/** * Firestore Lite * * @remarks Firestore Lite is a small online-only SDK that allows read * and write access to your Firestore database. All operations connect * directly to the backend, and `onSnapshot()` APIs are not supported. * @packageDocumentation */ import { DocumentData as DocumentData_2 } from '@firebase/firestore-types'; import { EmulatorMockTokenOptions } from '@firebase/util'; import { FirebaseApp } from '@firebase/app'; import { FirebaseError } from '@firebase/util'; import { _FirebaseService } from '@firebase/app'; import { LogLevelString as LogLevel } from '@firebase/logger'; import { SetOptions as SetOptions_2 } from '@firebase/firestore-types'; /** * Converts Firestore's internal types to the JavaScript types that we expose * to the user. * * @internal */ declare abstract class AbstractUserDataWriter { convertValue(value: Value, serverTimestampBehavior?: ServerTimestampBehavior): unknown; private convertObject; private convertGeoPoint; private convertArray; private convertServerTimestamp; private convertTimestamp; protected convertDocumentKey(name: string, expectedDatabaseId: DatabaseId): DocumentKey; protected abstract convertReference(name: string): unknown; protected abstract convertBytes(bytes: ByteString): unknown; } /** * Add a new document to specified `CollectionReference` with the given data, * assigning it a document ID automatically. * * The result of this write will only be reflected in document reads that occur * after the returned promise resolves. If the client is offline, the * write fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the collection to add this document to. * @param data - An Object containing the data for the new document. * @throws Error - If the provided input is not a valid Firestore document. * @returns A `Promise` resolved with a `DocumentReference` pointing to the * newly created document after it has been written to the backend. */ export declare function addDoc(reference: CollectionReference, data: WithFieldValue): Promise>; /** * Returns a new map where every key is prefixed with the outer key appended * to a dot. */ export declare type AddPrefixToKeys> = { [K in keyof T & string as `${Prefix}.${K}`]+?: T[K]; }; /** * Represents an aggregation that can be performed by Firestore. */ export declare class AggregateField { /** A type string to uniquely identify instances of this class. */ type: string; } /** * The union of all `AggregateField` types that are supported by Firestore. */ export declare type AggregateFieldType = AggregateField; /** * The results of executing an aggregation query. */ export declare class AggregateQuerySnapshot { private readonly _data; /** A type string to uniquely identify instances of this class. */ readonly type = "AggregateQuerySnapshot"; /** * The underlying query over which the aggregations recorded in this * `AggregateQuerySnapshot` were performed. */ readonly query: Query; /** @hideconstructor */ constructor(query: Query, _data: AggregateSpecData); /** * Returns the results of the aggregations performed over the underlying * query. * * The keys of the returned object will be the same as those of the * `AggregateSpec` object specified to the aggregation method, and the values * will be the corresponding aggregation result. * * @returns The results of the aggregations performed over the underlying * query. */ data(): AggregateSpecData; } /** * Compares two `AggregateQuerySnapshot` instances for equality. * * Two `AggregateQuerySnapshot` instances are considered "equal" if they have * underlying queries that compare equal, and the same data. * * @param left - The first `AggregateQuerySnapshot` to compare. * @param right - The second `AggregateQuerySnapshot` to compare. * * @returns `true` if the objects are "equal", as defined above, or `false` * otherwise. */ export declare function aggregateQuerySnapshotEqual(left: AggregateQuerySnapshot, right: AggregateQuerySnapshot): boolean; /** * A type whose property values are all `AggregateField` objects. */ export declare interface AggregateSpec { [field: string]: AggregateFieldType; } /** * A type whose keys are taken from an `AggregateSpec`, and whose values are the * result of the aggregation performed by the corresponding `AggregateField` * from the input `AggregateSpec`. */ export declare type AggregateSpecData = { [P in keyof T]: T[P] extends AggregateField ? U : never; }; /** * Creates a new {@link QueryCompositeFilterConstraint} that is a conjunction of * the given filter constraints. A conjunction filter includes a document if it * satisfies all of the given filters. * * @param queryConstraints - Optional. The list of * {@link QueryFilterConstraint}s to perform a conjunction for. These must be * created with calls to {@link where}, {@link or}, or {@link and}. * @returns The newly created {@link QueryCompositeFilterConstraint}. * @internal TODO remove this internal tag with OR Query support in the server */ export declare function and(...queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint; declare interface ApiClientObjectMap { [k: string]: T; } /** * An `AppliableConstraint` is an abstraction of a constraint that can be applied * to a Firestore query. */ declare abstract class AppliableConstraint { /** * Takes the provided {@link Query} and returns a copy of the {@link Query} with this * {@link AppliableConstraint} applied. */ abstract _apply(query: Query): Query; } /** * Returns a special value that can be used with {@link (setDoc:1)} or {@link * updateDoc:1} that tells the server to remove the given elements from any * array value that already exists on the server. All instances of each element * specified will be removed from the array. If the field being modified is not * already an array it will be overwritten with an empty array. * * @param elements - The elements to remove from the array. * @returns The `FieldValue` sentinel for use in a call to `setDoc()` or * `updateDoc()` */ export declare function arrayRemove(...elements: unknown[]): FieldValue; /** * Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link * @firebase/firestore/lite#(updateDoc:1)} that tells the server to union the given elements with any array * value that already exists on the server. Each specified element that doesn't * already exist in the array will be added to the end. If the field being * modified is not already an array it will be overwritten with an array * containing exactly the specified elements. * * @param elements - The elements to union into the array. * @returns The `FieldValue` sentinel for use in a call to `setDoc()` or * `updateDoc()`. */ export declare function arrayUnion(...elements: unknown[]): FieldValue; declare interface AsyncQueue { readonly isShuttingDown: boolean; /** * Adds a new operation to the queue without waiting for it to complete (i.e. * we ignore the Promise result). */ enqueueAndForget(op: () => Promise): void; /** * Regardless if the queue has initialized shutdown, adds a new operation to the * queue without waiting for it to complete (i.e. we ignore the Promise result). */ enqueueAndForgetEvenWhileRestricted(op: () => Promise): void; /** * Initialize the shutdown of this queue. Once this method is called, the * only possible way to request running an operation is through * `enqueueEvenWhileRestricted()`. * * @param purgeExistingTasks Whether already enqueued tasked should be * rejected (unless enqueued wih `enqueueEvenWhileRestricted()`). Defaults * to false. */ enterRestrictedMode(purgeExistingTasks?: boolean): void; /** * Adds a new operation to the queue. Returns a promise that will be resolved * when the promise returned by the new operation is (with its value). */ enqueue(op: () => Promise): Promise; /** * Enqueue a retryable operation. * * A retryable operation is rescheduled with backoff if it fails with a * IndexedDbTransactionError (the error type used by SimpleDb). All * retryable operations are executed in order and only run if all prior * operations were retried successfully. */ enqueueRetryable(op: () => Promise): void; /** * Schedules an operation to be queued on the AsyncQueue once the specified * `delayMs` has elapsed. The returned DelayedOperation can be used to cancel * or fast-forward the operation prior to its running. */ enqueueAfterDelay(timerId: TimerId, delayMs: number, op: () => Promise): DelayedOperation; /** * Verifies there's an operation currently in-progress on the AsyncQueue. * Unfortunately we can't verify that the running code is in the promise chain * of that operation, so this isn't a foolproof check, but it should be enough * to catch some bugs. */ verifyOperationInProgress(): void; } declare type AuthTokenFactory = () => string; /** * Path represents an ordered sequence of string segments. */ declare abstract class BasePath> { private segments; private offset; private len; constructor(segments: string[], offset?: number, length?: number); /** * Abstract constructor method to construct an instance of B with the given * parameters. */ protected abstract construct(segments: string[], offset?: number, length?: number): B; /** * Returns a String representation. * * Implementing classes are required to provide deterministic implementations as * the String representation is used to obtain canonical Query IDs. */ abstract toString(): string; get length(): number; isEqual(other: B): boolean; child(nameOrPath: string | B): B; /** The index of one past the last segment of the path. */ private limit; popFirst(size?: number): B; popLast(): B; firstSegment(): string; lastSegment(): string; get(index: number): string; isEmpty(): boolean; isPrefixOf(other: this): boolean; isImmediateParentOf(potentialChild: this): boolean; forEach(fn: (segment: string) => void): void; toArray(): string[]; static comparator>(p1: BasePath, p2: BasePath): number; } /** * Represents a bound of a query. * * The bound is specified with the given components representing a position and * whether it's just before or just after the position (relative to whatever the * query order is). * * The position represents a logical index position for a query. It's a prefix * of values for the (potentially implicit) order by clauses of a query. * * Bound provides a function to determine whether a document comes before or * after a bound. This is influenced by whether the position is just before or * just after the provided values. */ declare class Bound { readonly position: Value[]; readonly inclusive: boolean; constructor(position: Value[], inclusive: boolean); } /** * An immutable object representing an array of bytes. */ export declare class Bytes { _byteString: ByteString; /** @hideconstructor */ constructor(byteString: ByteString); /** * Creates a new `Bytes` object from the given Base64 string, converting it to * bytes. * * @param base64 - The Base64 string used to create the `Bytes` object. */ static fromBase64String(base64: string): Bytes; /** * Creates a new `Bytes` object from the given Uint8Array. * * @param array - The Uint8Array used to create the `Bytes` object. */ static fromUint8Array(array: Uint8Array): Bytes; /** * Returns the underlying bytes as a Base64-encoded string. * * @returns The Base64-encoded string created from the `Bytes` object. */ toBase64(): string; /** * Returns the underlying bytes in a new `Uint8Array`. * * @returns The Uint8Array created from the `Bytes` object. */ toUint8Array(): Uint8Array; /** * Returns a string representation of the `Bytes` object. * * @returns A string representation of the `Bytes` object. */ toString(): string; /** * Returns true if this `Bytes` object is equal to the provided one. * * @param other - The `Bytes` object to compare against. * @returns true if this `Bytes` object is equal to the provided one. */ isEqual(other: Bytes): boolean; } /** * @license * Copyright 2020 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Immutable class that represents a "proto" byte string. * * Proto byte strings can either be Base64-encoded strings or Uint8Arrays when * sent on the wire. This class abstracts away this differentiation by holding * the proto byte string in a common class that must be converted into a string * before being sent as a proto. * @internal */ declare class ByteString { private readonly binaryString; static readonly EMPTY_BYTE_STRING: ByteString; private constructor(); static fromBase64String(base64: string): ByteString; static fromUint8Array(array: Uint8Array): ByteString; [Symbol.iterator](): Iterator; toBase64(): string; toUint8Array(): Uint8Array; approximateByteSize(): number; compareTo(other: ByteString): number; isEqual(other: ByteString): boolean; } /** * Helper for calculating the nested fields for a given type T1. This is needed * to distribute union types such as `undefined | {...}` (happens for optional * props) or `{a: A} | {b: B}`. * * In this use case, `V` is used to distribute the union types of `T[K]` on * `Record`, since `T[K]` is evaluated as an expression and not distributed. * * See https://www.typescriptlang.org/docs/handbook/advanced-types.html#distributive-conditional-types */ export declare type ChildUpdateFields = V extends Record ? AddPrefixToKeys> : never; /** * Gets a `CollectionReference` instance that refers to the collection at * the specified absolute path. * * @param firestore - A reference to the root `Firestore` instance. * @param path - A slash-separated path to a collection. * @param pathSegments - Additional path segments to apply relative to the first * argument. * @throws If the final path has an even number of segments and does not point * to a collection. * @returns The `CollectionReference` instance. */ export declare function collection(firestore: Firestore, path: string, ...pathSegments: string[]): CollectionReference; /** * Gets a `CollectionReference` instance that refers to a subcollection of * `reference` at the the specified relative path. * * @param reference - A reference to a collection. * @param path - A slash-separated path to a collection. * @param pathSegments - Additional path segments to apply relative to the first * argument. * @throws If the final path has an even number of segments and does not point * to a collection. * @returns The `CollectionReference` instance. */ export declare function collection(reference: CollectionReference, path: string, ...pathSegments: string[]): CollectionReference; /** * Gets a `CollectionReference` instance that refers to a subcollection of * `reference` at the the specified relative path. * * @param reference - A reference to a Firestore document. * @param path - A slash-separated path to a collection. * @param pathSegments - Additional path segments that will be applied relative * to the first argument. * @throws If the final path has an even number of segments and does not point * to a collection. * @returns The `CollectionReference` instance. */ export declare function collection(reference: DocumentReference, path: string, ...pathSegments: string[]): CollectionReference; /** * Creates and returns a new `Query` instance that includes all documents in the * database that are contained in a collection or subcollection with the * given `collectionId`. * * @param firestore - A reference to the root `Firestore` instance. * @param collectionId - Identifies the collections to query over. Every * collection or subcollection with this ID as the last segment of its path * will be included. Cannot contain a slash. * @returns The created `Query`. */ export declare function collectionGroup(firestore: Firestore, collectionId: string): Query; /** * A `CollectionReference` object can be used for adding documents, getting * document references, and querying for documents (using {@link query}). */ export declare class CollectionReference extends Query { readonly _path: ResourcePath; /** The type of this Firestore reference. */ readonly type = "collection"; /** @hideconstructor */ constructor(firestore: Firestore, converter: FirestoreDataConverter | null, _path: ResourcePath); /** The collection's identifier. */ get id(): string; /** * A string representing the path of the referenced collection (relative * to the root of the database). */ get path(): string; /** * A reference to the containing `DocumentReference` if this is a * subcollection. If this isn't a subcollection, the reference is null. */ get parent(): DocumentReference | null; /** * Applies a custom data converter to this `CollectionReference`, allowing you * to use your own custom model objects with Firestore. When you call {@link * addDoc} with the returned `CollectionReference` instance, the provided * converter will convert between Firestore data and your custom type `U`. * * @param converter - Converts objects to and from Firestore. * @returns A `CollectionReference` that uses the provided converter. */ withConverter(converter: FirestoreDataConverter): CollectionReference; /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `CollectionReference` that does not use a * converter. */ withConverter(converter: null): CollectionReference; } declare type CompositeFilterOp = 'OPERATOR_UNSPECIFIED' | 'AND' | 'OR'; declare const enum CompositeOperator { OR = "or", AND = "and" } /** * Modify this instance to communicate with the Cloud Firestore emulator. * * Note: This must be called before this instance has been used to do any * operations. * * @param firestore - The `Firestore` instance to configure to connect to the * emulator. * @param host - the emulator host (ex: localhost). * @param port - the emulator port (ex: 9000). * @param options.mockUserToken - the mock auth token to use for unit testing * Security Rules. */ export declare function connectFirestoreEmulator(firestore: Firestore, host: string, port: number, options?: { mockUserToken?: EmulatorMockTokenOptions | string; }): void; /** * A Listener for credential change events. The listener should fetch a new * token and may need to invalidate other state if the current user has also * changed. */ declare type CredentialChangeListener = (credential: T) => Promise; /** * Provides methods for getting the uid and token for the current user and * listening for changes. */ declare interface CredentialsProvider { /** * Starts the credentials provider and specifies a listener to be notified of * credential changes (sign-in / sign-out, token changes). It is immediately * called once with the initial user. * * The change listener is invoked on the provided AsyncQueue. */ start(asyncQueue: AsyncQueue, changeListener: CredentialChangeListener): void; /** Requests a token for the current user. */ getToken(): Promise; /** * Marks the last retrieved token as invalid, making the next GetToken request * force-refresh the token. */ invalidateToken(): void; shutdown(): void; } /** Settings for private credentials */ declare type CredentialsSettings = FirstPartyCredentialsSettings | ProviderCredentialsSettings; /** * Represents the database ID a Firestore client is associated with. * @internal */ declare class DatabaseId { readonly projectId: string; readonly database: string; constructor(projectId: string, database?: string); static empty(): DatabaseId; get isDefaultDatabase(): boolean; isEqual(other: {}): boolean; } /** * Datastore and its related methods are a wrapper around the external Google * Cloud Datastore grpc API, which provides an interface that is more convenient * for the rest of the client SDK architecture to consume. */ declare abstract class Datastore { abstract terminate(): void; } /** * Represents an operation scheduled to be run in the future on an AsyncQueue. * * It is created via DelayedOperation.createAndSchedule(). * * Supports cancellation (via cancel()) and early execution (via skipDelay()). * * Note: We implement `PromiseLike` instead of `Promise`, as the `Promise` type * in newer versions of TypeScript defines `finally`, which is not available in * IE. */ declare class DelayedOperation implements PromiseLike { private readonly asyncQueue; readonly timerId: TimerId; readonly targetTimeMs: number; private readonly op; private readonly removalCallback; private timerHandle; private readonly deferred; private constructor(); /** * Creates and returns a DelayedOperation that has been scheduled to be * executed on the provided asyncQueue after the provided delayMs. * * @param asyncQueue - The queue to schedule the operation on. * @param id - A Timer ID identifying the type of operation this is. * @param delayMs - The delay (ms) before the operation should be scheduled. * @param op - The operation to run. * @param removalCallback - A callback to be called synchronously once the * operation is executed or canceled, notifying the AsyncQueue to remove it * from its delayedOperations list. * PORTING NOTE: This exists to prevent making removeDelayedOperation() and * the DelayedOperation class public. */ static createAndSchedule(asyncQueue: AsyncQueue, timerId: TimerId, delayMs: number, op: () => Promise, removalCallback: (op: DelayedOperation) => void): DelayedOperation; /** * Starts the timer. This is called immediately after construction by * createAndSchedule(). */ private start; /** * Queues the operation to run immediately (if it hasn't already been run or * canceled). */ skipDelay(): void; /** * Cancels the operation if it hasn't already been executed or canceled. The * promise will be rejected. * * As long as the operation has not yet been run, calling cancel() provides a * guarantee that the operation will not be run. */ cancel(reason?: string): void; then: (onfulfilled?: ((value: T) => TResult1 | PromiseLike) | null | undefined, onrejected?: ((reason: any) => TResult2 | PromiseLike) | null | undefined) => Promise; private handleDelayElapsed; private clearTimeout; } /** * Deletes the document referred to by the specified `DocumentReference`. * * The deletion will only be reflected in document reads that occur after the * returned promise resolves. If the client is offline, the * delete fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the document to delete. * @returns A `Promise` resolved once the document has been successfully * deleted from the backend. */ export declare function deleteDoc(reference: DocumentReference): Promise; /** * Returns a sentinel for use with {@link @firebase/firestore/lite#(updateDoc:1)} or * {@link @firebase/firestore/lite#(setDoc:1)} with `{merge: true}` to mark a field for deletion. */ export declare function deleteField(): FieldValue; /** * The direction of sorting in an order by. */ declare const enum Direction { ASCENDING = "asc", DESCENDING = "desc" } /** * Gets a `DocumentReference` instance that refers to the document at the * specified absolute path. * * @param firestore - A reference to the root `Firestore` instance. * @param path - A slash-separated path to a document. * @param pathSegments - Additional path segments that will be applied relative * to the first argument. * @throws If the final path has an odd number of segments and does not point to * a document. * @returns The `DocumentReference` instance. */ export declare function doc(firestore: Firestore, path: string, ...pathSegments: string[]): DocumentReference; /** * Gets a `DocumentReference` instance that refers to a document within * `reference` at the specified relative path. If no path is specified, an * automatically-generated unique ID will be used for the returned * `DocumentReference`. * * @param reference - A reference to a collection. * @param path - A slash-separated path to a document. Has to be omitted to use * auto-genrated IDs. * @param pathSegments - Additional path segments that will be applied relative * to the first argument. * @throws If the final path has an odd number of segments and does not point to * a document. * @returns The `DocumentReference` instance. */ export declare function doc(reference: CollectionReference, path?: string, ...pathSegments: string[]): DocumentReference; /** * Gets a `DocumentReference` instance that refers to a document within * `reference` at the specified relative path. * * @param reference - A reference to a Firestore document. * @param path - A slash-separated path to a document. * @param pathSegments - Additional path segments that will be applied relative * to the first argument. * @throws If the final path has an odd number of segments and does not point to * a document. * @returns The `DocumentReference` instance. */ export declare function doc(reference: DocumentReference, path: string, ...pathSegments: string[]): DocumentReference; /** * Represents a document in Firestore with a key, version, data and whether the * data has local mutations applied to it. */ declare interface Document_2 { /** The key for this document */ readonly key: DocumentKey; /** * The version of this document if it exists or a version at which this * document was guaranteed to not exist. */ readonly version: SnapshotVersion; /** * The timestamp at which this document was read from the remote server. Uses * `SnapshotVersion.min()` for documents created by the user. */ readonly readTime: SnapshotVersion; /** * The timestamp at which the document was created. This value increases * monotonically when a document is deleted then recreated. It can also be * compared to `createTime` of other documents and the `readTime` of a query. */ readonly createTime: SnapshotVersion; /** The underlying data of this document or an empty value if no data exists. */ readonly data: ObjectValue; /** Returns whether local mutations were applied via the mutation queue. */ readonly hasLocalMutations: boolean; /** Returns whether mutations were applied based on a write acknowledgment. */ readonly hasCommittedMutations: boolean; /** * Whether this document had a local mutation applied that has not yet been * acknowledged by Watch. */ readonly hasPendingWrites: boolean; /** * Returns whether this document is valid (i.e. it is an entry in the * RemoteDocumentCache, was created by a mutation or read from the backend). */ isValidDocument(): boolean; /** * Returns whether the document exists and its data is known at the current * version. */ isFoundDocument(): boolean; /** * Returns whether the document is known to not exist at the current version. */ isNoDocument(): boolean; /** * Returns whether the document exists and its data is unknown at the current * version. */ isUnknownDocument(): boolean; isEqual(other: Document_2 | null | undefined): boolean; /** Creates a mutable copy of this document. */ mutableCopy(): MutableDocument; toString(): string; } /** * Document data (for use with {@link @firebase/firestore/lite#(setDoc:1)}) consists of fields mapped to * values. */ export declare interface DocumentData { /** A mapping between a field and its value. */ [field: string]: any; } /** * Returns a special sentinel `FieldPath` to refer to the ID of a document. * It can be used in queries to sort or filter by the document ID. */ export declare function documentId(): FieldPath; /** * @internal */ declare class DocumentKey { readonly path: ResourcePath; constructor(path: ResourcePath); static fromPath(path: string): DocumentKey; static fromName(name: string): DocumentKey; static empty(): DocumentKey; get collectionGroup(): string; /** Returns true if the document is in the specified collectionId. */ hasCollectionId(collectionId: string): boolean; /** Returns the collection group (i.e. the name of the parent collection) for this key. */ getCollectionGroup(): string; /** Returns the fully qualified path to the parent collection. */ getCollectionPath(): ResourcePath; isEqual(other: DocumentKey | null): boolean; toString(): string; static comparator(k1: DocumentKey, k2: DocumentKey): number; static isDocumentKey(path: ResourcePath): boolean; /** * Creates and returns a new document key with the given segments. * * @param segments - The segments of the path to the document * @returns A new instance of DocumentKey */ static fromSegments(segments: string[]): DocumentKey; } /** * A `DocumentReference` refers to a document location in a Firestore database * and can be used to write, read, or listen to the location. The document at * the referenced location may or may not exist. */ export declare class DocumentReference { /** * If provided, the `FirestoreDataConverter` associated with this instance. */ readonly converter: FirestoreDataConverter | null; readonly _key: DocumentKey; /** The type of this Firestore reference. */ readonly type = "document"; /** * The {@link Firestore} instance the document is in. * This is useful for performing transactions, for example. */ readonly firestore: Firestore; /** @hideconstructor */ constructor(firestore: Firestore, /** * If provided, the `FirestoreDataConverter` associated with this instance. */ converter: FirestoreDataConverter | null, _key: DocumentKey); get _path(): ResourcePath; /** * The document's identifier within its collection. */ get id(): string; /** * A string representing the path of the referenced document (relative * to the root of the database). */ get path(): string; /** * The collection this `DocumentReference` belongs to. */ get parent(): CollectionReference; /** * Applies a custom data converter to this `DocumentReference`, allowing you * to use your own custom model objects with Firestore. When you call {@link * @firebase/firestore/lite#(setDoc:1)}, {@link @firebase/firestore/lite#getDoc}, etc. with the returned `DocumentReference` * instance, the provided converter will convert between Firestore data and * your custom type `U`. * * @param converter - Converts objects to and from Firestore. * @returns A `DocumentReference` that uses the provided converter. */ withConverter(converter: FirestoreDataConverter): DocumentReference; /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `DocumentReference` that does not use a converter. */ withConverter(converter: null): DocumentReference; } /** * A `DocumentSnapshot` contains data read from a document in your Firestore * database. The data can be extracted with `.data()` or `.get()` to * get a specific field. * * For a `DocumentSnapshot` that points to a non-existing document, any data * access will return 'undefined'. You can use the `exists()` method to * explicitly verify a document's existence. */ export declare class DocumentSnapshot { _firestore: Firestore; _userDataWriter: AbstractUserDataWriter; _key: DocumentKey; _document: Document_2 | null; _converter: UntypedFirestoreDataConverter | null; /** @hideconstructor protected */ constructor(_firestore: Firestore, _userDataWriter: AbstractUserDataWriter, _key: DocumentKey, _document: Document_2 | null, _converter: UntypedFirestoreDataConverter | null); /** Property of the `DocumentSnapshot` that provides the document's ID. */ get id(): string; /** * The `DocumentReference` for the document included in the `DocumentSnapshot`. */ get ref(): DocumentReference; /** * Signals whether or not the document at the snapshot's location exists. * * @returns true if the document exists. */ exists(): this is QueryDocumentSnapshot; /** * Retrieves all fields in the document as an `Object`. Returns `undefined` if * the document doesn't exist. * * @returns An `Object` containing all fields in the document or `undefined` * if the document doesn't exist. */ data(): T | undefined; /** * Retrieves the field specified by `fieldPath`. Returns `undefined` if the * document or field doesn't exist. * * @param fieldPath - The path (for example 'foo' or 'foo.bar') to a specific * field. * @returns