NestedEmbeddedDocumentsSearch { 13 public static void main( String[] args ) { 14 // define clauses 15 List<Document> nestedMustClause = 16 List.of( 17 new Document( 18 "text", 19 new Document("path", "teachers.classes.grade") 20 .append("query", "12th")), 21 new Document("text", 22 new Document("path", "teachers.classes.subject") 23 .append("query", "science"))); 24 List<Document> mustClause = 25 List.of( 26 new Document( 27 "embeddedDocument", 28 new Document("path", "teachers.classes") 29 .append("operator", new Document("compound", 30 new Document("must", nestedMustClause))))); 31 List<Document> shouldClause = 32 List.of( 33 new Document( 34 "text", 35 new Document("path", "teachers.last") 36 .append("query", "Smith"))); 37 38 // define query 39 Document agg = 40 new Document( 41 "$search", 42 new Document("index", "embedded-documents-tutorial") 43 .append("embeddedDocument", 44 new Document("path", "teachers") 45 .append("operator", 46 new Document("compound", 47 new Document("must", mustClause) 48 .append("should", shouldClause)))) 49 .append("highlight", new Document("path", "teachers.classes.subject"))); 50 51 // specify connection 52 String uri = "<connection-string>"; 53 54 // establish connection and set namespace 55 try (MongoClient mongoClient = MongoClients.create(uri)) { 56 MongoDatabase database = mongoClient.getDatabase("local_school_district"); 57 MongoCollection<Document> collection = database.getCollection("schools"); 58 59 // run query and print results 60 collection.aggregate(Arrays.asList(agg, 61 limit(5), 62 project(Document.parse("{score: {$meta: 'searchScore'}, _id: 0, teachers: 1, highlights: {$meta: 'searchHighlights'}}")))) 63 .forEach(doc -> System.out.println(doc.toJson())); 64 } 65 } 66 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
Compile and run the Java file.
javac BasicEmbeddedDocumentsSearch.java java BasicEmbeddedDocumentsSearch
1 { 2 "teachers": [{ 3 "first": "Jane", 4 "last": "Earwhacker", 5 "classes": [{ 6 {"subject": "art", "grade": "9th"}, 7 {"subject": "science", "grade": "12th"} 8 ] 9 }, { 10 "first": "John", 11 "last": "Smith", 12 "classes": [ 13 {"subject": "math", "grade": "12th"}, 14 {"subject": "art", "grade": "10th"} 15 ] 16 }], 17 "score": 0.7830756902694702, 18 "highlights": [{ 19 "score": 1.4921371936798096, 20 "path": "teachers.last", 21 "texts": [{"value": "Smith", "type": "hit"}] 22 }] 23 } 24 { 25 "teachers": [{ 26 "first": "Jane", 27 "last": "Smith", 28 "classes": [ 29 {"subject": "science", "grade": "9th"}, 30 {"subject": "math", "grade": "12th"} 31 ] 32 }, { 33 "first": "John", 34 "last": "Redman", 35 "classes": [ 36 {"subject": "art", "grade": "12th"} 37 ] 38 }], 39 "score": 0.468008816242218, 40 "highlights": [{ 41 "score": 1.4702850580215454, 42 "path": "teachers.last", 43 "texts": [{"value": "Smith", "type": "hit"}] 44 }] 45 }
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
javac ComplexEmbeddedDocumentQuery.java java ComplexEmbeddedDocumentQuery
1 { 2 "_id": 2, 3 "name": "Lincoln High", 4 "clubs": { 5 "sports": [ 6 {"club_name": "dodgeball", "description": "provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves."}, 7 {"club_name": "martial arts", "description": "provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons."} 8 ] 9 }, 10 "score": 0.633669912815094 11 } 12 { 13 "_id": 1, 14 "name": "Evergreen High", 15 "clubs": { 16 "sports": [ 17 {"club_name": "archery", "description": "provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment."}, 18 {"club_name": "ultimate frisbee", "description": "provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes."} 19 ] 20 }, 21 "score": 0.481589138507843 22 }
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
javac NestedEmbeddedDocumentsSearch.java java NestedEmbeddedDocumentsSearch
1 { 2 "teachers": [{ 3 "first": "Jane", 4 "last": "Smith", 5 "classes": [ 6 {"subject": "art of science", "grade": "12th"}, 7 {"subject": "applied science and practical science", "grade": "9th"}, 8 {"subject": "remedial math", "grade": "12th"}, 9 {"subject": "science", "grade": "10th"} 10 ] 11 }, { 12 "first": "Bob", 13 "last": "Green", 14 "classes": [ 15 {"subject": "science of art", "grade": "11th"}, 16 {"subject": "art art art", "grade": "10th"} 17 ] 18 }], 19 "score": 0.9415585994720459, 20 "highlights": [{ 21 "score": 0.7354040145874023, 22 "path": "teachers.classes.subject", 23 "texts": [ 24 {"value": "art of ", "type": "text"}, 25 {"value": "science", "type": "hit"} 26 ] 27 }, { 28 "score": 0.7871346473693848, 29 "path": "teachers.classes.subject", 30 "texts": [ 31 {"value": "applied ", "type": "text"}, 32 {"value": "science", "type": "hit"}, 33 {"value": " and practical ", "type": "text"}, 34 {"value": "science", "type": "hit"} 35 ] 36 }, { 37 "score": 0.7581484317779541, 38 "path": "teachers.classes.subject", 39 "texts": [ 40 {"value": "science", "type": "hit"} 41 ] 42 }, { 43 "score": 0.7189631462097168, 44 "path": "teachers.classes.subject", 45 "texts": [ 46 {"value": "science", "type": "hit"}, 47 {"value": " of art", "type": "text"} 48 ] 49 }] 50 } 51 { 52 "teachers": [{ 53 "first": "Jane", 54 "last": "Earwhacker", 55 "classes": [ 56 {"subject": "art", "grade": "9th"}, 57 {"subject": "science", "grade": "12th"} 58 ] 59 }, { 60 "first": "John", 61 "last": "Smith", 62 "classes": [ 63 {"subject": "math", "grade": "12th"}, 64 {"subject": "art", "grade": "10th"} 65 ] 66 }], 67 "score": 0.7779859304428101, 68 "highlights": [{ 69 "score": 1.502043604850769, 70 "path": "teachers.classes.subject", 71 "texts": [{"value": "science", "type": "hit"}] 72 }] 73 }
