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Hinzufügen von Daten zum Cloud Firestore

Es gibt verschiedene Möglichkeiten, Daten in den Cloud Firestore zu schreiben:

  • Legen Sie die Daten eines Dokuments in einer Sammlung fest und geben Sie explizit eine Dokumentkennung an.
  • Fügen Sie einer Sammlung ein neues Dokument hinzu. In diesem Fall generiert Cloud Firestore automatisch die Dokumentkennung.
  • Erstellen Sie ein leeres Dokument mit einer automatisch generierten Kennung und weisen Sie ihm später Daten zu.

In diesem Handbuch wird erläutert, wie Sie einzelne Dokumente im Cloud Firestore festlegen, hinzufügen oder aktualisieren. Wenn Sie Daten in großen Mengen schreiben möchten, lesen Sie Transaktionen und gestapelte Schreibvorgänge .

Legen Sie ein Dokument fest

Verwenden Sie die Methode set() , um ein einzelnes Dokument zu erstellen oder zu überschreiben:

Netz
// Add a new document in collection "cities"
db.collection("cities").doc("LA").set({
    name: "Los Angeles",
    state: "CA",
    country: "USA"
})
.then(function() {
    console.log("Document successfully written!");
})
.catch(function(error) {
    console.error("Error writing document: ", error);
});
Schnell
// Add a new document in collection "cities"
db.collection("cities").document("LA").setData([
    "name": "Los Angeles",
    "state": "CA",
    "country": "USA"
]) { err in
    if let err = err {
        print("Error writing document: \(err)")
    } else {
        print("Document successfully written!")
    }
}
Ziel c
// Add a new document in collection "cities"
[[[self.db collectionWithPath:@"cities"] documentWithPath:@"LA"] setData:@{
  @"name": @"Los Angeles",
  @"state": @"CA",
  @"country": @"USA"
} completion:^(NSError * _Nullable error) {
  if (error != nil) {
    NSLog(@"Error writing document: %@", error);
  } else {
    NSLog(@"Document successfully written!");
  }
}];
  

Java

Map<String, Object> city = new HashMap<>();
city.put("name", "Los Angeles");
city.put("state", "CA");
city.put("country", "USA");

db.collection("cities").document("LA")
        .set(city)
        .addOnSuccessListener(new OnSuccessListener<Void>() {
            @Override
            public void onSuccess(Void aVoid) {
                Log.d(TAG, "DocumentSnapshot successfully written!");
            }
        })
        .addOnFailureListener(new OnFailureListener() {
            @Override
            public void onFailure(@NonNull Exception e) {
                Log.w(TAG, "Error writing document", e);
            }
        });

Kotlin + KTX

val city = hashMapOf(
        "name" to "Los Angeles",
        "state" to "CA",
        "country" to "USA"
)

db.collection("cities").document("LA")
        .set(city)
        .addOnSuccessListener { Log.d(TAG, "DocumentSnapshot successfully written!") }
        .addOnFailureListener { e -> Log.w(TAG, "Error writing document", e) }
Java
// Create a Map to store the data we want to set
Map<String, Object> docData = new HashMap<>();
docData.put("name", "Los Angeles");
docData.put("state", "CA");
docData.put("country", "USA");
docData.put("regions", Arrays.asList("west_coast", "socal"));
// Add a new document (asynchronously) in collection "cities" with id "LA"
ApiFuture<WriteResult> future = db.collection("cities").document("LA").set(docData);
// ...
// future.get() blocks on response
System.out.println("Update time : " + future.get().getUpdateTime());
Python
data = {
    u'name': u'Los Angeles',
    u'state': u'CA',
    u'country': u'USA'
}

# Add a new doc in collection 'cities' with ID 'LA'
db.collection(u'cities').document(u'LA').set(data)
C ++
// Add a new document in collection 'cities'
db->Collection("cities")
    .Document("LA")
    .Set({{"name", FieldValue::String("Los Angeles")},
          {"state", FieldValue::String("CA")},
          {"country", FieldValue::String("USA")}})
    .OnCompletion([](const Future<void>& future) {
      if (future.error() == Error::kErrorOk) {
        std::cout << "DocumentSnapshot successfully written!\n";
      } else {
        std::cout << "Error writing document: " << future.error_message()
                  << '\n';
      }
    });
  
Node.js
const data = {
  name: 'Los Angeles',
  state: 'CA',
  country: 'USA'
};

// Add a new document in collection "cities" with ID 'LA'
const res = await db.collection('cities').doc('LA').set(data);
Gehen
_, err := client.Collection("cities").Doc("LA").Set(ctx, map[string]interface{}{
	"name":    "Los Angeles",
	"state":   "CA",
	"country": "USA",
})
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$data = [
    'name' => 'Los Angeles',
    'state' => 'CA',
    'country' => 'USA'
];
$db->collection('cities')->document('LA')->set($data);
Einheit
DocumentReference docRef = db.Collection("cities").Document("LA");
Dictionary<string, object> city = new Dictionary<string, object>
{
	{ "Name", "Los Angeles" },
	{ "State", "CA" },
	{ "Country", "USA" }
};
docRef.SetAsync(city).ContinueWithOnMainThread(task => {
	Debug.Log("Added data to the LA document in the cities collection.");
});
  
C #
DocumentReference docRef = db.Collection("cities").Document("LA");
Dictionary<string, object> city = new Dictionary<string, object>
{
    { "name", "Los Angeles" },
    { "state", "CA" },
    { "country", "USA" }
};
await docRef.SetAsync(city);
Rubin
city_ref = firestore.doc "cities/LA"

data = {
  name:    "Los Angeles",
  state:   "CA",
  country: "USA"
}

city_ref.set data

Wenn das Dokument nicht vorhanden ist, wird es erstellt. Wenn das Dokument vorhanden ist, wird sein Inhalt mit den neu bereitgestellten Daten überschrieben, es sei denn, Sie geben an, dass die Daten wie folgt in das vorhandene Dokument eingefügt werden sollen:

Netz
var cityRef = db.collection('cities').doc('BJ');

var setWithMerge = cityRef.set({
    capital: true
}, { merge: true });
Schnell
// Update one field, creating the document if it does not exist.
db.collection("cities").document("BJ").setData([ "capital": true ], merge: true)
Ziel c
// Write to the document reference, merging data with existing
// if the document already exists
[[[self.db collectionWithPath:@"cities"] documentWithPath:@"BJ"]
     setData:@{ @"capital": @YES }
     merge:YES
     completion:^(NSError * _Nullable error) {
       // ...
     }];
  

Java

// Update one field, creating the document if it does not already exist.
Map<String, Object> data = new HashMap<>();
data.put("capital", true);

db.collection("cities").document("BJ")
        .set(data, SetOptions.merge());

Kotlin + KTX

// Update one field, creating the document if it does not already exist.
val data = hashMapOf("capital" to true)

db.collection("cities").document("BJ")
        .set(data, SetOptions.merge())
Java
//asynchronously update doc, create the document if missing
Map<String, Object> update = new HashMap<>();
update.put("capital", true);