The data at the specified field location or undefined if no such * field exists in the document. */ get(fieldPath: string | FieldPath): any; } export { EmulatorMockTokenOptions } /** * Creates a {@link QueryEndAtConstraint} that modifies the result set to end at * the provided document (inclusive). The end position is relative to the order * of the query. The document must contain all of the fields provided in the * orderBy of the query. * * @param snapshot - The snapshot of the document to end at. * @returns A {@link QueryEndAtConstraint} to pass to `query()` */ export declare function endAt(snapshot: DocumentSnapshot): QueryEndAtConstraint; /** * Creates a {@link QueryEndAtConstraint} that modifies the result set to end at * the provided fields relative to the order of the query. The order of the field * values must match the order of the order by clauses of the query. * * @param fieldValues - The field values to end this query at, in order * of the query's order by. * @returns A {@link QueryEndAtConstraint} to pass to `query()` */ export declare function endAt(...fieldValues: unknown[]): QueryEndAtConstraint; /** * Creates a {@link QueryEndAtConstraint} that modifies the result set to end * before the provided document (exclusive). The end position is relative to the * order of the query. The document must contain all of the fields provided in * the orderBy of the query. * * @param snapshot - The snapshot of the document to end before. * @returns A {@link QueryEndAtConstraint} to pass to `query()` */ export declare function endBefore(snapshot: DocumentSnapshot): QueryEndAtConstraint; /** * Creates a {@link QueryEndAtConstraint} that modifies the result set to end * before the provided fields relative to the order of the query. The order of * the field values must match the order of the order by clauses of the query. * * @param fieldValues - The field values to end this query before, in order * of the query's order by. * @returns A {@link QueryEndAtConstraint} to pass to `query()` */ export declare function endBefore(...fieldValues: unknown[]): QueryEndAtConstraint; declare class FieldFilter extends Filter { readonly field: FieldPath_2; readonly op: Operator; readonly value: Value; protected constructor(field: FieldPath_2, op: Operator, value: Value); /** * Creates a filter based on the provided arguments. */ static create(field: FieldPath_2, op: Operator, value: Value): FieldFilter; private static createKeyFieldInFilter; matches(doc: Document_2): boolean; protected matchesComparison(comparison: number): boolean; isInequality(): boolean; getFlattenedFilters(): readonly FieldFilter[]; getFilters(): Filter[]; getFirstInequalityField(): FieldPath_2 | null; } declare type FieldFilterOp = 'OPERATOR_UNSPECIFIED' | 'LESS_THAN' | 'LESS_THAN_OR_EQUAL' | 'GREATER_THAN' | 'GREATER_THAN_OR_EQUAL' | 'EQUAL' | 'NOT_EQUAL' | 'ARRAY_CONTAINS' | 'IN' | 'ARRAY_CONTAINS_ANY' | 'NOT_IN'; /** * Provides a set of fields that can be used to partially patch a document. * FieldMask is used in conjunction with ObjectValue. * Examples: * foo - Overwrites foo entirely with the provided value. If foo is not * present in the companion ObjectValue, the field is deleted. * foo.bar - Overwrites only the field bar of the object foo. * If foo is not an object, foo is replaced with an object * containing foo */ declare class FieldMask { readonly fields: FieldPath_2[]; constructor(fields: FieldPath_2[]); static empty(): FieldMask; /** * Returns a new FieldMask object that is the result of adding all the given * fields paths to this field mask. */ unionWith(extraFields: FieldPath_2[]): FieldMask; /** * Verifies that `fieldPath` is included by at least one field in this field * mask. * * This is an O(n) operation, where `n` is the size of the field mask. */ covers(fieldPath: FieldPath_2): boolean; isEqual(other: FieldMask): boolean; } /** * A `FieldPath` refers to a field in a document. The path may consist of a * single field name (referring to a top-level field in the document), or a * list of field names (referring to a nested field in the document). * * Create a `FieldPath` by providing field names. If more than one field * name is provided, the path will point to a nested field in a document. */ export declare class FieldPath { /** Internal representation of a Firestore field path. */ readonly _internalPath: FieldPath_2; /** * Creates a `FieldPath` from the provided field names. If more than one field * name is provided, the path will point to a nested field in a document. * * @param fieldNames - A list of field names. */ constructor(...fieldNames: string[]); /** * Returns true if this `FieldPath` is equal to the provided one. * * @param other - The `FieldPath` to compare against. * @returns true if this `FieldPath` is equal to the provided one. */ isEqual(other: FieldPath): boolean; } /** * A dot-separated path for navigating sub-objects within a document. * @internal */ declare class FieldPath_2 extends BasePath { protected construct(segments: string[], offset?: number, length?: number): FieldPath_2; /** * Returns true if the string could be used as a segment in a field path * without escaping. */ private static isValidIdentifier; canonicalString(): string; toString(): string; /** * Returns true if this field references the key of a document. */ isKeyField(): boolean; /** * The field designating the key of a document. */ static keyField(): FieldPath_2; /** * Parses a field string from the given server-formatted string. * * - Splitting the empty string is not allowed (for now at least). * - Empty segments within the string (e.g. if there are two consecutive * separators) are not allowed. * * TODO(b/37244157): we should make this more strict. Right now, it allows * non-identifier path components, even if they aren't escaped. */ static fromServerFormat(path: string): FieldPath_2; static emptyPath(): FieldPath_2; } /** A field path and the TransformOperation to perform upon it. */ declare class FieldTransform { readonly field: FieldPath_2; readonly transform: TransformOperation; constructor(field: FieldPath_2, transform: TransformOperation); } declare type FieldTransformSetToServerValue = 'SERVER_VALUE_UNSPECIFIED' | 'REQUEST_TIME'; /** * Sentinel values that can be used when writing document fields with `set()` * or `update()`. */ export declare abstract class FieldValue { _methodName: string; /** * @param _methodName - The public API endpoint that returns this class. * @hideconstructor */ constructor(_methodName: string); /** Compares `FieldValue`s for equality. */ abstract isEqual(other: FieldValue): boolean; abstract _toFieldTransform(context: ParseContext): FieldTransform | null; } declare abstract class Filter { abstract matches(doc: Document_2): boolean; abstract getFlattenedFilters(): readonly FieldFilter[]; abstract getFilters(): Filter[]; abstract getFirstInequalityField(): FieldPath_2 | null; } /** * The Cloud Firestore service interface. * * Do not call this constructor directly. Instead, use {@link (getFirestore:1)}. */ export declare class Firestore implements FirestoreService { _authCredentials: CredentialsProvider; _appCheckCredentials: CredentialsProvider; readonly _databaseId: DatabaseId; readonly _app?: FirebaseApp | undefined; /** * Whether it's a Firestore or Firestore Lite instance. */ type: 'firestore-lite' | 'firestore'; readonly _persistenceKey: string; private _settings; private _settingsFrozen; private _terminateTask?; /** @hideconstructor */ constructor(_authCredentials: CredentialsProvider, _appCheckCredentials: CredentialsProvider, _databaseId: DatabaseId, _app?: FirebaseApp | undefined); /** * The {@link @firebase/app#FirebaseApp} associated with this `Firestore` service * instance. */ get app(): FirebaseApp; get _initialized(): boolean; get _terminated(): boolean; _setSettings(settings: PrivateSettings): void; _getSettings(): FirestoreSettingsImpl; _freezeSettings(): FirestoreSettingsImpl; _delete(): Promise; /** Returns a JSON-serializable representation of this `Firestore` instance. */ toJSON(): object; /** * Terminates all components used by this client. Subclasses can override * this method to clean up their own dependencies, but must also call this * method. * * Only ever called once. */ protected _terminate(): Promise; } /** * Converter used by `withConverter()` to transform user objects of type `T` * into Firestore data. * * Using the converter allows you to specify generic type arguments when * storing and retrieving objects from Firestore. * * @example * ```typescript * class Post { * constructor(readonly title: string, readonly author: string) {} * * toString(): string { * return this.title + ', by ' + this.author; * } * } * * const postConverter = { * toFirestore(post: WithFieldValue): DocumentData { * return {title: post.title, author: post.author}; * }, * fromFirestore(snapshot: QueryDocumentSnapshot): Post { * const data = snapshot.data(options)!; * return new Post(data.title, data.author); * } * }; * * const postSnap = await firebase.firestore() * .collection('posts') * .withConverter(postConverter) * .doc().get(); * const post = postSnap.data(); * if (post !== undefined) { * post.title; // string * post.toString(); // Should be defined * post.someNonExistentProperty; // TS error * } * ``` */ export declare interface FirestoreDataConverter { /** * Called by the Firestore SDK to convert a custom model object of type `T` * into a plain Javascript object (suitable for writing directly to the * Firestore database). Used with {@link @firebase/firestore/lite#(setDoc:1)}, {@link @firebase/firestore/lite#(WriteBatch.set:1)} * and {@link @firebase/firestore/lite#(Transaction.set:1)}. * * The `WithFieldValue` type extends `T` to also allow FieldValues such as * {@link (deleteField:1)} to be used as property values. */ toFirestore(modelObject: WithFieldValue): DocumentData; /** * Called by the Firestore SDK to convert a custom model object of type `T` * into a plain Javascript object (suitable for writing directly to the * Firestore database). Used with {@link @firebase/firestore/lite#(setDoc:1)}, {@link @firebase/firestore/lite#(WriteBatch.set:1)} * and {@link @firebase/firestore/lite#(Transaction.set:1)} with `merge:true` or `mergeFields`. * * The `PartialWithFieldValue` type extends `Partial` to allow * FieldValues such as {@link (arrayUnion:1)} to be used as property values. * It also supports nested `Partial` by allowing nested fields to be * omitted. */ toFirestore(modelObject: PartialWithFieldValue, options: SetOptions): DocumentData; /** * Called by the Firestore SDK to convert Firestore data into an object of * type T. You can access your data by calling: `snapshot.data()`. * * @param snapshot - A `QueryDocumentSnapshot` containing your data and * metadata. */ fromFirestore(snapshot: QueryDocumentSnapshot): T; } /** An error returned by a Firestore operation. */ export declare class FirestoreError extends FirebaseError { /** * The backend error code associated with this error. */ readonly code: FirestoreErrorCode; /** * A custom error description. */ readonly message: string; /** The stack of the error. */ readonly stack?: string; /** @hideconstructor */ constructor( /** * The backend error code associated with this error. */ code: FirestoreErrorCode, /** * A custom error description. */ message: string); } /** * The set of Firestore status codes. The codes are the same at the ones * exposed by gRPC here: * https://github.com/grpc/grpc/blob/master/doc/statuscodes.md * * Possible values: * - 'cancelled': The operation was cancelled (typically by the caller). * - 'unknown': Unknown error or an error from a different error domain. * - 'invalid-argument': Client specified an invalid argument. Note that this * differs from 'failed-precondition'. 