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Copy and paste the code for the Atlas Search query into the respective file.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 import com.mongodb.client.model.Aggregates.limit 2 import com.mongodb.client.model.Aggregates.project 3 import com.mongodb.client.model.Projections.* 4 import com.mongodb.kotlin.client.coroutine.MongoClient 5 import kotlinx.coroutines.runBlocking 6 import org.bson.Document 7 8 fun main() { 9 // establish connection and set namespace 10 val uri = "<connection-string>" 11 val mongoClient = MongoClient.create(uri) 12 val database = mongoClient.getDatabase("local_school_district") 13 val collection = database.getCollection<Document>("schools") 14 15 runBlocking { 16 // define clauses 17 val mustClauses = listOf( 18 Document( 19 "text", 20 Document("path", "teachers.first").append("query", "John") 21 ) 22 ) 23 24 val shouldClauses = listOf( 25 Document( 26 "text", 27 Document("path", "teachers.last") 28 .append("query", "Smith") 29 ) 30 ) 31 32 // define query 33 val agg = Document( 34 "\$search", Document("index", "embedded-documents-tutorial") 35 .append( 36 "embeddedDocument", 37 Document("path", "teachers") 38 .append( 39 "operator", 40 Document( 41 "compound", 42 Document("must", mustClauses) 43 .append("should", shouldClauses) 44 ) 45 ) 46 ) 47 .append("highlight", Document("path", "teachers.last")) 48 ) 49 50 // run query and print results 51 val resultsFlow = collection.aggregate<Document>( 52 listOf( 53 agg, 54 limit(5), 55 project(fields( 56 excludeId(), 57 include("teachers"), 58 computed("score", Document("\$meta", "searchScore")), 59 computed("highlights", Document("\$meta", "searchHighlights")) 60 )) 61 ) 62 ) 63 resultsFlow.collect { println(it) } 64 } 65 mongoClient.close() 66 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 import com.mongodb.client.model.Aggregates.limit 2 import com.mongodb.client.model.Aggregates.project 3 import com.mongodb.client.model.Projections.* 4 import com.mongodb.kotlin.client.coroutine.MongoClient 5 import kotlinx.coroutines.runBlocking 6 import org.bson.Document 7 8 fun main() { 9 // connect to your Atlas cluster 10 val uri = "<connection-string>" 11 val mongoClient = MongoClient.create(uri) 12 13 // set namespace 14 val database = mongoClient.getDatabase("local_school_district") 15 val collection = database.getCollection<Document>("schools") 16 17 runBlocking { 18 // define pipeline 19 val agg = Document( 20 "\$search", 21 Document("index", "embedded-documents-tutorial") 22 .append("embeddedDocument", Document("path", "clubs.sports") 23 .append( 24 "operator", 25 Document( 26 "queryString", 27 Document("defaultPath", "clubs.sports.club_name") 28 .append("query", "dodgeball OR frisbee") 29 ) 30 ) 31 ) 32 ) 33 34 // run pipeline and print results 35 val resultsFlow = collection.aggregate<Document>( 36 listOf( 37 agg, 38 limit(5), 39 project( 40 fields( 41 include("name", "clubs.sports"), 42 computed("score", Document("\$meta", "searchScore")) 43 ) 44 ) 45 ) 46 ) 47 resultsFlow.collect { println(it) } 48 } 49 mongoClient.close() 50 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 import com.mongodb.client.model.Aggregates.limit 2 import com.mongodb.client.model.Aggregates.project 3 import com.mongodb.client.model.Projections.* 4 import com.mongodb.kotlin.client.coroutine.MongoClient 5 import kotlinx.coroutines.runBlocking 6 import org.bson.Document 7 8 fun main() { 9 // establish connection and set namespace 10 val uri = "<connection-string>" 11 val mongoClient = MongoClient.create(uri) 12 val database = mongoClient.getDatabase("local_school_district") 13 val collection = database.getCollection<Document>("schools") 14 15 runBlocking { 16 // define clauses 17 val nestedMustClauses = listOf( 18 Document("text", Document("path", "teachers.classes.grade") 19 .append("query", "12th")), 20 Document("text", Document("path", "teachers.classes.subject") 21 .append("query", "science")) 22 ) 23 24 val mustClauses = listOf( 25 Document( 26 "embeddedDocument", 27 Document("path", "teachers.classes") 28 .append( 29 "operator", Document( 30 "compound", 31 Document("must", nestedMustClauses) 32 ) 33 ) 34 ) 35 ) 36 37 val shouldClauses = listOf( 38 Document( 39 "text", 40 Document("path", "teachers.last") 41 .append("query", "Smith") 42 ) 43 ) 44 45 // define query 46 val agg = Document( 47 "\$search", 48 Document("index", "embedded-documents-tutorial") 49 .append( 50 "embeddedDocument", 51 Document("path", "teachers") 52 .append( 53 "operator", 54 Document( 55 "compound", 56 Document("must", mustClauses) 57 .append("should", shouldClauses) 58 ) 59 ) 60 ) 61 .append("highlight", Document("path", "teachers.classes.subject")) 62 ) 63 64 // run query and print results 65 val resultsFlow = collection.aggregate<Document>( 66 listOf( 67 agg, 68 limit(5), 69 project(fields( 70 excludeId(), 71 include("teachers"), 72 computed("score", Document("\$meta", "searchScore")), 73 computed("highlights", Document("\$meta", "searchHighlights")) 74 )) 75 ) 76 ) 77 resultsFlow.collect { println(it) } 78 } 79 mongoClient.close() 80 }
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
Run each Kotlin file.