ApiFuture<WriteResult> writeResult =
    db
        .collection("cities")
        .document("BJ")
        .set(update, SetOptions.merge());
// ...
System.out.println("Update time : " + writeResult.get().getUpdateTime());
Python
city_ref = db.collection(u'cities').document(u'BJ')

city_ref.set({
    u'capital': True
}, merge=True)
C ++
db->Collection("cities").Document("BJ").Set(
    {{"capital", FieldValue::Boolean(true)}}, SetOptions::Merge());
  
Node.js
const cityRef = db.collection('cities').doc('BJ');

const res = await cityRef.set({
  capital: true
}, { merge: true });
Gehen
_, err := client.Collection("cities").Doc("BJ").Set(ctx, map[string]interface{}{
	"capital": true,
}, firestore.MergeAll)

if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$cityRef = $db->collection('cities')->document('BJ');
$cityRef->set([
    'capital' => true
], ['merge' => true]);
Einheit
DocumentReference docRef = db.Collection("cities").Document("LA");
Dictionary<string, object> update = new Dictionary<string, object>
{
	{ "capital", false }
};
docRef.SetAsync(update, SetOptions.MergeAll);
  
C #
DocumentReference docRef = db.Collection("cities").Document("LA");
Dictionary<string, object> update = new Dictionary<string, object>
{
    { "capital", false }
};
await docRef.SetAsync(update, SetOptions.MergeAll);
Rubin
city_ref = firestore.doc "cities/LA"
city_ref.set({ capital: false }, merge: true)

Wenn Sie nicht sicher sind, ob das Dokument vorhanden ist, übergeben Sie die Option zum Zusammenführen der neuen Daten mit einem vorhandenen Dokument, um ein Überschreiben ganzer Dokumente zu vermeiden.

Datentypen

Mit Cloud Firestore können Sie eine Vielzahl von Datentypen in ein Dokument schreiben, darunter Zeichenfolgen, Boolesche Werte, Zahlen, Datumsangaben, Nullen sowie verschachtelte Arrays und Objekte. Cloud Firestore speichert Zahlen immer als Doppelte, unabhängig davon, welche Art von Nummer Sie in Ihrem Code verwenden.

Netz
var docData = {
    stringExample: "Hello world!",
    booleanExample: true,
    numberExample: 3.14159265,
    dateExample: firebase.firestore.Timestamp.fromDate(new Date("December 10, 1815")),
    arrayExample: [5, true, "hello"],
    nullExample: null,
    objectExample: {
        a: 5,
        b: {
            nested: "foo"
        }
    }
};
db.collection("data").doc("one").set(docData).then(function() {
    console.log("Document successfully written!");
});
Schnell
let docData: [String: Any] = [
    "stringExample": "Hello world!",
    "booleanExample": true,
    "numberExample": 3.14159265,
    "dateExample": Timestamp(date: Date()),
    "arrayExample": [5, true, "hello"],
    "nullExample": NSNull(),
    "objectExample": [
        "a": 5,
        "b": [
            "nested": "foo"
        ]
    ]
]
db.collection("data").document("one").setData(docData) { err in
    if let err = err {
        print("Error writing document: \(err)")
    } else {
        print("Document successfully written!")
    }
}
Ziel c
NSDictionary *docData = @{
  @"stringExample": @"Hello world!",
  @"booleanExample": @YES,
  @"numberExample": @3.14,
  @"dateExample": [FIRTimestamp timestampWithDate:[NSDate date]],
  @"arrayExample": @[@5, @YES, @"hello"],
  @"nullExample": [NSNull null],
  @"objectExample": @{
    @"a": @5,
    @"b": @{
      @"nested": @"foo"
    }
  }
};

[[[self.db collectionWithPath:@"data"] documentWithPath:@"one"] setData:docData
    completion:^(NSError * _Nullable error) {
      if (error != nil) {
        NSLog(@"Error writing document: %@", error);
      } else {
        NSLog(@"Document successfully written!");
      }
    }];
  

Java

Map<String, Object> docData = new HashMap<>();
docData.put("stringExample", "Hello world!");
docData.put("booleanExample", true);
docData.put("numberExample", 3.14159265);
docData.put("dateExample", new Timestamp(new Date()));
docData.put("listExample", Arrays.asList(1, 2, 3));
docData.put("nullExample", null);

Map<String, Object> nestedData = new HashMap<>();
nestedData.put("a", 5);
nestedData.put("b", true);

docData.put("objectExample", nestedData);

db.collection("data").document("one")
        .set(docData)
        .addOnSuccessListener(new OnSuccessListener<Void>() {
            @Override
            public void onSuccess(Void aVoid) {
                Log.d(TAG, "DocumentSnapshot successfully written!");
            }
        })
        .addOnFailureListener(new OnFailureListener() {
            @Override
            public void onFailure(@NonNull Exception e) {
                Log.w(TAG, "Error writing document", e);
            }
        });

Kotlin + KTX

val docData = hashMapOf(
        "stringExample" to "Hello world!",
        "booleanExample" to true,
        "numberExample" to 3.14159265,
        "dateExample" to Timestamp(Date()),
        "listExample" to arrayListOf(1, 2, 3),
        "nullExample" to null
)

val nestedData = hashMapOf(
        "a" to 5,
        "b" to true
)

docData["objectExample"] = nestedData

db.collection("data").document("one")
        .set(docData)
        .addOnSuccessListener { Log.d(TAG, "DocumentSnapshot successfully written!") }
        .addOnFailureListener { e -> Log.w(TAG, "Error writing document", e) }
Java
Map<String, Object> docData = new HashMap<>();
docData.put("stringExample", "Hello, World");
docData.put("booleanExample", false);
docData.put("numberExample", 3.14159265);
docData.put("nullExample", null);

ArrayList<Object> arrayExample = new ArrayList<>();
Collections.addAll(arrayExample, 5L, true, "hello");
docData.put("arrayExample", arrayExample);

Map<String, Object> objectExample = new HashMap<>();
objectExample.put("a", 5L);
objectExample.put("b", true);

docData.put("objectExample", objectExample);

ApiFuture<WriteResult> future = db.collection("data").document("one").set(docData);
System.out.println("Update time : " + future.get().getUpdateTime());
Python
data = {
    u'stringExample': u'Hello, World!',
    u'booleanExample': True,
    u'numberExample': 3.14159265,
    u'dateExample': datetime.datetime.now(),
    u'arrayExample': [5, True, u'hello'],
    u'nullExample': None,
    u'objectExample': {
        u'a': 5,
        u'b': True
    }
}

db.collection(u'data').document(u'one').set(data)
C ++
MapFieldValue doc_data{
    {"stringExample", FieldValue::String("Hello world!")},
    {"booleanExample", FieldValue::Boolean(true)},
    {"numberExample", FieldValue::Double(3.14159265)},
    {"dateExample", FieldValue::Timestamp(Timestamp::Now())},
    {"arrayExample", FieldValue::Array({FieldValue::Integer(1),
                                        FieldValue::Integer(2),
                                        FieldValue::Integer(3)})},
    {"nullExample", FieldValue::Null()},
    {"objectExample",
     FieldValue::Map(
         {{"a", FieldValue::Integer(5)},
          {"b", FieldValue::Map(
                    {{"nested", FieldValue::String("foo")}})}})},
};

db->Collection("data").Document("one").Set(doc_data).OnCompletion(
    [](const Future<void>& future) {
      if (future.error() == Error::kErrorOk) {
        std::cout << "DocumentSnapshot successfully written!\n";
      } else {
        std::cout << "Error writing document: " << future.error_message()
                  << '\n';
      }
    });
  