'invalid-argument' indicates * arguments that are problematic regardless of the state of the system * (e.g. an invalid field name). * - 'deadline-exceeded': Deadline expired before operation could complete. * For operations that change the state of the system, this error may be * returned even if the operation has completed successfully. For example, * a successful response from a server could have been delayed long enough * for the deadline to expire. * - 'not-found': Some requested document was not found. * - 'already-exists': Some document that we attempted to create already * exists. * - 'permission-denied': The caller does not have permission to execute the * specified operation. * - 'resource-exhausted': Some resource has been exhausted, perhaps a * per-user quota, or perhaps the entire file system is out of space. * - 'failed-precondition': Operation was rejected because the system is not * in a state required for the operation's execution. * - 'aborted': The operation was aborted, typically due to a concurrency * issue like transaction aborts, etc. * - 'out-of-range': Operation was attempted past the valid range. * - 'unimplemented': Operation is not implemented or not supported/enabled. * - 'internal': Internal errors. Means some invariants expected by * underlying system has been broken. If you see one of these errors, * something is very broken. * - 'unavailable': The service is currently unavailable. This is most likely * a transient condition and may be corrected by retrying with a backoff. * - 'data-loss': Unrecoverable data loss or corruption. * - 'unauthenticated': The request does not have valid authentication * credentials for the operation. */ export declare type FirestoreErrorCode = 'cancelled' | 'unknown' | 'invalid-argument' | 'deadline-exceeded' | 'not-found' | 'already-exists' | 'permission-denied' | 'resource-exhausted' | 'failed-precondition' | 'aborted' | 'out-of-range' | 'unimplemented' | 'internal' | 'unavailable' | 'data-loss' | 'unauthenticated'; /** * An interface implemented by FirebaseFirestore that provides compatibility * with the usage in this file. * * This interface mainly exists to remove a cyclic dependency. */ declare interface FirestoreService extends _FirebaseService { _authCredentials: CredentialsProvider; _appCheckCredentials: CredentialsProvider; _persistenceKey: string; _databaseId: DatabaseId; _terminated: boolean; _freezeSettings(): FirestoreSettingsImpl; } /** * A concrete type describing all the values that can be applied via a * user-supplied `FirestoreSettings` object. This is a separate type so that * defaults can be supplied and the value can be checked for equality. */ declare class FirestoreSettingsImpl { /** The hostname to connect to. */ readonly host: string; /** Whether to use SSL when connecting. */ readonly ssl: boolean; readonly cacheSizeBytes: number; readonly experimentalForceLongPolling: boolean; readonly experimentalAutoDetectLongPolling: boolean; readonly ignoreUndefinedProperties: boolean; readonly useFetchStreams: boolean; credentials?: any; constructor(settings: PrivateSettings); isEqual(other: FirestoreSettingsImpl): boolean; } declare namespace firestoreV1ApiClientInterfaces { interface ArrayValue { values?: Value[]; } interface BatchGetDocumentsRequest { database?: string; documents?: string[]; mask?: DocumentMask; transaction?: string; newTransaction?: TransactionOptions; readTime?: string; } interface BatchGetDocumentsResponse { found?: Document; missing?: string; transaction?: string; readTime?: string; } interface BeginTransactionRequest { options?: TransactionOptions; } interface BeginTransactionResponse { transaction?: string; } interface CollectionSelector { collectionId?: string; allDescendants?: boolean; } interface CommitRequest { database?: string; writes?: Write[]; transaction?: string; } interface CommitResponse { writeResults?: WriteResult[]; commitTime?: string; } interface CompositeFilter { op?: CompositeFilterOp; filters?: Filter[]; } interface Cursor { values?: Value[]; before?: boolean; } interface Document { name?: string; fields?: ApiClientObjectMap; createTime?: Timestamp_2; updateTime?: Timestamp_2; } interface DocumentChange { document?: Document; targetIds?: number[]; removedTargetIds?: number[]; } interface DocumentDelete { document?: string; removedTargetIds?: number[]; readTime?: Timestamp_2; } interface DocumentMask { fieldPaths?: string[]; } interface DocumentRemove { document?: string; removedTargetIds?: number[]; readTime?: string; } interface DocumentTransform { document?: string; fieldTransforms?: FieldTransform[]; } interface DocumentsTarget { documents?: string[]; } interface Empty { } interface ExistenceFilter { targetId?: number; count?: number; } interface FieldFilter { field?: FieldReference; op?: FieldFilterOp; value?: Value; } interface FieldReference { fieldPath?: string; } interface FieldTransform { fieldPath?: string; setToServerValue?: FieldTransformSetToServerValue; appendMissingElements?: ArrayValue; removeAllFromArray?: ArrayValue; increment?: Value; } interface Filter { compositeFilter?: CompositeFilter; fieldFilter?: FieldFilter; unaryFilter?: UnaryFilter; } interface Index { name?: string; collectionId?: string; fields?: IndexField[]; state?: IndexState; } interface IndexField { fieldPath?: string; mode?: IndexFieldMode; } interface LatLng { latitude?: number; longitude?: number; } interface ListCollectionIdsRequest { pageSize?: number; pageToken?: string; } interface ListCollectionIdsResponse { collectionIds?: string[]; nextPageToken?: string; } interface ListDocumentsResponse { documents?: Document[]; nextPageToken?: string; } interface ListIndexesResponse { indexes?: Index[]; nextPageToken?: string; } interface ListenRequest { addTarget?: Target; removeTarget?: number; labels?: ApiClientObjectMap; } interface ListenResponse { targetChange?: TargetChange; documentChange?: DocumentChange; documentDelete?: DocumentDelete; documentRemove?: DocumentRemove; filter?: ExistenceFilter; } interface MapValue { fields?: ApiClientObjectMap; } interface Operation { name?: string; metadata?: ApiClientObjectMap; done?: boolean; error?: Status; response?: ApiClientObjectMap; } interface Order { field?: FieldReference; direction?: OrderDirection; } interface Precondition { exists?: boolean; updateTime?: Timestamp_2; } interface Projection { fields?: FieldReference[]; } interface QueryTarget { parent?: string; structuredQuery?: StructuredQuery; } interface ReadOnly { readTime?: string; } interface ReadWrite { retryTransaction?: string; } interface RollbackRequest { transaction?: string; } interface RunQueryRequest { parent?: string; structuredQuery?: StructuredQuery; transaction?: string; newTransaction?: TransactionOptions; readTime?: string; } interface RunQueryResponse { transaction?: string; document?: Document; readTime?: string; skippedResults?: number; } interface RunAggregationQueryRequest { parent?: string; structuredAggregationQuery?: StructuredAggregationQuery; transaction?: string; newTransaction?: TransactionOptions; readTime?: string; } interface RunAggregationQueryResponse { result?: AggregationResult; transaction?: string; readTime?: string; } interface AggregationResult { aggregateFields?: ApiClientObjectMap; } interface StructuredAggregationQuery { structuredQuery?: StructuredQuery; aggregations?: Aggregation[]; } interface Aggregation { count?: Count; alias?: string; } interface Count { upTo?: number; } interface Status { code?: number; message?: string; details?: Array>; } interface StructuredQuery { select?: Projection; from?: CollectionSelector[]; where?: Filter; orderBy?: Order[]; startAt?: Cursor; endAt?: Cursor; offset?: number; limit?: number | { value: number; }; } interface Target { query?: QueryTarget; documents?: DocumentsTarget; resumeToken?: string | Uint8Array; readTime?: Timestamp_2; targetId?: number; once?: boolean; } interface TargetChange { targetChangeType?: TargetChangeTargetChangeType; targetIds?: number[]; cause?: Status; resumeToken?: string | Uint8Array; readTime?: Timestamp_2; } interface TransactionOptions { readOnly?: ReadOnly; readWrite?: ReadWrite; } interface UnaryFilter { op?: UnaryFilterOp; field?: FieldReference; } interface Value { nullValue?: ValueNullValue; booleanValue?: boolean; integerValue?: string | number; doubleValue?: string | number; timestampValue?: Timestamp_2; stringValue?: string; bytesValue?: string | Uint8Array; referenceValue?: string; geoPointValue?: LatLng; arrayValue?: ArrayValue; mapValue?: MapValue; } interface Write { update?: Document; delete?: string; verify?: string; transform?: DocumentTransform; updateMask?: DocumentMask; updateTransforms?: FieldTransform[]; currentDocument?: Precondition; } interface WriteRequest { streamId?: string; writes?: Write[]; streamToken?: string | Uint8Array; labels?: ApiClientObjectMap; } interface WriteResponse { streamId?: string; streamToken?: string | Uint8Array; writeResults?: WriteResult[]; commitTime?: Timestamp_2; } interface WriteResult { updateTime?: Timestamp_2; transformResults?: Value[]; } } declare interface FirstPartyCredentialsSettings { ['type']: 'gapi'; ['client']: unknown; ['sessionIndex']: string; ['iamToken']: string | null; ['authTokenFactory']: AuthTokenFactory | null; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An immutable object representing a geographic location in Firestore. The * location is represented as latitude/longitude pair. * * Latitude values are in the range of [-90, 90]. * Longitude values are in the range of [-180, 180]. */ export declare class GeoPoint { private _lat; private _long; /** * Creates a new immutable `GeoPoint` object with the provided latitude and * longitude values. * @param latitude - The latitude as number between -90 and 90. * @param longitude - The longitude as number between -180 and 180. */ constructor(latitude: number, longitude: number); /** * The latitude of this `GeoPoint` instance. */ get latitude(): number; /** * The longitude of this `GeoPoint` instance. */ get longitude(): number; /** * Returns true if this `GeoPoint` is equal to the provided one. * * @param other - The `GeoPoint` to compare against. * @returns true if this `GeoPoint` is equal to the provided one. */ isEqual(other: GeoPoint): boolean; /** Returns a JSON-serializable representation of this GeoPoint. */ toJSON(): { latitude: number; longitude: number; }; /** * Actually private to JS consumers of our API, so this function is prefixed * with an underscore. */ _compareTo(other: GeoPoint): number; } /** * Calculates the number of documents in the result set of the given query, * without actually downloading the documents. * * Using this function to count the documents is efficient because only the * final count, not the documents' data, is downloaded. This function can even * count the documents if the result set would be prohibitively large to * download entirely (e.g. thousands of documents). * * @param query - The query whose result set size to calculate. * @returns A Promise that will be resolved with the count; the count can be * retrieved from `snapshot.data().count`, where `snapshot` is the * `AggregateQuerySnapshot` to which the returned Promise resolves. */ export declare function getCount(query: Query): Promise; }>>; /** * Reads the document referred to by the specified document reference. * * All documents are directly fetched from the server, even if the document was * previously read or modified. Recent modifications are only reflected in the * retrieved `DocumentSnapshot` if they have already been applied by the * backend. If the client is offline, the read fails. If you like to use * caching or see local modifications, please use the full Firestore SDK. * * @param reference - The reference of the document to fetch. * @returns A Promise resolved with a `DocumentSnapshot` containing the current * document contents. */ export declare function getDoc(reference: DocumentReference): Promise>; /** * Executes the query and returns the results as a {@link QuerySnapshot}. * * All queries are executed directly by the server, even if the the query was * previously executed. Recent modifications are only reflected in the retrieved * results if they have already been applied by the backend. If the client is * offline, the operation fails. To see previously cached result and local * modifications, use the full Firestore SDK. * * @param query - The `Query` to execute. * @returns A Promise that will be resolved with the results of the query. */ export declare function getDocs(query: Query): Promise>; /** * Returns the existing default {@link Firestore} instance that is associated with the * default {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new * instance with default settings. * * @returns The {@link Firestore} instance of the provided app. */ export declare function getFirestore(): Firestore; /** * Returns the existing default {@link Firestore} instance that is associated with the * provided {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new * instance with default settings. * * @param app - The {@link @firebase/app#FirebaseApp} instance that the returned {@link Firestore} * instance is associated with. * @returns The {@link Firestore} instance of the provided app. */ export declare function getFirestore(app: FirebaseApp): Firestore; /** * Returns the existing {@link Firestore} instance that is associated with the * default {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new * instance with default settings. * * @param databaseId - The name of database. * @returns The {@link Firestore} instance of the provided app. * @internal */ export declare function getFirestore(databaseId: string): Firestore; /** * Returns the existing {@link Firestore} instance that is associated with the * provided {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new * instance with default settings. * * @param app - The {@link @firebase/app#FirebaseApp} instance that the returned {@link Firestore} * instance is associated with. * @param databaseId - The name of database. * @returns The {@link Firestore} instance of the provided app. * @internal */ export declare function getFirestore(app: FirebaseApp, databaseId: string): Firestore; /** * Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link * @firebase/firestore/lite#(updateDoc:1)} that tells the server to increment the field's current value by * the given value. * * If either the operand or the current field value uses floating point * precision, all arithmetic follows IEEE 754 semantics. If both values are * integers, values outside of JavaScript's safe number range * (`Number.MIN_SAFE_INTEGER` to `Number.MAX_SAFE_INTEGER`) are also subject to * precision loss. Furthermore, once processed by the Firestore backend, all * integer operations are capped between -2^63 and 2^63-1. * * If the current field value is not of type `number`, or if the field does not * yet exist, the transformation sets the field to the given value. * * @param n - The value to increment by. * @returns The `FieldValue` sentinel for use in a call to `setDoc()` or * `updateDoc()` */ export declare function increment(n: number): FieldValue; declare type IndexFieldMode = 'MODE_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING'; declare type IndexState = 'STATE_UNSPECIFIED' | 'CREATING' | 'READY' | 'ERROR'; /** * Initializes a new instance of Cloud Firestore with the provided settings. * Can only be called before any other functions, including * {@link (getFirestore:1)}. If the custom settings are empty, this function is * equivalent to calling {@link (getFirestore:1)}. * * @param app - The {@link @firebase/app#FirebaseApp} with which the `Firestore` instance will * be associated. * @param settings - A settings object to configure the `Firestore` instance. * @returns A newly initialized `Firestore` instance. */ export declare function initializeFirestore(app: FirebaseApp, settings: Settings): Firestore; /** * Initializes a new instance of Cloud Firestore with the provided settings. * Can only be called before any other functions, including * {@link (getFirestore:1)}. If the custom settings are empty, this function is * equivalent to calling {@link (getFirestore:1)}. * * @param app - The {@link @firebase/app#FirebaseApp} with which the `Firestore` instance will * be associated. * @param settings - A settings object to configure the `Firestore` instance. * @param databaseId - The name of database. * @returns A newly initialized `Firestore` instance. * @internal */ export declare function initializeFirestore(app: FirebaseApp, settings: Settings, databaseId?: string): Firestore; /** * Creates a {@link QueryLimitConstraint} that only returns the first matching * documents. * * @param limit - The maximum number of items to return. * @returns The created {@link QueryLimitConstraint}. */ export declare function limit(limit: number): QueryLimitConstraint; /** * Creates a {@link QueryLimitConstraint} that only returns the last matching * documents. * * You must specify at least one `orderBy` clause for `limitToLast` queries, * otherwise an exception will be thrown during execution. * * @param limit - The maximum number of items to return. * @returns The created {@link QueryLimitConstraint}. */ export declare function limitToLast(limit: number): QueryLimitConstraint; declare const enum LimitType { First = "F", Last = "L" } export { LogLevel } declare type MapValue = firestoreV1ApiClientInterfaces.MapValue; /** * Represents a document in Firestore with a key, version, data and whether it * has local mutations applied to it. * * Documents can transition between states via `convertToFoundDocument()`, * `convertToNoDocument()` and `convertToUnknownDocument()`. If a document does * not transition to one of these states even after all mutations have been * applied, `isValidDocument()` returns false and the document should be removed * from all views. */ declare class MutableDocument implements Document_2 { readonly key: DocumentKey; private documentType; version: SnapshotVersion; readTime: SnapshotVersion; createTime: SnapshotVersion; data: ObjectValue; private documentState; private constructor(); /** * Creates a document with no known version or data, but which can serve as * base document for mutations. */ static newInvalidDocument(documentKey: DocumentKey): MutableDocument; /** * Creates a new document that is known to exist with the given data at the * given version. */ static newFoundDocument(documentKey: DocumentKey, version: SnapshotVersion, createTime: SnapshotVersion, value: ObjectValue): MutableDocument; /** Creates a new document that is known to not exist at the given version. */ static newNoDocument(documentKey: DocumentKey, version: SnapshotVersion): MutableDocument; /** * Creates a new document that is known to exist at the given version but * whose data is not known (e.g. a document that was updated without a known * base document). */ static newUnknownDocument(documentKey: DocumentKey, version: SnapshotVersion): MutableDocument; /** * Changes the document type to indicate that it exists and that its version * and data are known. */ convertToFoundDocument(version: SnapshotVersion, value: ObjectValue): MutableDocument; /** * Changes the document type to indicate that it doesn't exist at the given * version. */ convertToNoDocument(version: SnapshotVersion): MutableDocument; /** * Changes the document type to indicate that it exists at a given version but * that its data is not known (e.g. a document that was updated without a known * base document). */ convertToUnknownDocument(version: SnapshotVersion): MutableDocument; setHasCommittedMutations(): MutableDocument; setHasLocalMutations(): MutableDocument; setReadTime(readTime: SnapshotVersion): MutableDocument; get hasLocalMutations(): boolean; get hasCommittedMutations(): boolean; get hasPendingWrites(): boolean; isValidDocument(): boolean; isFoundDocument(): boolean; isNoDocument(): boolean; isUnknownDocument(): boolean; isEqual(other: Document_2 | null | undefined): boolean; mutableCopy(): MutableDocument; toString(): string; } /** * A mutation describes a self-contained change to a document. Mutations can * create, replace, delete, and update subsets of documents. * * Mutations not only act on the value of the document but also its version. * * For local mutations (mutations that haven't been committed yet), we preserve * the existing version for Set and Patch mutations. For Delete mutations, we * reset the version to 0. * * Here's the expected transition table. * * MUTATION APPLIED TO RESULTS IN * * SetMutation Document(v3) Document(v3) * SetMutation NoDocument(v3) Document(v0) * SetMutation InvalidDocument(v0) Document(v0) * PatchMutation Document(v3) Document(v3) * PatchMutation NoDocument(v3) NoDocument(v3) * PatchMutation InvalidDocument(v0) UnknownDocument(v3) * DeleteMutation Document(v3) NoDocument(v0) * DeleteMutation NoDocument(v3) NoDocument(v0) * DeleteMutation InvalidDocument(v0) NoDocument(v0) * * For acknowledged mutations, we use the updateTime of the WriteResponse as * the resulting version for Set and Patch mutations. As deletes have no * explicit update time, we use the commitTime of the WriteResponse for * Delete mutations. * * If a mutation is acknowledged by the backend but fails the precondition check * locally, we transition to an `UnknownDocument` and rely on Watch to send us * the updated version. * * Field transforms are used only with Patch and Set Mutations. We use the * `updateTransforms` message to store transforms, rather than the `transforms`s * messages. * * ## Subclassing Notes * * Every type of mutation needs to implement its own applyToRemoteDocument() and * applyToLocalView() to implement the actual behavior of applying the mutation * to some source document (see `setMutationApplyToRemoteDocument()` for an * example). */ declare abstract class Mutation { abstract readonly type: MutationType; abstract readonly key: DocumentKey; abstract readonly precondition: Precondition; abstract readonly fieldTransforms: FieldTransform[]; /** * Returns a `FieldMask` representing the fields that will be changed by * applying this mutation. Returns `null` if the mutation will overwrite the * entire document. */ abstract getFieldMask(): FieldMask | null; } declare const enum MutationType { Set = 0, Patch = 1, Delete = 2, Verify = 3 } /** * For each field (e.g. 'bar'), find all nested keys (e.g. {'bar.baz': T1, * 'bar.qux': T2}). Intersect them together to make a single map containing * all possible keys that are all marked as optional */ export declare type NestedUpdateFields> = UnionToIntersection<{ [K in keyof T & string]: ChildUpdateFields; }[keyof T & string]>; /** * An ObjectValue represents a MapValue in the Firestore Proto and offers the * ability to add and remove fields (via the ObjectValueBuilder). */ declare class ObjectValue { readonly value: { mapValue: MapValue; }; constructor(value: { mapValue: MapValue; }); static empty(): ObjectValue; /** * Returns the value at the given path or null. * * @param path - the path to search * @returns The value at the path or null if the path is not set. */ field(path: FieldPath_2): Value | null; /** * Sets the field to the provided value. * * @param path - The field path to set. * @param value - The value to set. */ set(path: FieldPath_2, value: Value): void; /** * Sets the provided fields to the provided values. * * @param data - A map of fields to values (or null for deletes). */ setAll(data: Map): void; /** * Removes the field at the specified path. If there is no field at the * specified path, nothing is changed. * * @param path - The field path to remove. */ delete(path: FieldPath_2): void; isEqual(other: ObjectValue): boolean; /** * Returns the map that contains the leaf element of `path`. If the parent * entry does not yet exist, or if it is not a map, a new map will be created. */ private getFieldsMap; /** * Modifies `fieldsMap` by adding, replacing or deleting the specified * entries. */ private applyChanges; clone(): ObjectValue; } declare const enum Operator { LESS_THAN = "<", LESS_THAN_OR_EQUAL = "<=", EQUAL = "==", NOT_EQUAL = "!=", GREATER_THAN = ">", GREATER_THAN_OR_EQUAL = ">=", ARRAY_CONTAINS = "array-contains", IN = "in", NOT_IN = "not-in", ARRAY_CONTAINS_ANY = "array-contains-any" } /** * Creates a new {@link QueryCompositeFilterConstraint} that is a disjunction of * the given filter constraints. A disjunction filter includes a document if it * satisfies any of the given filters. * * @param queryConstraints - Optional. The list of * {@link QueryFilterConstraint}s to perform a disjunction for. These must be * created with calls to {@link where}, {@link or}, or {@link and}. * @returns The newly created {@link QueryCompositeFilterConstraint}. * @internal TODO remove this internal tag with OR Query support in the server */ export declare function or(...queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint; /** * An ordering on a field, in some Direction. Direction defaults to ASCENDING. */ declare class OrderBy { readonly field: FieldPath_2; readonly dir: Direction; constructor(field: FieldPath_2, dir?: Direction); } /** * Creates a {@link QueryOrderByConstraint} that sorts the query result by the * specified field, optionally in descending order instead of ascending. * * Note: Documents that do not contain the specified field will not be present * in the query result. * * @param fieldPath - The field to sort by. * @param directionStr - Optional direction to sort by ('asc' or 'desc'). If * not specified, order will be ascending. * @returns The created {@link QueryOrderByConstraint}. */ export declare function orderBy(fieldPath: string | FieldPath, directionStr?: OrderByDirection): QueryOrderByConstraint; /** * The direction of a {@link orderBy} clause is specified as 'desc' or 'asc' * (descending or ascending). */ export declare type OrderByDirection = 'desc' | 'asc'; declare type OrderDirection = 'DIRECTION_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING'; declare interface ParseContext { readonly databaseId: DatabaseId; readonly ignoreUndefinedProperties: boolean; } /** The result of parsing document data (e.g. for a setData call). */ declare class ParsedSetData { readonly data: ObjectValue; readonly fieldMask: FieldMask | null; readonly fieldTransforms: FieldTransform[]; constructor(data: ObjectValue, fieldMask: FieldMask | null, fieldTransforms: FieldTransform[]); toMutation(key: DocumentKey, precondition: Precondition): Mutation; } /** The result of parsing "update" data (i.e. for an updateData call). */ declare class ParsedUpdateData { readonly data: ObjectValue; readonly fieldMask: FieldMask; readonly fieldTransforms: FieldTransform[]; constructor(data: ObjectValue, fieldMask: FieldMask, fieldTransforms: FieldTransform[]); toMutation(key: DocumentKey, precondition: Precondition): Mutation; } /** * Similar to Typescript's `Partial`, but allows nested fields to be * omitted and FieldValues to be passed in as property values. */ export declare type PartialWithFieldValue = Partial | (T extends Primitive ? T : T extends {} ? { [K in keyof T]?: PartialWithFieldValue | FieldValue; } : never); /** * Encodes a precondition for a mutation. This follows the model that the * backend accepts with the special case of an explicit "empty" precondition * (meaning no precondition). */ declare class Precondition { readonly updateTime?: SnapshotVersion | undefined; readonly exists?: boolean | undefined; private constructor(); /** Creates a new empty Precondition. */ static none(): Precondition; /** Creates a new Precondition with an exists flag. */ static exists(exists: boolean): Precondition; /** Creates a new Precondition based on a version a document exists at. */ static updateTime(version: SnapshotVersion): Precondition; /** Returns whether this Precondition is empty. */ get isNone(): boolean; isEqual(other: Precondition): boolean; } /** * These types primarily exist to support the `UpdateData`, * `WithFieldValue`, and `PartialWithFieldValue` types and are not consumed * directly by the end developer. */ /** Primitive types. */ export declare type Primitive = string | number | boolean | undefined | null; /** Undocumented, private additional settings not exposed in our public API. */ declare interface PrivateSettings extends Settings { credentials?: CredentialsSettings; cacheSizeBytes?: number; experimentalForceLongPolling?: boolean; experimentalAutoDetectLongPolling?: boolean; useFetchStreams?: boolean; } declare interface ProviderCredentialsSettings { ['type']: 'provider'; ['client']: CredentialsProvider; } /** * A `Query` refers to a query which you can read or listen to. You can also * construct refined `Query` objects by adding filters and ordering. */ export declare class Query { /** * If provided, the `FirestoreDataConverter` associated with this instance. */ readonly converter: FirestoreDataConverter | null; readonly _query: Query_2; /** The type of this Firestore reference. */ readonly type: 'query' | 'collection'; /** * The `Firestore` instance for the Firestore database (useful for performing * transactions, etc.). */ readonly firestore: Firestore; /** @hideconstructor protected */ constructor(firestore: Firestore, /** * If provided, the `FirestoreDataConverter` associated with this instance. */ converter: FirestoreDataConverter | null, _query: Query_2); /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `Query` that does not use a converter. */ withConverter(converter: null): Query; /** * Applies a custom data converter to this query, allowing you to use your own * custom model objects with Firestore. When you call {@link getDocs} with * the returned query, the provided converter will convert between Firestore * data and your custom type `U`. * * @param converter - Converts objects to and from Firestore. * @returns A `Query` that uses the provided converter. */ withConverter(converter: FirestoreDataConverter): Query; } /** * Creates a new immutable instance of {@link Query} that is extended to also * include additional query