When you run the BasicEmbeddedDocumentsSearch.kt program in your IDE, it prints
the following documents:
Document{{teachers=[Document{{first=Jane, last=Earwhacker, classes=[Document{{subject=art, grade=9th}}, Document{{subject=science, grade=12th}}]}}, Document{{first=John, last=Smith, classes=[Document{{subject=math, grade=12th}}, Document{{subject=art, grade=10th}}]}}], score=0.7830756902694702, highlights=[Document{{score=1.4921371936798096, path=teachers.last, texts=[Document{{value=Smith, type=hit}}]}}]}} Document{{teachers=[Document{{first=Jane, last=Smith, classes=[Document{{subject=science, grade=9th}}, Document{{subject=math, grade=12th}}]}}, Document{{first=John, last=Redman, classes=[Document{{subject=art, grade=12th}}]}}], score=0.468008816242218, highlights=[Document{{score=1.4702850580215454, path=teachers.last, texts=[Document{{value=Smith, type=hit}}]}}]}}
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
When you run the ComplexEmbeddedDocumentQuery.kt program in your IDE, it prints
the following documents:
Document{{_id=2, name=Lincoln High, clubs=Document{{sports=[Document{{club_name=dodgeball, description=provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves.}}, Document{{club_name=martial arts, description=provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons.}}]}}, score=0.633669912815094}} Document{{_id=1, name=Evergreen High, clubs=Document{{sports=[Document{{club_name=archery, description=provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment.}}, Document{{club_name=ultimate frisbee, description=provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes.}}]}}, score=0.481589138507843}}
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
When you run the NestedEmbeddedDocumentsSearch.kt program in your IDE, it prints
the following documents:
Document{{teachers=[Document{{first=Jane, last=Smith, classes=[Document{{subject=art of science, grade=12th}}, Document{{subject=applied science and practical science, grade=9th}}, Document{{subject=remedial math, grade=12th}}, Document{{subject=science, grade=10th}}]}}, Document{{first=Bob, last=Green, classes=[Document{{subject=science of art, grade=11th}}, Document{{subject=art art art, grade=10th}}]}}], score=0.9415585994720459, highlights=[Document{{score=0.7354040145874023, path=teachers.classes.subject, texts=[Document{{value=art of , type=text}}, Document{{value=science, type=hit}}]}}, Document{{score=0.7871346473693848, path=teachers.classes.subject, texts=[Document{{value=applied , type=text}}, Document{{value=science, type=hit}}, Document{{value= and practical , type=text}}, Document{{value=science, type=hit}}]}}, Document{{score=0.7581484317779541, path=teachers.classes.subject, texts=[Document{{value=science, type=hit}}]}}, Document{{score=0.7189631462097168, path=teachers.classes.subject, texts=[Document{{value=science, type=hit}}, Document{{value= of art, type=text}}]}}]}} Document{{teachers=[Document{{first=Jane, last=Earwhacker, classes=[Document{{subject=art, grade=9th}}, Document{{subject=science, grade=12th}}]}}, Document{{first=John, last=Smith, classes=[Document{{subject=math, grade=12th}}, Document{{subject=art, grade=10th}}]}}], score=0.7779859304428101, highlights=[Document{{score=1.502043604850769, path=teachers.classes.subject, texts=[Document{{value=science, type=hit}}]}}]}}
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Copy and paste the code for the query into the respective file.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 const { MongoClient } = require("mongodb"); 2 3 // connect to your Atlas cluster 4 const uri = "<connection-string>"; 5 const client = new MongoClient(uri); 6 7 async function run() { 8 try { 9 await client.connect(); 10 11 // set namespace 12 const database = client.db("local_school_district"); 13 const coll = database.collection("schools"); 14 15 // define pipeline 16 const agg = [ 17 { 18 '$search': { 19 'index': 'embedded-documents-tutorial', 20 'embeddedDocument': { 21 'path': 'teachers', 22 'operator': { 23 'compound': { 24 'must': [ 25 { 26 'text': { 27 'path': 'teachers.first', 28 'query': 'John' 29 } 30 } 31 ], 32 'should': [ 33 { 34 'text': { 35 'path': 'teachers.last', 36 'query': 'Smith' 37 } 38 } 39 ] 40 } 41 } 42 }, 43 'highlight': { 44 'path': 'teachers.last' 45 } 46 } 47 }, { 48 '$project': { 49 '_id': 1, 50 'teachers': 1, 51 'score': { 52 '$meta': 'searchScore' 53 }, 54 'highlights': { 55 '$meta': 'searchHighlights' 56 } 57 } 58 } 59 ]; 60 61 // run pipeline 62 const result = coll.aggregate(agg); 63 64 // print results 65 await result.forEach((doc) => console.dir(JSON.stringify(doc))); 66 } finally { 67 await client.close(); 68 } 69 } 70 run().catch(console.dir);
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 const { MongoClient } = require("mongodb"); 2 3 // connect to your Atlas cluster 4 const uri = "<connection-string>"; 5 const client = new MongoClient(uri); 6 7 async function run() { 8 try { 9 await client.connect(); 10 11 // set namespace 12 const database = client.db("local_school_district"); 13 const coll = database.collection("schools"); 14 15 // define pipeline 16 const agg = [ 17 { 18 '$search': { 19 'index': 'embedded-documents-tutorial', 20 'embeddedDocument': { 21 'path': 'clubs.sports', 22 'operator': { 23 'queryString': { 24 'defaultPath': 'clubs.sports.club_name', 25 'query': 'dodgeball OR frisbee' 26 } 27 } 28 } 29 } 30 }, { 31 '$project': { 32 '_id': 1, 33 'name': 1, 34 'clubs.sports': 1, 35 'score': { 36 '$meta': 'searchScore' 37 } 38 } 39 } 40 ]; 41 42 // run pipeline 43 const result = coll.aggregate(agg); 44 45 // print results 46 await result.forEach((doc) => console.dir(JSON.stringify(doc))); 47 } finally { 48 await client.close(); 49 } 50 } 51 run().catch(console.dir);