Node.js
const data = {
  stringExample: 'Hello, World!',
  booleanExample: true,
  numberExample: 3.14159265,
  dateExample: admin.firestore.Timestamp.fromDate(new Date('December 10, 1815')),
  arrayExample: [5, true, 'hello'],
  nullExample: null,
  objectExample: {
    a: 5,
    b: true
  }
};

const res = await db.collection('data').doc('one').set(data);
Gehen
doc := make(map[string]interface{})
doc["stringExample"] = "Hello world!"
doc["booleanExample"] = true
doc["numberExample"] = 3.14159265
doc["dateExample"] = time.Now()
doc["arrayExample"] = []interface{}{5, true, "hello"}
doc["nullExample"] = nil
doc["objectExample"] = map[string]interface{}{
	"a": 5,
	"b": true,
}

_, err := client.Collection("data").Doc("one").Set(ctx, doc)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$data = [
    'stringExample' => 'Hello World',
    'booleanExample' => true,
    'numberExample' => 3.14159265,
    'dateExample' => new Timestamp(new DateTime()),
    'arrayExample' => array(5, true, 'hello'),
    'nullExample' => null,
    'objectExample' => ['a' => 5, 'b' => true],
    'documentReferenceExample' => $db->collection('data')->document('two'),
];
$db->collection('data')->document('one')->set($data);
printf('Set multiple data-type data for the one document in the data collection.' . PHP_EOL);
Einheit
DocumentReference docRef = db.Collection("data").Document("one");
Dictionary<string, object> docData = new Dictionary<string, object>
{
	{ "stringExample", "Hello World" },
	{ "booleanExample", false },
	{ "numberExample", 3.14159265 },
	{ "nullExample", null },
	{ "arrayExample", new List<object>() { 5, true, "Hello" } },
	{ "objectExample", new Dictionary<string, object>
		{
			{ "a", 5 },
			{ "b", true },
		}
	},
};

docRef.SetAsync(docData);
  
C #
DocumentReference docRef = db.Collection("data").Document("one");
Dictionary<string, object> docData = new Dictionary<string, object>
{
    { "stringExample", "Hello World" },
    { "booleanExample", false },
    { "numberExample", 3.14159265 },
    { "nullExample", null },
};

ArrayList arrayExample = new ArrayList();
arrayExample.Add(5);
arrayExample.Add(true);
arrayExample.Add("Hello");
docData.Add("arrayExample", arrayExample);

Dictionary<string, object> objectExample = new Dictionary<string, object>
{
    { "a", 5 },
    { "b", true },
};
docData.Add("objectExample", objectExample);

await docRef.SetAsync(docData);
Rubin
doc_ref = firestore.doc "data/one"

data = {
  stringExample:  "Hello, World!",
  booleanExample: true,
  numberExample:  3.14159265,
  dateExample:    DateTime.now,
  arrayExample:   [5, true, "hello"],
  nullExample:    nil,
  objectExample:  {
    a: 5,
    b: true
  }
}

doc_ref.set data

Benutzerdefinierte Objekte

Die Verwendung von Map oder Dictionary Objekten zur Darstellung Ihrer Dokumente ist häufig nicht sehr praktisch. Daher unterstützt Cloud Firestore das Schreiben von Dokumenten mit benutzerdefinierten Klassen. Cloud Firestore konvertiert die Objekte in unterstützte Datentypen.

Mit benutzerdefinierten Klassen können Sie das erste Beispiel wie folgt umschreiben:

Netz
Um eine benutzerdefinierte Klasse zu verwenden, müssen Sie eine FirestoreDataConverter- Funktion für Ihre Klasse definieren. Zum Beispiel:
class City {
    constructor (name, state, country ) {
        this.name = name;
        this.state = state;
        this.country = country;
    }
    toString() {
        return this.name + ', ' + this.state + ', ' + this.country;
    }
}

// Firestore data converter
var cityConverter = {
    toFirestore: function(city) {
        return {
            name: city.name,
            state: city.state,
            country: city.country
            }
    },
    fromFirestore: function(snapshot, options){
        const data = snapshot.data(options);
        return new City(data.name, data.state, data.country)
    }
}
Schnell
public struct City: Codable {

    let name: String
    let state: String?
    let country: String?
    let isCapital: Bool?
    let population: Int64?

    enum CodingKeys: String, CodingKey {
        case name
        case state
        case country
        case isCapital = "capital"
        case population
    }

}
Ziel c
// This isn't supported in Objective-C.
  

Java

Jede benutzerdefinierte Klasse muss einen öffentlichen Konstruktor haben, der keine Argumente akzeptiert. Darüber hinaus muss die Klasse für jede Eigenschaft einen öffentlichen Getter enthalten.

public class City {


    private String name;
    private String state;
    private String country;
    private boolean capital;
    private long population;
    private List<String> regions;

    public City() {}

    public City(String name, String state, String country, boolean capital, long population, List<String> regions) {
        // ...
    }

    public String getName() {
        return name;
    }

    public String getState() {
        return state;
    }

    public String getCountry() {
        return country;
    }

    public boolean isCapital() {
        return capital;
    }

    public long getPopulation() {
        return population;
    }

    public List<String> getRegions() {
        return regions;
    }

}

Kotlin + KTX

data class City(
    val name: String? = null,
    val state: String? = null,
    val country: String? = null,
    val isCapital: Boolean? = null,
    val population: Long? = null,
    val regions: List<String>? = null
)
Java
public City() {
  // Must have a public no-argument constructor
}

// Initialize all fields of a city
public City(String name, String state, String country,
            Boolean capital, Long population, List<String> regions) {
  this.name = name;
  this.state = state;
  this.country = country;
  this.capital = capital;
  this.population = population;
  this.regions = regions;
}
Python
class City(object):
    def __init__(self, name, state, country, capital=False, population=0,
                 regions=[]):
        self.name = name
        self.state = state
        self.country = country
        self.capital = capital
        self.population = population
        self.regions = regions

    @staticmethod
    def from_dict(source):
        # ...

    def to_dict(self):
        # ...

    def __repr__(self):
        return(
            f'City(\
                name={self.name}, \
                country={self.country}, \
                population={self.population}, \
                capital={self.capital}, \
                regions={self.regions}\
            )'
        )
C ++
// This is not yet supported.
Node.js
// Node.js uses JavaScript objects
Gehen

// City represents a city.
type City struct {
	Name       string   `firestore:"name,omitempty"`
	State      string   `firestore:"state,omitempty"`
	Country    string   `firestore:"country,omitempty"`
	Capital    bool     `firestore:"capital,omitempty"`
	Population int64    `firestore:"population,omitempty"`
	Regions    []string `firestore:"regions,omitempty"`
}

PHP
// This isn't supported in PHP
Einheit
[FirestoreData]
public class City
{
	[FirestoreProperty]
	public string Name { get; set; }

	[FirestoreProperty]
	public string State { get; set; }

	[FirestoreProperty]
	public string Country { get; set; }

	[FirestoreProperty]
	public bool Capital { get; set; }

	[FirestoreProperty]
	public long Population { get; set; }
}
  
C #
[FirestoreData]
public class City
{
    [FirestoreProperty]
    public string Name { get; set; }

    [FirestoreProperty]
    public string State { get; set; }

    [FirestoreProperty]
    public string Country { get; set; }

    [FirestoreProperty]
    public bool Capital { get; set; }

    [FirestoreProperty]
    public long Population { get; set; }
}
Rubin
// This isn't supported in Ruby
Netz
Rufen Sie Ihren Datenkonverter mit Ihrer Schreiboperation auf:
// Set with cityConverter
db.collection("cities").doc("LA")
  .withConverter(cityConverter)
  .set(new City("Los Angeles", "CA", "USA"));
Schnell
let city = City(name: "Los Angeles",
                state: "CA",
                country: "USA",
                isCapital: false,
                population: 5000000)

do {
    try db.collection("cities").document("LA").setData(from: city)
} catch let error {
    print("Error writing city to Firestore: \(error)")
}
Ziel c
// This isn't supported in Objective-C.
  

Java

City city = new City("Los Angeles", "CA", "USA",
        false, 5000000L, Arrays.asList("west_coast", "sorcal"));
db.collection("cities").document("LA").set(city);

Kotlin + KTX

val city = City("Los Angeles", "CA", "USA",
        false, 5000000L, listOf("west_coast", "socal"))
db.collection("cities").document("LA").set(city)
Java
City city = new City("Los Angeles", "CA", "USA", false, 3900000L,
    Arrays.asList("west_coast", "socal"));
ApiFuture<WriteResult> future = db.collection("cities").document("LA").set(city);
// block on response if required
System.out.println("Update time : " + future.get().getUpdateTime());
Python
city = City(name=u'Los Angeles', state=u'CA', country=u'USA')
db.collection(u'cities').document(u'LA').set(city.to_dict())
C ++
// This is not yet supported.
Node.js
// Node.js uses JavaScript objects
Gehen
city := City{
	Name:    "Los Angeles",
	Country: "USA",
}
_, err := client.Collection("cities").Doc("LA").Set(ctx, city)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
// This isn't supported in PHP.
Einheit
DocumentReference docRef = db.Collection("cities").Document("LA");
City city = new City
{
	Name = "Los Angeles",
	State = "CA",
	Country = "USA",
	Capital = false,
	Population = 3900000L
};
docRef.SetAsync(city);
  
C #
DocumentReference docRef = db.Collection("cities").Document("LA");
City city = new City
{
    Name = "Los Angeles",
    State = "CA",
    Country = "USA",
    Capital = false,
    Population = 3900000L
};
await docRef.SetAsync(city);
Rubin
// This isn't supported in Ruby.

Fügen Sie ein Dokument hinzu

Wenn Sie mit set() ein Dokument erstellen, müssen Sie eine ID für das zu erstellende Dokument angeben. Beispielsweise:

Netz
db.collection("cities").doc("new-city-id").set(data);
Schnell
db.collection("cities").document("new-city-id").setData(data)
Ziel c
[[[self.db collectionWithPath:@"cities"] documentWithPath:@"new-city-id"]
    setData:data];
  

Java

db.collection("cities").document("new-city-id").set(data);

Kotlin + KTX

db.collection("cities").document("new-city-id").set(data)
Java
db.collection("cities").document("new-city-id").set(data);
Python
db.collection(u'cities').document(u'new-city-id').set(data)
C ++
db->Collection("cities").Document("SF").Set({/*some data*/});
  
Node.js
await db.collection('cities').doc('new-city-id').set(data);
Gehen
_, err := client.Collection("cities").Doc("new-city-id").Set(ctx, data)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$db->collection('cities')->document('new-city-id')->set($data);
Einheit
db.Collection("cities").Document("new-city-id").SetAsync(city);
  
C #
await db.Collection("cities").Document("new-city-id").SetAsync(city);
Rubin
city_ref = firestore.doc "cities/new-city-id"
city_ref.set data

Manchmal gibt es jedoch keine aussagekräftige ID für das Dokument, und es ist bequemer, wenn Cloud Firestore automatisch eine ID für Sie generiert. Sie können dies tun, indem Sie add() aufrufen:

Netz
// Add a new document with a generated id.
db.collection("cities").add({
    name: "Tokyo",
    country: "Japan"
})
.then(function(docRef) {
    console.log("Document written with ID: ", docRef.id);
})
.catch(function(error) {
    console.error("Error adding document: ", error);
});
Schnell
// Add a new document with a generated id.
var ref: DocumentReference? = nil
ref = db.collection("cities").addDocument(data: [
    "name": "Tokyo",
    "country": "Japan"
]) { err in
    if let err = err {
        print("Error adding document: \(err)")
    } else {
        print("Document added with ID: \(ref!.documentID)")
    }
}
Ziel c
// Add a new document with a generated id.
__block FIRDocumentReference *ref =
    [[self.db collectionWithPath:@"cities"] addDocumentWithData:@{
      @"name": @"Tokyo",
      @"country": @"Japan"
    } completion:^(NSError * _Nullable error) {
      if (error != nil) {
        NSLog(@"Error adding document: %@", error);
      } else {
        NSLog(@"Document added with ID: %@", ref.documentID);
      }
    }];
  

Java

// Add a new document with a generated id.
Map<String, Object> data = new HashMap<>();
data.put("name", "Tokyo");
data.put("country", "Japan");

db.collection("cities")
        .add(data)
        .addOnSuccessListener(new OnSuccessListener<DocumentReference>() {
            @Override
            public void onSuccess(DocumentReference documentReference) {
                Log.d(TAG, "DocumentSnapshot written with ID: " + documentReference.getId());
            }
        })
        .addOnFailureListener(new OnFailureListener() {
            @Override
            public void onFailure(@NonNull Exception e) {
                Log.w(TAG, "Error adding document", e);
            }
        });

Kotlin + KTX

// Add a new document with a generated id.
val data = hashMapOf(
        "name" to "Tokyo",
        "country" to "Japan"
)

db.collection("cities")
    .add(data)
    .addOnSuccessListener { documentReference ->
        Log.d(TAG, "DocumentSnapshot written with ID: ${documentReference.id}")
    }
    .addOnFailureListener { e ->
        Log.w(TAG, "Error adding document", e)
    }
Java
// Add document data with auto-generated id.
Map<String, Object> data = new HashMap<>();
data.put("name", "Tokyo");
data.put("country", "Japan");
ApiFuture<DocumentReference> addedDocRef = db.collection("cities").add(data);
System.out.println("Added document with ID: " + addedDocRef.get().getId());
Python
city = City(name=u'Tokyo', state=None, country=u'Japan')
db.collection(u'cities').add(city.to_dict())
C ++
db->Collection("cities").Add({/*some data*/});
  