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 const { MongoClient } = require("mongodb"); 2 3 // connect to your Atlas cluster 4 const uri = "<connection-string>"; 5 6 const client = new MongoClient(uri); 7 8 async function run() { 9 try { 10 await client.connect(); 11 12 // set namespace 13 const database = client.db("local_school_district"); 14 const coll = database.collection("schools"); 15 16 // define pipeline 17 const agg = [ 18 { 19 '$search': { 20 'index': 'embedded-documents-tutorial', 21 'embeddedDocument': { 22 'path': 'teachers', 23 'operator': { 24 'compound': { 25 'must': [ 26 { 27 'embeddedDocument': { 28 'path': 'teachers.classes', 29 'operator': { 30 'compound': { 31 'must': [ 32 { 33 'text': { 34 'path': 'teachers.classes.grade', 35 'query': '12th' 36 } 37 }, { 38 'text': { 39 'path': 'teachers.classes.subject', 40 'query': 'science' 41 } 42 } 43 ] 44 } 45 } 46 } 47 } 48 ], 49 'should': [ 50 { 51 'text': { 52 'path': 'teachers.last', 53 'query': 'smith' 54 } 55 } 56 ] 57 } 58 } 59 }, 60 'highlight': { 61 'path': 'teachers.classes.subject' 62 } 63 } 64 }, { 65 '$project': { 66 '_id': 1, 67 'teachers': 1, 68 'score': { 69 '$meta': 'searchScore' 70 }, 71 'highlights': { 72 '$meta': 'searchHighlights' 73 } 74 } 75 } 76 ]; 77 78 // run pipeline 79 const result = coll.aggregate(agg); 80 81 // print results 82 await result.forEach((doc) => console.dir(JSON.stringify(doc))); 83 } finally { 84 await client.close(); 85 } 86 } 87 run().catch(console.dir);
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
Run the following command to query your collection:
node basic-embedded-documents-query.js
1 { 2 "_id":1, 3 "teachers":[{ 4 "first":"Jane", 5 "last":"Earwhacker", 6 "classes":[{"subject":"art","grade":"9th"},{"subject":"science","grade":"12th"}] 7 },{ 8 "first":"John", 9 "last":"Smith", 10 "classes":[{"subject":"math","grade":"12th"},{"subject":"art","grade":"10th"}] 11 }], 12 "score":0.7830756902694702, 13 "highlights":[{ 14 "score":1.4921371936798096, 15 "path":"teachers.last", 16 "texts":[{"value":"Smith","type":"hit"}] 17 }] 18 } 19 { 20 "_id":2, 21 "teachers":[{ 22 "first":"Jane", 23 "last":"Smith", 24 "classes":[{"subject":"science","grade":"9th"},{"subject":"math","grade":"12th"}] 25 },{ 26 "first":"John", 27 "last":"Redman", 28 "classes":[{"subject":"art","grade":"12th"}] 29 }], 30 "score":0.468008816242218, 31 "highlights":[{ 32 "score":1.4702850580215454, 33 "path":"teachers.last", 34 "texts":[{"value":"Smith","type":"hit"}] 35 }] 36 }
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
node complex-embedded-documents-query.js
1 { 2 "_id":2, 3 "name":"Lincoln High", 4 "clubs":{ 5 "sports":[{ 6 "club_name":"dodgeball", 7 "description":"provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves." 8 },{ 9 "club_name":"martial arts", 10 "description":"provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons." 11 } 12 ]}, 13 "score":0.633669912815094 14 } 15 { 16 "_id":1, 17 "name":"Evergreen High", 18 "clubs":{ 19 "sports":[{ 20 "club_name":"archery", 21 "description":"provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment." 22 },{ 23 "club_name":"ultimate frisbee", 24 "description":"provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes." 25 }] 26 }, 27 "score":0.481589138507843 28 }
The two documents in the results show schools that offer clubs where
students could play dodgeball or frisbee.
node nested-embedded-documents-query.js
1 { 2 "_id":0, 3 "teachers":[{ 4 "first":"Jane", 5 "last":"Smith", 6 "classes":[{"subject":"art of science","grade":"12th"},{"subject":"applied science and practical science","grade":"9th"},{"subject":"remedial math","grade":"12th"},{"subject":"science","grade":"10th"}] 7 },{ 8 "first":"Bob", 9 "last":"Green", 10 "classes":[{"subject":"science of art","grade":"11th"},{"subject":"art art art","grade":"10th"}] 11 }], 12 "score":0.9415585994720459, 13 "highlights":[{ 14 "score":0.7354040145874023, 15 "path":"teachers.classes.subject", 16 "texts":[{"value":"art of ","type":"text"},{"value":"science","type":"hit"}] 17 },{ 18 "score":0.7871346473693848, 19 "path":"teachers.classes.subject", 20 "texts":[{"value":"applied ","type":"text"},{"value":"science","type":"hit"},{"value":" and practical ","type":"text"},{"value":"science","type":"hit"}] 21 },{ 22 "score":0.7581484317779541, 23 "path":"teachers.classes.subject", 24 "texts":[{"value":"science","type":"hit"}] 25 },{ 26 "score":0.7189631462097168, 27 "path":"teachers.classes.subject", 28 "texts":[{"value":"science","type":"hit"},{"value":" of art","type":"text"}] 29 }] 30 } 31 { 32 "_id":1, 33 "teachers":[{ 34 "first":"Jane", 35 "last":"Earwhacker", 36 "classes":[{"subject":"art","grade":"9th"},{"subject":"science","grade":"12th"}] 37 },{ 38 "first":"John", 39 "last":"Smith", 40 "classes":[{"subject":"math","grade":"12th"},{"subject":"art","grade":"10th"}] 41 }], 42 "score":0.7779859304428101, 43 "highlights":[{ 44 "score":1.502043604850769, 45 "path":"teachers.classes.subject", 46 "texts":[{"value":"science","type":"hit"}] 47 }] 48 }
The two documents in the results contain teachers who teach 12th
grade science. The document with _id: 0 contains a teacher with
last name Smith who teaches 12th grade science.