Node.js
// Add a new document with a generated id.
const res = await db.collection('cities').add({
  name: 'Tokyo',
  country: 'Japan'
});

console.log('Added document with ID: ', res.id);
Gehen
_, _, err := client.Collection("cities").Add(ctx, map[string]interface{}{
	"name":    "Tokyo",
	"country": "Japan",
})
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$data = [
    'name' => 'Tokyo',
    'country' => 'Japan'
];
$addedDocRef = $db->collection('cities')->add($data);
printf('Added document with ID: %s' . PHP_EOL, $addedDocRef->id());
Einheit
Dictionary<string, object> city = new Dictionary<string, object>
{
	{ "Name", "Tokyo" },
	{ "Country", "Japan" }
};
db.Collection("cities").AddAsync(city).ContinueWithOnMainThread(task => {
	DocumentReference addedDocRef = task.Result;
	Debug.Log(String.Format("Added document with ID: {0}.", addedDocRef.Id));
});
  
C #
Dictionary<string, object> city = new Dictionary<string, object>
{
    { "Name", "Tokyo" },
    { "Country", "Japan" }
};
DocumentReference addedDocRef = await db.Collection("cities").AddAsync(city);
Console.WriteLine("Added document with ID: {0}.", addedDocRef.Id);
Rubin
data = {
  name:    "Tokyo",
  country: "Japan"
}

cities_ref = firestore.col "cities"

added_doc_ref = cities_ref.add data
puts "Added document with ID: #{added_doc_ref.document_id}."

In einigen Fällen kann es hilfreich sein, eine Dokumentreferenz mit einer automatisch generierten ID zu erstellen und diese später zu verwenden. Für diesen Anwendungsfall können Sie doc() aufrufen:

Netz
// Add a new document with a generated id.
var newCityRef = db.collection("cities").doc();

// later...
newCityRef.set(data);
Schnell
let newCityRef = db.collection("cities").document()

// later...
newCityRef.setData([
    // ...
])
Ziel c
FIRDocumentReference *newCityRef = [[self.db collectionWithPath:@"cities"] documentWithAutoID];
// later...
[newCityRef setData:@{ /* ... */ }];
  

Java

Map<String, Object> data = new HashMap<>();

DocumentReference newCityRef = db.collection("cities").document();

// Later...
newCityRef.set(data);

Kotlin + KTX

val data = HashMap<String, Any>()

val newCityRef = db.collection("cities").document()

// Later...
newCityRef.set(data)
Java
// Add document data after generating an id.
DocumentReference addedDocRef = db.collection("cities").document();
System.out.println("Added document with ID: " + addedDocRef.getId());

// later...
ApiFuture<WriteResult> writeResult = addedDocRef.set(data);
Python
new_city_ref = db.collection(u'cities').document()

# later...
new_city_ref.set({
    # ...
})
C ++
DocumentReference new_city_ref = db->Collection("cities").Document();
  
Node.js
const newCityRef = db.collection('cities').doc();

// Later...
const res = await newCityRef.set({
  // ...
});
Gehen
ref := client.Collection("cities").NewDoc()

// later...
_, err := ref.Set(ctx, data)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$addedDocRef = $db->collection('cities')->newDocument();
printf('Added document with ID: %s' . PHP_EOL, $addedDocRef->id());
$addedDocRef->set($data);
Einheit
DocumentReference addedDocRef = db.Collection("cities").Document();
Debug.Log(String.Format("Added document with ID: {0}.", addedDocRef.Id));
addedDocRef.SetAsync(city).ContinueWithOnMainThread(task => {
	Debug.Log(String.Format(
		"Added data to the {0} document in the cities collection.", addedDocRef.Id));
});
  
C #
DocumentReference addedDocRef = db.Collection("cities").Document();
Console.WriteLine("Added document with ID: {0}.", addedDocRef.Id);
await addedDocRef.SetAsync(city);
Rubin
cities_ref = firestore.col "cities"

added_doc_ref = cities_ref.doc
puts "Added document with ID: #{added_doc_ref.document_id}."

added_doc_ref.set data

Hinter den Kulissen sind .add(...) und .doc().set(...) völlig gleichwertig, sodass Sie das verwenden können, was bequemer ist.

Aktualisieren Sie ein Dokument

Verwenden Sie die update() -Methode, um einige Felder eines Dokuments zu aktualisieren, ohne das gesamte Dokument zu überschreiben:

Netz
var washingtonRef = db.collection("cities").doc("DC");

// Set the "capital" field of the city 'DC'
return washingtonRef.update({
    capital: true
})
.then(function() {
    console.log("Document successfully updated!");
})
.catch(function(error) {
    // The document probably doesn't exist.
    console.error("Error updating document: ", error);
});
Schnell
let washingtonRef = db.collection("cities").document("DC")

// Set the "capital" field of the city 'DC'
washingtonRef.updateData([
    "capital": true
]) { err in
    if let err = err {
        print("Error updating document: \(err)")
    } else {
        print("Document successfully updated")
    }
}
Ziel c
FIRDocumentReference *washingtonRef =
    [[self.db collectionWithPath:@"cities"] documentWithPath:@"DC"];
// Set the "capital" field of the city
[washingtonRef updateData:@{
  @"capital": @YES
} completion:^(NSError * _Nullable error) {
  if (error != nil) {
    NSLog(@"Error updating document: %@", error);
  } else {
    NSLog(@"Document successfully updated");
  }
}];
  

Java

DocumentReference washingtonRef = db.collection("cities").document("DC");

// Set the "isCapital" field of the city 'DC'
washingtonRef
        .update("capital", true)
        .addOnSuccessListener(new OnSuccessListener<Void>() {
            @Override
            public void onSuccess(Void aVoid) {
                Log.d(TAG, "DocumentSnapshot successfully updated!");
            }
        })
        .addOnFailureListener(new OnFailureListener() {
            @Override
            public void onFailure(@NonNull Exception e) {
                Log.w(TAG, "Error updating document", e);
            }
        });

Kotlin + KTX

val washingtonRef = db.collection("cities").document("DC")

// Set the "isCapital" field of the city 'DC'
washingtonRef
        .update("capital", true)
        .addOnSuccessListener { Log.d(TAG, "DocumentSnapshot successfully updated!") }
        .addOnFailureListener { e -> Log.w(TAG, "Error updating document", e) }
Java
// Update an existing document
DocumentReference docRef = db.collection("cities").document("DC");

// (async) Update one field
ApiFuture<WriteResult> future = docRef.update("capital", true);

// ...
WriteResult result = future.get();
System.out.println("Write result: " + result);
Python
city_ref = db.collection(u'cities').document(u'DC')

# Set the capital field
city_ref.update({u'capital': True})
C ++
DocumentReference washington_ref = db->Collection("cities").Document("DC");
// Set the "capital" field of the city "DC".
washington_ref.Update({{"capital", FieldValue::Boolean(true)}});
  
Node.js
const cityRef = db.collection('cities').doc('DC');

// Set the 'capital' field of the city
const res = await cityRef.update({capital: true});
Gehen
_, err := client.Collection("cities").Doc("DC").Set(ctx, map[string]interface{}{
	"capital": true,
}, firestore.MergeAll)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$cityRef = $db->collection('cities')->document('DC');
$cityRef->update([
    ['path' => 'capital', 'value' => true]
]);
Einheit
DocumentReference cityRef = db.Collection("cities").Document("new-city-id");
Dictionary<string, object> updates = new Dictionary<string, object>
{
	{ "Capital", false }
};

cityRef.UpdateAsync(updates).ContinueWithOnMainThread(task => {
	Debug.Log(
		"Updated the Capital field of the new-city-id document in the cities collection.");
});
// You can also update a single field with: cityRef.UpdateAsync("Capital", false);
  
C #
DocumentReference cityRef = db.Collection("cities").Document("new-city-id");
Dictionary<string, object> updates = new Dictionary<string, object>
{
    { "Capital", false }
};
await cityRef.UpdateAsync(updates);

// You can also update a single field with: await cityRef.UpdateAsync("Capital", false);
Rubin
city_ref = firestore.doc "cities/DC"
city_ref.update capital: true

Server-Zeitstempel

Sie können ein Feld in Ihrem Dokument auf einen Server-Zeitstempel setzen, der verfolgt, wann der Server das Update erhält.