Copy and paste the code example into the respective file.
To learn more about these queries, see About the Queries.
To learn more about this query, see About the Queries.
1 import pymongo 2 3 # connect to your Atlas cluster 4 client = pymongo.MongoClient('<connection-string') 5 6 # define pipeline 7 pipeline = [ 8 { 9 '$search': { 10 'index': 'embedded-documents-tutorial', 11 'embeddedDocument': { 12 'path': 'teachers', 13 'operator': { 14 'compound': { 15 'must': [ 16 { 17 'text': { 18 'path': 'teachers.first', 19 'query': 'John' 20 } 21 } 22 ], 23 'should': [ 24 { 25 'text': { 26 'path': 'teachers.last', 27 'query': 'Smith' 28 } 29 } 30 ] 31 } 32 } 33 }, 34 'highlight': { 35 'path': 'teachers.last' 36 } 37 } 38 }, { 39 '$project': { 40 '_id': 1, 41 'teachers': 1, 42 'score': { 43 '$meta': 'searchScore' 44 }, 45 'highlights': { 46 '$meta': 'searchHighlights' 47 } 48 } 49 } 50 ] 51 52 # run pipeline 53 result = client['local_school_district']['schools'].aggregate(pipeline) 54 55 # print results 56 for i in result: 57 print(i)
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
To learn more about this query, see About the Queries.
1 import pymongo 2 3 # connect to your Atlas cluster 4 client = pymongo.MongoClient('<connection-string>') 5 6 # define pipeline 7 pipeline = [ 8 { 9 '$search': { 10 'index': 'embedded-documents-tutorial', 11 'embeddedDocument': { 12 'path': 'clubs.sports', 13 'operator': { 14 'queryString': { 15 'defaultPath': 'clubs.sports.club_name', 16 'query': 'dodgeball OR frisbee' 17 } 18 } 19 } 20 } 21 }, { 22 '$project': { 23 '_id': 1, 24 'name': 1, 25 'clubs.sports': 1, 26 'score': { 27 '$meta': 'searchScore' 28 } 29 } 30 } 31 ] 32 33 # run pipeline 34 result = client['local_school_district']['schools'].aggregate(pipeline) 35 36 # print results 37 for i in result: 38 print(i)
To learn more about this query, see About the Queries.
1 import pymongo 2 3 # connect to your Atlas cluster 4 client = pymongo.MongoClient('<connection-string>') 5 6 # define pipeline 7 pipeline = [ 8 { 9 '$search': { 10 'index': 'embedded-documents-tutorial', 11 'embeddedDocument': { 12 'path': 'teachers', 13 'operator': { 14 'compound': { 15 'must': [ 16 { 17 'embeddedDocument': { 18 'path': 'teachers.classes', 19 'operator': { 20 'compound': { 21 'must': [ 22 { 23 'text': { 24 'path': 'teachers.classes.grade', 25 'query': '12th' 26 } 27 }, { 28 'text': { 29 'path': 'teachers.classes.subject', 30 'query': 'science' 31 } 32 } 33 ] 34 } 35 } 36 } 37 } 38 ], 39 'should': [ 40 { 41 'text': { 42 'path': 'teachers.last', 43 'query': 'smith' 44 } 45 } 46 ] 47 } 48 } 49 }, 50 'highlight': { 51 'path': 'teachers.classes.subject' 52 } 53 } 54 }, { 55 '$project': { 56 '_id': 1, 57 'teachers': 1, 58 'score': { 59 '$meta': 'searchScore' 60 }, 61 'highlights': { 62 '$meta': 'searchHighlights' 63 } 64 } 65 } 66 ] 67 68 # run pipeline 69 result = client['local_school_district']['schools'].aggregate(pipeline) 70 71 # print results 72 for i in result: 73 print(i)
Before you run the sample, replace <connection-string> with your
Atlas connection string. Ensure that your connection string
includes your database user's credentials. To learn more, see
Connect via Drivers.
Run the following command to query your collection:
python basic-embedded-documents-query.py
1 { 2 '_id': 1, 3 'teachers': [{ 4 'first': 'Jane', 5 'last': 'Earwhacker', 6 'classes': [{'subject': 'art', 'grade': '9th'}, {'subject': 'science', 'grade': '12th'}] 7 }, { 8 'first': 'John', 9 'last': 'Smith', 10 'classes': [{'subject': 'math', 'grade': '12th'}, {'subject': 'art', 'grade': '10th'}] 11 }], 12 'score': 0.7830756902694702, 13 'highlights': [{ 14 'score': 1.4921371936798096, 15 'path': 'teachers.last', 16 'texts': [{'value': 'Smith', 'type': 'hit'}] 17 }] 18 } 19 { 20 '_id': 2, 21 'teachers': [{ 22 'first': 'Jane', 23 'last': 'Smith', 24 'classes': [{'subject': 'science', 'grade': '9th'}, {'subject': 'math', 'grade': '12th'}] 25 }, { 26 'first': 'John', 27 'last': 'Redman', 28 'classes': [{'subject': 'art', 'grade': '12th'}] 29 }], 30 'score': 0.468008816242218, 31 'highlights': [{ 32 'score': 1.4702850580215454, 33 'path': 'teachers.last', 34 'texts': [{'value': 'Smith', 'type': 'hit'}] 35 }] 36 }
The two documents in the results contain teachers with the first name
John. The document with _id: 1 ranks higher because it
contains a teacher with the first name John who also has the last
name Smith.