Netz
var docRef = db.collection('objects').doc('some-id');

// Update the timestamp field with the value from the server
var updateTimestamp = docRef.update({
    timestamp: firebase.firestore.FieldValue.serverTimestamp()
});
Schnell
db.collection("objects").document("some-id").updateData([
    "lastUpdated": FieldValue.serverTimestamp(),
]) { err in
    if let err = err {
        print("Error updating document: \(err)")
    } else {
        print("Document successfully updated")
    }
}
Ziel c
[[[self.db collectionWithPath:@"objects"] documentWithPath:@"some-id"] updateData:@{
  @"lastUpdated": [FIRFieldValue fieldValueForServerTimestamp]
} completion:^(NSError * _Nullable error) {
  if (error != nil) {
    NSLog(@"Error updating document: %@", error);
  } else {
    NSLog(@"Document successfully updated");
  }
}];
  

Java

// If you're using custom Java objects in Android, add an @ServerTimestamp
// annotation to a Date field for your custom object classes. This indicates
// that the Date field should be treated as a server timestamp by the object mapper.
DocumentReference docRef = db.collection("objects").document("some-id");

// Update the timestamp field with the value from the server
Map<String,Object> updates = new HashMap<>();
updates.put("timestamp", FieldValue.serverTimestamp());

docRef.update(updates).addOnCompleteListener(new OnCompleteListener<Void>() {
    // ...
    // ...

Kotlin + KTX

// If you're using custom Kotlin objects in Android, add an @ServerTimestamp
// annotation to a Date field for your custom object classes. This indicates
// that the Date field should be treated as a server timestamp by the object mapper.
val docRef = db.collection("objects").document("some-id")

// Update the timestamp field with the value from the server
val updates = hashMapOf<String, Any>(
        "timestamp" to FieldValue.serverTimestamp()
)

docRef.update(updates).addOnCompleteListener { }
Java
DocumentReference docRef = db.collection("objects").document("some-id");
// Update the timestamp field with the value from the server
ApiFuture<WriteResult> writeResult = docRef.update("timestamp", FieldValue.serverTimestamp());
System.out.println("Update time : " + writeResult.get());
Python
city_ref = db.collection(u'objects').document(u'some-id')
city_ref.update({
    u'timestamp': firestore.SERVER_TIMESTAMP
})
C ++
DocumentReference doc_ref = db->Collection("objects").Document("some-id");
doc_ref.Update({{"timestamp", FieldValue::ServerTimestamp()}})
    .OnCompletion([](const Future<void>& future) {
      // ...
    });
  
Node.js
// Get the `FieldValue` object
const FieldValue = admin.firestore.FieldValue;

// Create a document reference
const docRef = db.collection('objects').doc('some-id');

// Update the timestamp field with the value from the server
const res = await docRef.update({
  timestamp: FieldValue.serverTimestamp()
});
Gehen
_, err := client.Collection("objects").Doc("some-id").Set(ctx, map[string]interface{}{
	"timestamp": firestore.ServerTimestamp,
}, firestore.MergeAll)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
$docRef = $db->collection('objects')->document('some-id');
$docRef->update([
    ['path' => 'timestamp', 'value' => FieldValue::serverTimestamp()]
]);
Einheit
DocumentReference cityRef = db.Collection("cities").Document("new-city-id");
cityRef.UpdateAsync("Timestamp", FieldValue.ServerTimestamp)
	.ContinueWithOnMainThread(task => {
		Debug.Log(
			"Updated the Timestamp field of the new-city-id document in the cities "
			+ "collection.");
	});
  
C #
DocumentReference cityRef = db.Collection("cities").Document("new-city-id");
await cityRef.UpdateAsync("Timestamp", Timestamp.GetCurrentTimestamp());
Rubin
city_ref = firestore.doc "cities/new-city-id"
city_ref.update timestamp: firestore.field_server_time

Aktualisieren Sie Felder in verschachtelten Objekten

Wenn Ihr Dokument verschachtelte Objekte enthält, können Sie die "Punktnotation" verwenden, um auf verschachtelte Felder im Dokument zu verweisen, wenn Sie update() aufrufen:

Netz
// Create an initial document to update.
var frankDocRef = db.collection("users").doc("frank");
frankDocRef.set({
    name: "Frank",
    favorites: { food: "Pizza", color: "Blue", subject: "recess" },
    age: 12
});

// To update age and favorite color:
db.collection("users").doc("frank").update({
    "age": 13,
    "favorites.color": "Red"
})
.then(function() {
    console.log("Document successfully updated!");
});
Schnell
// Create an initial document to update.
let frankDocRef = db.collection("users").document("frank")
frankDocRef.setData([
    "name": "Frank",
    "favorites": [ "food": "Pizza", "color": "Blue", "subject": "recess" ],
    "age": 12
    ])

// To update age and favorite color:
db.collection("users").document("frank").updateData([
    "age": 13,
    "favorites.color": "Red"
]) { err in
    if let err = err {
        print("Error updating document: \(err)")
    } else {
        print("Document successfully updated")
    }
}
Ziel c
// Create an initial document to update.
FIRDocumentReference *frankDocRef =
    [[self.db collectionWithPath:@"users"] documentWithPath:@"frank"];
[frankDocRef setData:@{
  @"name": @"Frank",
  @"favorites": @{
    @"food": @"Pizza",
    @"color": @"Blue",
    @"subject": @"recess"
  },
  @"age": @12
}];
// To update age and favorite color:
[frankDocRef updateData:@{
  @"age": @13,
  @"favorites.color": @"Red",
} completion:^(NSError * _Nullable error) {
  if (error != nil) {
    NSLog(@"Error updating document: %@", error);
  } else {
    NSLog(@"Document successfully updated");
  }
}];
  

Java

// Assume the document contains:
// {
//   name: "Frank",
//   favorites: { food: "Pizza", color: "Blue", subject: "recess" }
//   age: 12
// }
//
// To update age and favorite color:
db.collection("users").document("frank")
        .update(
                "age", 13,
                "favorites.color", "Red"
        );

Kotlin + KTX

// Assume the document contains:
// {
//   name: "Frank",
//   favorites: { food: "Pizza", color: "Blue", subject: "recess" }
//   age: 12
// }
//
// To update age and favorite color:
db.collection("users").document("frank")
        .update(mapOf(
                "age" to 13,
                "favorites.color" to "Red"
        ))
Java
// Create an initial document to update
DocumentReference frankDocRef = db.collection("users").document("frank");
Map<String, Object> initialData = new HashMap<>();
initialData.put("name", "Frank");
initialData.put("age", 12);