python complex-embedded-documents-query.py
1 { 2 '_id': 2, 3 'name': 'Lincoln High', 4 'clubs': { 5 'sports': [{ 6 'club_name': 'dodgeball', 7 'description': 'provides students an opportunity to play dodgeball by throwing balls to eliminate the members of the opposing team while avoiding being hit themselves.' 8 }, { 9 'club_name': 'martial arts', 10 'description': 'provides students an opportunity to learn self-defense or combat that utilize physical skill and coordination without weapons.' 11 }] 12 }, 13 'score': 0.633669912815094 14 } 15 { 16 '_id': 1, 17 'name': 'Evergreen High', 18 'clubs': { 19 'sports': [{ 20 'club_name': 'archery', 21 'description': 'provides students an opportunity to practice and hone the skill of using a bow to shoot arrows in a fun and safe environment.' 22 }, { 23 'club_name': 'ultimate frisbee', 'description': 'provides students an opportunity to play frisbee and learn the basics of holding the disc and complete passes.' 24 }] 25 }, 26 'score': 0.481589138507843 27 }
python advanced-embedded-documents-query.py
1 { 2 '_id': 0, 3 'teachers': [{ 4 'first': 'Jane', 5 'last': 'Smith', 6 'classes': [{'subject': 'art of science', 'grade': '12th'}, {'subject': 'applied science and practical science', 'grade': '9th'}, {'subject': 'remedial math', 'grade': '12th'}, {'subject': 'science', 'grade': '10th'}] 7 }, { 8 'first': 'Bob', 9 'last': 'Green', 10 'classes': [{'subject': 'science of art', 'grade': '11th'}, {'subject': 'art art art', 'grade': '10th'}] 11 }], 12 'score': 0.9415585994720459, 13 'highlights': [{ 14 'score': 0.7354040145874023, 15 'path': 'teachers.classes.subject', 16 'texts': [{'value': 'art of ', 'type': 'text'}, {'value': 'science', 'type': 'hit'}] 17 }, { 18 'score': 0.7871346473693848, 19 'path': 'teachers.classes.subject', 20 'texts': [{'value': 'applied ', 'type': 'text'}, {'value': 'science', 'type': 'hit'}, {'value': ' and practical ', 'type': 'text'}, {'value': 'science', 'type': 'hit'}] 21 }, { 22 'score': 0.7581484317779541, 23 'path': 'teachers.classes.subject', 24 'texts': [{'value': 'science', 'type': 'hit'}] 25 }, { 26 'score': 0.7189631462097168, 27 'path': 'teachers.classes.subject', 28 'texts': [{'value': 'science', 'type': 'hit'}, {'value': ' of art', 'type': 'text'}] 29 }] 30 } 31 { 32 '_id': 1, 33 'teachers': [{ 34 'first': 'Jane', 35 'last': 'Earwhacker', 36 'classes': [{'subject': 'art', 'grade': '9th'}, {'subject': 'science', 'grade': '12th'}] 37 }, { 38 'first': 'John', 39 'last': 'Smith', 40 'classes': [{'subject': 'math', 'grade': '12th'}, {'subject': 'art', 'grade': '10th'}] 41 }], 42 'score': 0.7779859304428101, 43 'highlights': [{ 44 'score': 1.502043604850769, 45 'path': 'teachers.classes.subject', 46 'texts': [{'value': 'science', 'type': 'hit'}] 47 }] 48 }
Run $searchMeta Query Against Embedded Document Fields
You can run $searchMeta queries against the embedded
document fields. In this section, you will connect to your Atlas
cluster and run a sample query using the $searchMeta stage and
facet on an embedded document field.
In Atlas, go to the Clusters page for your project.
If it is not already displayed, select the organization that contains your desired project from the Organizations menu in the navigation bar.
If it is not already displayed, select your desired project from the Projects menu in the navigation bar.
If the Clusters page is not already displayed, click Database in the sidebar.
Go to the Atlas Search page for your cluster.
You can go the Atlas Search page from the sidebar, the Data Explorer, or your cluster details page.
In the sidebar, click Atlas Search under the Services heading.
From the Select data source dropdown, select your cluster and click Go to Atlas Search.
Click the Browse Collections button for your cluster.
Expand the database and select the collection.
Click the Search Indexes tab for the collection.
Click the cluster's name.
Click the Atlas Search tab.
Run an Atlas Search query with the embeddedDocument operator on the schools collection.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
Copy and paste the following query into the Query Editor, and then click the Search button in the Query Editor.
1 [ 2 { 3 "$searchMeta": { 4 "index": "embedded-documents-tutorial", 5 "facet": { 6 "operator": { 7 "text":{ 8 "path": "name", 9 "query": "High" 10 } 11 }, 12 "facets": { 13 "gradeFacet": { 14 "type": "string", 15 "path": "teachers.classes.grade" 16 } 17 } 18 } 19 } 20 } 21 ]
count: Object lowerBound: 3 facet: Object gradeFacet: Object buckets: Array (4) 0: Object _id: "12th" count: 3 1: Object _id: "9th" count : 3 2: Object _id: "10th" count: 2 3: Object _id: "11th" count: 1
Connect to your cluster using mongosh.
Open mongosh in a terminal window and connect to your
cluster. For detailed instructions on connecting, see
Connect via mongosh.
Use the local_school database.
Run the following command at mongosh prompt:
use local_school_district
switched to db local_school_district
Run the following Atlas Search query against the schools collection.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 db.schools.aggregate({ 2 "$searchMeta": { 3 "index": "embedded-documents-tutorial", 4 "facet": { 5 "operator": { 6 "text":{ 7 "path": "name", 8 "query": "High" 9 } 10 }, 11 "facets": { 12 "gradeFacet": { 13 "type": "string", 14 "path": "teachers.classes.grade" 15 } 16 } 17 } 18 } 19 })
1 [ 2 { 3 count: { lowerBound: Long('3') }, 4 facet: { 5 gradeFacet: { 6 buckets: [ 7 { _id: '12th', count: Long('3') }, 8 { _id: '9th', count: Long('3') }, 9 { _id: '10th', count: Long('2') }, 10 { _id: '11th', count: Long('1') } 11 ] 12 } 13 } 14 } 15 ]
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Connect to your cluster in MongoDB Compass.