Map<String, Object> favorites = new HashMap<>();
favorites.put("food", "Pizza");
favorites.put("color", "Blue");
favorites.put("subject", "Recess");
initialData.put("favorites", favorites);

ApiFuture<WriteResult> initialResult = frankDocRef.set(initialData);
// Confirm that data has been successfully saved by blocking on the operation
initialResult.get();

// Update age and favorite color
Map<String, Object> updates = new HashMap<>();
updates.put("age", 13);
updates.put("favorites.color", "Red");

// Async update document
ApiFuture<WriteResult> writeResult = frankDocRef.update(updates);
// ...
System.out.println("Update time : " + writeResult.get().getUpdateTime());
Python
# Create an initial document to update
frank_ref = db.collection(u'users').document(u'frank')
frank_ref.set({
    u'name': u'Frank',
    u'favorites': {
        u'food': u'Pizza',
        u'color': u'Blue',
        u'subject': u'Recess'
    },
    u'age': 12
})

# Update age and favorite color
frank_ref.update({
    u'age': 13,
    u'favorites.color': u'Red'
})
C ++
// Assume the document contains:
// {
//   name: "Frank",
//   favorites: { food: "Pizza", color: "Blue", subject: "recess" }
//   age: 12
// }
//
// To update age and favorite color:
db->Collection("users").Document("frank").Update({
    {"age", FieldValue::Integer(13)},
    {"favorites.color", FieldValue::String("red")},
});
  
Node.js
const initialData = {
  name: 'Frank',
  age: 12,
  favorites: {
    food: 'Pizza',
    color: 'Blue',
    subject: 'recess'
  }
};

// ...
const res = await db.collection('users').doc('Frank').update({
  age: 13,
  'favorites.color': 'Red'
});
Gehen
initialData := map[string]interface{}{
	"name": "Frank",
	"age":  12,
	"favorites": map[string]interface{}{
		"food":    "Pizza",
		"color":   "Blue",
		"subject": "recess",
	},
}

// ...

_, err := client.Collection("users").Doc("frank").Set(ctx, map[string]interface{}{
	"age": 13,
	"favorites": map[string]interface{}{
		"color": "Red",
	},
}, firestore.MergeAll)
if err != nil {
	// Handle any errors in an appropriate way, such as returning them.
	log.Printf("An error has occurred: %s", err)
}
PHP
// Create an initial document to update
$frankRef = $db->collection('users')->document('frank');
$frankRef->set([
    'name' => 'Frank',
    'favorites' => ['food' => 'Pizza', 'color' => 'Blue', 'subject' => 'Recess'],
    'age' => 12
]);

// Update age and favorite color
$frankRef->update([
    ['path' => 'age', 'value' => 13],
    ['path' => 'favorites.color', 'value' => 'Red']
]);
Einheit
DocumentReference frankDocRef = db.Collection("users").Document("frank");
Dictionary<string, object> initialData = new Dictionary<string, object>
{
	{ "Name", "Frank" },
	{ "Age", 12 }
};

Dictionary<string, object> favorites = new Dictionary<string, object>
{
	{ "Food", "Pizza" },
	{ "Color", "Blue" },
	{ "Subject", "Recess" },
};
initialData.Add("Favorites", favorites);
frankDocRef.SetAsync(initialData).ContinueWithOnMainThread(task => {

	// Update age and favorite color
	Dictionary<string, object> updates = new Dictionary<string, object>
	{
		{ "Age", 13 },
		{ "Favorites.Color", "Red" },
	};

	// Asynchronously update the document
	return frankDocRef.UpdateAsync(updates);
}).ContinueWithOnMainThread(task => {
	Debug.Log(
		"Updated the age and favorite color fields of the Frank document in "
		+ "the users collection.");
});
  
C #
DocumentReference frankDocRef = db.Collection("users").Document("frank");
Dictionary<string, object> initialData = new Dictionary<string, object>
{
    { "Name", "Frank" },
    { "Age", 12 }
};

Dictionary<string, object> favorites = new Dictionary<string, object>
{
    { "Food", "Pizza" },
    { "Color", "Blue" },
    { "Subject", "Recess" },
};
initialData.Add("Favorites", favorites);
await frankDocRef.SetAsync(initialData);

// Update age and favorite color
Dictionary<string, object> updates = new Dictionary<string, object>
{
    { "Age", 13 },
    { "Favorites.Color", "Red" },
};

// Asynchronously update the document
await frankDocRef.UpdateAsync(updates);
Rubin
# Create an initial document to update
frank_ref = firestore.doc "users/frank"
frank_ref.set(
  name:      "Frank",
  favorites: {
    food:    "Pizza",
    color:   "Blue",
    subject: "Recess"
  },
  age:       12
)

# Update age and favorite color
frank_ref.update age: 13, "favorites.color": "Red"

Mit der Punktnotation können Sie ein einzelnes verschachteltes Feld aktualisieren, ohne ein anderes verschachteltes Feld zu überschreiben. Wenn Sie ein verschachteltes Feld ohne Punktnotation aktualisieren, überschreiben Sie das gesamte Kartenfeld, zum Beispiel:

Netz

// Create our initial doc
db.collection("users").doc("frank").set({
  name: "Frank",
  favorites: {
    food: "Pizza",
    color: "Blue",
    subject: "Recess"
  },
  age: 12
}).then(function() {
  console.log("Frank created");
});

// Update the doc without using dot notation.
// Notice the map value for favorites.
db.collection("users").doc("frank").update({
  favorites: {
    food: "Ice Cream"
  }
}).then(function() {
  console.log("Frank food updated");
});

/*
Ending State, favorite.color and favorite.subject are no longer present:
/users
    /frank
        {
            name: "Frank",
            favorites: {
                food: "Ice Cream",
            },
            age: 12
        }
 */

Aktualisieren Sie Elemente in einem Array

Wenn Ihr Dokument ein Array-Feld enthält, können Sie mit arrayUnion() und arrayRemove() Elemente hinzufügen und entfernen. arrayUnion() fügt einem Array Elemente hinzu, aber nur Elemente, die noch nicht vorhanden sind. arrayRemove() entfernt alle Instanzen jedes angegebenen Elements.

Netz
var washingtonRef = db.collection("cities").doc("DC");

// Atomically add a new region to the "regions" array field.
washingtonRef.update({
    regions: firebase.firestore.FieldValue.arrayUnion("greater_virginia")
});

// Atomically remove a region from the "regions" array field.
washingtonRef.update({
    regions: firebase.firestore.FieldValue.arrayRemove("east_coast")
});
Schnell
let washingtonRef = db.collection("cities").document("DC")

// Atomically add a new region to the "regions" array field.
washingtonRef.updateData([
    "regions": FieldValue.arrayUnion(["greater_virginia"])
])

// Atomically remove a region from the "regions" array field.
washingtonRef.updateData([
    "regions": FieldValue.arrayRemove(["east_coast"])
])
Ziel c
FIRDocumentReference *washingtonRef =
    [[self.db collectionWithPath:@"cities"] documentWithPath:@"DC"];

// Atomically add a new region to the "regions" array field.
[washingtonRef updateData:@{
  @"regions": [FIRFieldValue fieldValueForArrayUnion:@[@"greater_virginia"]]
}];

// Atomically remove a new region to the "regions" array field.
[washingtonRef updateData:@{
  @"regions": [FIRFieldValue fieldValueForArrayRemove:@[@"east_coast"]]
}];
  

Java

DocumentReference washingtonRef = db.collection("cities").document("DC");

// Atomically add a new region to the "regions" array field.
washingtonRef.update("regions", FieldValue.arrayUnion("greater_virginia"));

// Atomically remove a region from the "regions" array field.
washingtonRef.update("regions", FieldValue.arrayRemove("east_coast"));

Kotlin + KTX

val washingtonRef = db.collection("cities").document("DC")

// Atomically add a new region to the "regions" array field.
washingtonRef.update("regions", FieldValue.arrayUnion("greater_virginia"))

// Atomically remove a region from the "regions" array field.
washingtonRef.update("regions", FieldValue.arrayRemove("east_coast"))
Java
DocumentReference washingtonRef = db.collection("cities").document("DC");

// Atomically add a new region to the "regions" array field.
ApiFuture<WriteResult> arrayUnion = washingtonRef.update("regions",
    FieldValue.arrayUnion("greater_virginia"));
System.out.println("Update time : " + arrayUnion.get());

// Atomically remove a region from the "regions" array field.
ApiFuture<WriteResult> arrayRm = washingtonRef.update("regions",
    FieldValue.arrayRemove("east_coast"));
System.out.println("Update time : " + arrayRm.get());
Python
city_ref = db.collection(u'cities').document(u'DC')

# Atomically add a new region to the 'regions' array field.
city_ref.update({u'regions': firestore.ArrayUnion([u'greater_virginia'])})

# // Atomically remove a region from the 'regions' array field.
city_ref.update({u'regions': firestore.ArrayRemove([u'east_coast'])})
C ++
// This is not yet supported.
Node.js
const admin = require('firebase-admin');
// ...
const washingtonRef = db.collection('cities').doc('DC');

// Atomically add a new region to the "regions" array field.
const unionRes = await washingtonRef.update({
  regions: admin.firestore.FieldValue.arrayUnion('greater_virginia')
});
// Atomically remove a region from the "regions" array field.
const removeRes = await washingtonRef.update({
  regions: admin.firestore.FieldValue.arrayRemove('east_coast')
});
Gehen
// Not supported yet
PHP
$cityRef = $db->collection('cities')->document('DC');

// Atomically add a new region to the "regions" array field.
$cityRef->update([
    ['path' => 'regions', 'value' => FieldValue::arrayUnion(['greater_virginia'])]
]);

// Atomically remove a region from the "regions" array field.
$cityRef->update([
    ['path' => 'regions', 'value' => FieldValue::arrayRemove(['east_coast'])]
]);
Einheit
// This is not yet supported in the Unity SDK
  
C #
DocumentReference washingtonRef = db.Collection("cities").Document("DC");

// Atomically add a new region to the "regions" array field.
await washingtonRef.UpdateAsync("Regions", FieldValue.ArrayUnion("greater_virginia"));

// Atomically remove a region from the "regions" array field.
await washingtonRef.UpdateAsync("Regions", FieldValue.ArrayRemove("east_coast"));
Rubin
// Not supported yet

Erhöhen Sie einen numerischen Wert

Sie können einen numerischen Feldwert wie im folgenden Beispiel gezeigt erhöhen oder verringern. Eine Inkrementierungsoperation erhöht oder verringert den aktuellen Wert eines Feldes um den angegebenen Betrag. Wenn das Feld nicht vorhanden ist oder wenn der aktuelle Feldwert kein numerischer Wert ist, setzt die Operation das Feld auf den angegebenen Wert.

Netz
var washingtonRef = db.collection('cities').doc('DC');

// Atomically increment the population of the city by 50.
washingtonRef.update({
    population: firebase.firestore.FieldValue.increment(50)
});
Schnell
let washingtonRef = db.collection("cities").document("DC")

// Atomically increment the population of the city by 50.
// Note that increment() with no arguments increments by 1.
washingtonRef.updateData([
    "population": FieldValue.increment(Int64(50))
])
Ziel c
FIRDocumentReference *washingtonRef =
    [[self.db collectionWithPath:@"cities"] documentWithPath:@"DC"];

// Atomically increment the population of the city by 50.
// Note that increment() with no arguments increments by 1.
[washingtonRef updateData:@{
  @"population": [FIRFieldValue fieldValueForIntegerIncrement:50]
}];
  

Java

DocumentReference washingtonRef = db.collection("cities").document("DC");

// Atomically increment the population of the city by 50.
washingtonRef.update("population", FieldValue.increment(50));

Kotlin + KTX

val washingtonRef = db.collection("cities").document("DC")

// Atomically increment the population of the city by 50.
washingtonRef.update("population", FieldValue.increment(50))
Java
DocumentReference washingtonRef = db.collection("cities").document("DC");

// Atomically increment the population of the city by 50.
final ApiFuture<WriteResult> updateFuture = washingtonRef
    .update("population", FieldValue.increment(50));
Python
washington_ref = db.collection(u'cities').document(u'DC')

washington_ref.update({"population": firestore.Increment(50)})
C ++
// This is not yet supported.
Node.js
const admin = require('firebase-admin');
// ...
const washingtonRef = db.collection('cities').doc('DC');

// Atomically increment the population of the city by 50.
const res = await washingtonRef.update({
  population: admin.firestore.FieldValue.increment(50)
});
Gehen
import (
	"context"
	"fmt"

	"cloud.google.com/go/firestore"
)

// updateDocumentIncrement increments the population of the city document in the
// cities collection by 50.
func updateDocumentIncrement(projectID, city string) error {
	// projectID := "my-project"

	ctx := context.Background()

	client, err := firestore.NewClient(ctx, projectID)
	if err != nil {
		return fmt.Errorf("firestore.NewClient: %v", err)
	}

	dc := client.Collection("cities").Doc(city)
	_, err = dc.Update(ctx, []firestore.Update{
		{Path: "population", Value: firestore.Increment(50)},
	})
	if err != nil {
		return fmt.Errorf("Update: %v", err)
	}

	return nil
}

PHP
$cityRef = $db->collection('cities')->document('DC');

// Atomically increment the population of the city by 50.
$cityRef->update([
    ['path' => 'regions', 'value' => FieldValue::increment(50)]
]);
Einheit
// This is not yet supported in the Unity SDK.
  
C #
DocumentReference washingtonRef = db.Collection("cities").Document("DC");

// Atomically increment the population of the city by 50.
await washingtonRef.UpdateAsync("Regions", FieldValue.Increment(50));
Rubin
city_ref = firestore.doc "cities/DC"
city_ref.update population: firestore.field_increment(50)

Inkrementierungsvorgänge sind nützlich, um Zähler zu implementieren. Beachten Sie jedoch, dass Sie ein einzelnes Dokument nur einmal pro Sekunde aktualisieren können. Wenn Sie Ihren Zähler über dieser Rate aktualisieren müssen, lesen Sie die Seite Verteilte Zähler .