Open MongoDB Compass and connect to your cluster. For detailed instructions on connecting, see Connect via Compass.
Run the following Atlas Search queries against the schools collection.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
Pipeline Stage | Query | |||||||||||||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
$searchMeta | MongoDB Compass displays the following in the results: The results show that |
Set up and initialize the .NET/C# project for the query.
Create a new directory called
embedded-documents-queryand initialize your project with the dotnet new command.mkdir embedded-documents-facet-query cd embedded-documents-facet-query dotnet new console Add the .NET/C# Driver to your project as a dependency.
dotnet add package MongoDB.Driver
Copy and paste the query into the Program.cs file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 using MongoDB.Bson; 2 using MongoDB.Bson.Serialization.Attributes; 3 using MongoDB.Bson.Serialization.Conventions; 4 using MongoDB.Driver; 5 6 public class EmbeddedDocumentsFacetExample 7 { 8 private const string MongoConnectionString = "<connection-string>"; 9 10 public static void Main(string[] args) 11 { 12 // allow automapping of the camelCase database fields to our MovieDocument 13 var camelCaseConvention = new ConventionPack { new CamelCaseElementNameConvention() }; 14 ConventionRegistry.Register("CamelCase", camelCaseConvention, type => true); 15 16 // connect to your Atlas cluster 17 var mongoClient = new MongoClient(MongoConnectionString); 18 var districtDatabase = mongoClient.GetDatabase("local_school_district"); 19 var schoolCollection = districtDatabase.GetCollection<SchoolDocument>("schools"); 20 21 // define and run pipeline 22 var results = schoolCollection.Aggregate() 23 .SearchMeta(Builders<SchoolDocument>.Search.Facet( 24 Builders<SchoolDocument>.Search.Text(school => school.Name, "High"), 25 Builders<SchoolDocument>.SearchFacet.String("gradeFacet", "teachers.classes.grade")), 26 indexName: "embedded-documents-tutorial") 27 .Single(); 28 29 // print results 30 Console.WriteLine(results.ToJson()); 31 } 32 } 33 34 [] 35 public class SchoolDocument 36 { 37 public int Id { get; set; } 38 public string Name { get; set; } 39 public TeacherDocument[] Teachers { get; set; } 40 } 41 [] 42 public class TeacherDocument 43 { 44 public ClassDocument[] Classes { get; set; } 45 } 46 [] 47 public class ClassDocument 48 { 49 public string Grade { get; set; } 50 }
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Compile and run the Program.cs file.
dotnet run embedded-documents-facet-query.csproj
{ "count" : { "lowerBound" : NumberLong(3), "total" : null }, "facet" : { "gradeFacet" : { "buckets" : [ { "_id" : "12th", "count" : NumberLong(3) }, { "_id" : "9th", "count" : NumberLong(3) }, { "_id" : "10th", "count" : NumberLong(2) }, { "_id" : "11th", "count" : NumberLong(1) } ] } } }
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Copy and paste the example query into the embedded-documents-facet-query file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 package main 2 3 import ( 4 "context" 5 "fmt" 6 7 "go.mongodb.org/mongo-driver/bson" 8 "go.mongodb.org/mongo-driver/mongo" 9 "go.mongodb.org/mongo-driver/mongo/options" 10 ) 11 12 func main() { 13 // connect to your Atlas cluster 14 client, err := mongo.Connect(context.TODO(), options.Client().ApplyURI("<connection-string>")) 15 if err != nil { 16 panic(err) 17 } 18 defer client.Disconnect(context.TODO()) 19 20 // set namespace 21 collection := client.Database("local_school_district").Collection("schools") 22 23 // define pipeline stages 24 searchStage := bson.D{{"$searchMeta", bson.M{ 25 "index": "embedded-documents-tutorial", 26 "facet": bson.M{ 27 "operator": bson.M{ 28 "text": bson.M{ 29 "path": "name", 30 "query": "High"}, 31 }, 32 "facets": bson.M{ 33 "gradeFacet": bson.M{ 34 "path": "teachers.classes.grade", 35 "type": "string"}, 36 }}}}} 37 38 // run pipeline 39 cursor, err := collection.Aggregate(context.TODO(), mongo.Pipeline{searchStage}) 40 if err != nil { 41 panic(err) 42 } 43 44 // print results 45 var results []bson.D 46 if err = cursor.All(context.TODO(), &results); err != nil { 47 panic(err) 48 } 49 for _, result := range results { 50 fmt.Println(result) 51 } 52 }
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Run the following command to query your collection:
go run embedded-documents-facet-query.go
1 [ 2 {count [{lowerBound 3}]} 3 {facet [ 4 {gradeFacet [ 5 {buckets [ 6 [{_id 12th} {count 3}] 7 [{_id 9th} {count 3}] 8 [{_id 10th} {count 2}] 9 [{_id 11th} {count 1}] 10 ]} 11 ]} 12 ]} 13 ]
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Copy and paste the code for the Atlas Search query into the FacetEmbeddedDocumentsSearch.java file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 import com.mongodb.client.MongoClient; 2 import com.mongodb.client.MongoClients; 3 import com.mongodb.client.MongoCollection; 4 import com.mongodb.client.MongoDatabase; 5 import org.bson.Document; 6 import java.util.Arrays; 7 8 public class FacetEmbeddedDocumentsSearch { 9 public static void main(String[] args) { 10 // connect to your Atlas cluster 11 String uri = "<connection-string>"; 12 try (MongoClient mongoClient = MongoClients.create(uri)) { 13 // set namespace 14 MongoDatabase database = mongoClient.getDatabase("local_school_district"); 15 MongoCollection<Document> collection = database.getCollection("schools"); 16 17 // define pipeline 18 Document agg = new Document("$searchMeta", 19 new Document( "index", "embedded-documents-tutorial") 20 .append("facet", 21 new Document("operator", 22 new Document("text", 23 new Document("path", "name") 24 .append("query", "High"))) 25 .append("facets", 26 new Document("gradeFacet", 27 new Document("type", "string").append("path", "teachers.classes.grade")) 28 ))); 29 // run pipeline and print results 30 collection.aggregate(Arrays.asList(agg)) 31 .forEach(doc -> System.out.println(doc.toJson())); 32 } 33 } 34 }
Note
To run the sample code in your Maven environment, add the following code above the import statements in your file.
package com.mongodb.drivers;
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Compile and run the Java file.
javac FacetEmbeddedDocumentsSearch.java java FacetEmbeddedDocumentsSearch
1 { 2 "count": {"lowerBound": 3}, 3 "facet": { 4 "gradeFacet": { 5 "buckets": [ 6 {"_id": "12th", "count": 3}, 7 {"_id": "9th", "count": 3}, 8 {"_id": "10th", "count": 2}, 9 {"_id": "11th", "count": 1} 10 ] 11 } 12 } 13 }
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Ensure that you add the following dependencies to your project.
MongoDB
mongodb-driver-kotlin-coroutine To learn more, see Add MongoDB as a Dependency.
Serialization Library
bson-kotlinx To learn more, see Add Serialization Library Dependencies.
Copy and paste the query into the EmbeddedDocumentsFacetQuery.kt file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 import com.mongodb.kotlin.client.coroutine.MongoClient 2 import kotlinx.coroutines.runBlocking 3 import org.bson.Document 4 5 fun main() { 6 // establish connection and set namespace 7 val uri = "<connection-string>" 8 val mongoClient = MongoClient.create(uri) 9 val database = mongoClient.getDatabase("local_school_district") 10 val collection = database.getCollection<Document>("schools") 11 12 runBlocking { 13 14 // define query 15 val agg = Document( 16 "\$searchMeta", 17 Document("index", "embedded-documents-tutorial") 18 .append("facet", 19 Document( 20 "operator", 21 Document( 22 "text", 23 Document("path", "name") 24 .append("query", "High") 25 ) 26 ) 27 .append( 28 "facets", 29 Document( 30 "gradeFacet", 31 Document("type", "string").append("path", "teachers.classes.grade") 32 ) 33 ) 34 ) 35 ) 36 37 // run query and print results 38 val resultsFlow = collection.aggregate<Document>(listOf(agg)) 39 resultsFlow.collect { println(it) } 40 } 41 mongoClient.close() 42 }
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Run the EmbeddedDocumentsFacetQuery.kt file.
When you run the EmbeddedDocumentsFacetQuery.kt program in your IDE, it prints
the following documents:
Document{{ count=Document{{lowerBound=3}}, facet=Document{{ gradeFacet=Document{{ buckets=[ Document{{_id=12th, count=3}}, Document{{_id=9th, count=3}}, Document{{_id=10th, count=2}}, Document{{_id=11th, count=1}} ] }} }} }}
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Copy and paste the code for the query into the embedded-documents-facet-query.js file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 const { MongoClient } = require("mongodb"); 2 3 // connect to your Atlas cluster 4 const uri = "<connection-string>"; 5 const client = new MongoClient(uri); 6 7 async function run() { 8 try { 9 await client.connect(); 10 11 // set namespace 12 const database = client.db("local_school_district"); 13 const coll = database.collection("schools"); 14 15 // define pipeline 16 const agg = [ 17 { 18 "$searchMeta": { 19 "index": "embedded-documents-tutorial", 20 "facet": { 21 "operator": { 22 "text":{ 23 "path": "name", 24 "query": "High" 25 } 26 }, 27 "facets": { 28 "gradeFacet": { 29 "type": "string", 30 "path": "teachers.classes.grade" 31 } 32 } 33 } 34 } 35 } 36 ]; 37 38 // run pipeline 39 const result = coll.aggregate(agg); 40 41 // print results 42 await result.forEach((doc) => console.dir(JSON.stringify(doc))); 43 } finally { 44 await client.close(); 45 } 46 } 47 run().catch(console.dir);
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Run the following command to query your collection:
node embedded-documents-facet-query.js
1 { 2 "count":{"lowerBound":3}, 3 "facet":{ 4 "gradeFacet":{ 5 "buckets":[ 6 {"_id":"12th","count":3}, 7 {"_id":"9th","count":3}, 8 {"_id":"10th","count":2}, 9 {"_id":"11th","count":1} 10 ] 11 } 12 } 13 }
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.
Copy and paste the code example into the embedded-documents-facet-query.py file.
This query finds the high schools and requests a count of the number of schools that offer classes in each grade.
1 import pymongo 2 3 # connect to your Atlas cluster 4 client = pymongo.MongoClient('<connection-string>') 5 6 # define pipeline 7 pipeline = [{"$searchMeta": { 8 "index": "embedded-documents-tutorial", 9 "facet": { 10 "operator": { 11 "text": {"path": "name", "query": 'High'} 12 }, 13 "facets": { 14 "gradeFacet": {"type": "string", "path": "teachers.classes.grade"} 15 } 16 } 17 }}] 18 19 # run pipeline 20 result = client["local_school_district"]["schools"].aggregate(pipeline) 21 22 # print results 23 for i in result: 24 print(i)
Replace the <connection-string> in the query and then save the file.
Ensure that your connection string includes your database user's credentials. To learn more, see Connect via Drivers.
Run the following command to query your collection:
python embedded-documents-facet-query.py
1 { 2 'count': {'lowerBound': 3}, 3 'facet': { 4 'gradeFacet': { 5 'buckets': [ 6 {'_id': '12th', 'count': 3}, 7 {'_id': '9th', 'count': 3}, 8 {'_id': '10th', 'count': 2}, 9 {'_id': '11th', 'count': 1} 10 ] 11 } 12 } 13 }
The results show that 3 schools offer classes for 12th and
9th grades, 2 schools offer classes for 10th grade, and
1 school offers classes for 11th grade. When you facet by a
field inside an embedded document, the query returns count for the
top-level parent document, which is the teachers field for this
query.