constraints. * * @param query - The {@link Query} instance to use as a base for the new * constraints. * @param compositeFilter - The {@link QueryCompositeFilterConstraint} to * apply. Create {@link QueryCompositeFilterConstraint} using {@link and} or * {@link or}. * @param queryConstraints - Additional {@link QueryNonFilterConstraint}s to * apply (e.g. {@link orderBy}, {@link limit}). * @throws if any of the provided query constraints cannot be combined with the * existing or new constraints. * @internal TODO remove this internal tag with OR Query support in the server */ export declare function query(query: Query, compositeFilter: QueryCompositeFilterConstraint, ...queryConstraints: QueryNonFilterConstraint[]): Query; /** * Creates a new immutable instance of {@link Query} that is extended to also * include additional query constraints. * * @param query - The {@link Query} instance to use as a base for the new * constraints. * @param queryConstraints - The list of {@link QueryConstraint}s to apply. * @throws if any of the provided query constraints cannot be combined with the * existing or new constraints. */ export declare function query(query: Query, ...queryConstraints: QueryConstraint[]): Query; /** * The Query interface defines all external properties of a query. * * QueryImpl implements this interface to provide memoization for `queryOrderBy` * and `queryToTarget`. */ declare interface Query_2 { readonly path: ResourcePath; readonly collectionGroup: string | null; readonly explicitOrderBy: OrderBy[]; readonly filters: Filter[]; readonly limit: number | null; readonly limitType: LimitType; readonly startAt: Bound | null; readonly endAt: Bound | null; } /** * A `QueryCompositeFilterConstraint` is used to narrow the set of documents * returned by a Firestore query by performing the logical OR or AND of multiple * {@link QueryFieldFilterConstraint}s or {@link QueryCompositeFilterConstraint}s. * `QueryCompositeFilterConstraint`s are created by invoking {@link or} or * {@link and} and can then be passed to {@link query} to create a new query * instance that also contains the `QueryCompositeFilterConstraint`. * @internal TODO remove this internal tag with OR Query support in the server */ export declare class QueryCompositeFilterConstraint extends AppliableConstraint { /** The type of this query constraint */ readonly type: 'or' | 'and'; private readonly _queryConstraints; /** * @internal */ protected constructor( /** The type of this query constraint */ type: 'or' | 'and', _queryConstraints: QueryFilterConstraint[]); static _create(type: 'or' | 'and', _queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint; _parse(query: Query): Filter; _apply(query: Query): Query; _getQueryConstraints(): readonly AppliableConstraint[]; _getOperator(): CompositeOperator; } /** * A `QueryConstraint` is used to narrow the set of documents returned by a * Firestore query. `QueryConstraint`s are created by invoking {@link where}, * {@link orderBy}, {@link startAt}, {@link startAfter}, {@link * endBefore}, {@link endAt}, {@link limit}, {@link limitToLast} and * can then be passed to {@link query} to create a new query instance that * also contains this `QueryConstraint`. */ export declare abstract class QueryConstraint extends AppliableConstraint { /** The type of this query constraint */ abstract readonly type: QueryConstraintType; /** * Takes the provided {@link Query} and returns a copy of the {@link Query} with this * {@link AppliableConstraint} applied. */ abstract _apply(query: Query): Query; } /** Describes the different query constraints available in this SDK. */ export declare type QueryConstraintType = 'where' | 'orderBy' | 'limit' | 'limitToLast' | 'startAt' | 'startAfter' | 'endAt' | 'endBefore'; /** * A `QueryDocumentSnapshot` contains data read from a document in your * Firestore database as part of a query. The document is guaranteed to exist * and its data can be extracted with `.data()` or `.get()` to get a * specific field. * * A `QueryDocumentSnapshot` offers the same API surface as a * `DocumentSnapshot`. Since query results contain only existing documents, the * `exists` property will always be true and `data()` will never return * 'undefined'. */ export declare class QueryDocumentSnapshot extends DocumentSnapshot { /** * Retrieves all fields in the document as an `Object`. * * @override * @returns An `Object` containing all fields in the document. */ data(): T; } /** * A `QueryEndAtConstraint` is used to exclude documents from the end of a * result set returned by a Firestore query. * `QueryEndAtConstraint`s are created by invoking {@link (endAt:1)} or * {@link (endBefore:1)} and can then be passed to {@link query} to create a new * query instance that also contains this `QueryEndAtConstraint`. */ export declare class QueryEndAtConstraint extends QueryConstraint { /** The type of this query constraint */ readonly type: 'endBefore' | 'endAt'; private readonly _docOrFields; private readonly _inclusive; /** * @internal */ protected constructor( /** The type of this query constraint */ type: 'endBefore' | 'endAt', _docOrFields: Array>, _inclusive: boolean); static _create(type: 'endBefore' | 'endAt', _docOrFields: Array>, _inclusive: boolean): QueryEndAtConstraint; _apply(query: Query): Query; } /** * Returns true if the provided queries point to the same collection and apply * the same constraints. * * @param left - A `Query` to compare. * @param right - A `Query` to compare. * @returns true if the references point to the same location in the same * Firestore database. */ export declare function queryEqual(left: Query, right: Query): boolean; /** * A `QueryFieldFilterConstraint` is used to narrow the set of documents returned by * a Firestore query by filtering on one or more document fields. * `QueryFieldFilterConstraint`s are created by invoking {@link where} and can then * be passed to {@link query} to create a new query instance that also contains * this `QueryFieldFilterConstraint`. */ export declare class QueryFieldFilterConstraint extends QueryConstraint { private readonly _field; private _op; private _value; /** The type of this query constraint */ readonly type = "where"; /** * @internal */ protected constructor(_field: FieldPath_2, _op: Operator, _value: unknown); static _create(_field: FieldPath_2, _op: Operator, _value: unknown): QueryFieldFilterConstraint; _apply(query: Query): Query; _parse(query: Query): FieldFilter; } /** * `QueryFilterConstraint` is a helper union type that represents * {@link QueryFieldFilterConstraint} and {@link QueryCompositeFilterConstraint}. * `QueryFilterConstraint`s are created by invoking {@link or} or {@link and} * and can then be passed to {@link query} to create a new query instance that * also contains the `QueryConstraint`. * @internal TODO remove this internal tag with OR Query support in the server */ export declare type QueryFilterConstraint = QueryFieldFilterConstraint | QueryCompositeFilterConstraint; /** * A `QueryLimitConstraint` is used to limit the number of documents returned by * a Firestore query. * `QueryLimitConstraint`s are created by invoking {@link limit} or * {@link limitToLast} and can then be passed to {@link query} to create a new * query instance that also contains this `QueryLimitConstraint`. */ export declare class QueryLimitConstraint extends QueryConstraint { /** The type of this query constraint */ readonly type: 'limit' | 'limitToLast'; private readonly _limit; private readonly _limitType; /** * @internal */ protected constructor( /** The type of this query constraint */ type: 'limit' | 'limitToLast', _limit: number, _limitType: LimitType); static _create(type: 'limit' | 'limitToLast', _limit: number, _limitType: LimitType): QueryLimitConstraint; _apply(query: Query): Query; } /** * `QueryNonFilterConstraint` is a helper union type that represents * QueryConstraints which are used to narrow or order the set of documents, * but that do not explicitly filter on a document field. * `QueryNonFilterConstraint`s are created by invoking {@link orderBy}, * {@link startAt}, {@link startAfter}, {@link endBefore}, {@link endAt}, * {@link limit} or {@link limitToLast} and can then be passed to {@link query} * to create a new query instance that also contains the `QueryConstraint`. */ export declare type QueryNonFilterConstraint = QueryOrderByConstraint | QueryLimitConstraint | QueryStartAtConstraint | QueryEndAtConstraint; /** * A `QueryOrderByConstraint` is used to sort the set of documents returned by a * Firestore query. `QueryOrderByConstraint`s are created by invoking * {@link orderBy} and can then be passed to {@link query} to create a new query * instance that also contains this `QueryOrderByConstraint`. * * Note: Documents that do not contain the orderBy field will not be present in * the query result. */ export declare class QueryOrderByConstraint extends QueryConstraint { private readonly _field; private _direction; /** The type of this query constraint */ readonly type = "orderBy"; /** * @internal */ protected constructor(_field: FieldPath_2, _direction: Direction); static _create(_field: FieldPath_2, _direction: Direction): QueryOrderByConstraint; _apply(query: Query): Query; } /** * A `QuerySnapshot` contains zero or more `DocumentSnapshot` objects * representing the results of a query. The documents can be accessed as an * array via the `docs` property or enumerated using the `forEach` method. The * number of documents can be determined via the `empty` and `size` * properties. */ export declare class QuerySnapshot { readonly _docs: Array>; /** * The query on which you called {@link getDocs} in order to get this * `QuerySnapshot`. */ readonly query: Query; /** @hideconstructor */ constructor(_query: Query, _docs: Array>); /** An array of all the documents in the `QuerySnapshot`. */ get docs(): Array>; /** The number of documents in the `QuerySnapshot`. */ get size(): number; /** True if there are no documents in the `QuerySnapshot`. */ get empty(): boolean; /** * Enumerates all of the documents in the `QuerySnapshot`. * * @param callback - A callback to be called with a `QueryDocumentSnapshot` for * each document in the snapshot. * @param thisArg - The `this` binding for the callback. */ forEach(callback: (result: QueryDocumentSnapshot) => void, thisArg?: unknown): void; } /** * A `QueryStartAtConstraint` is used to exclude documents from the start of a * result set returned by a Firestore query. * `QueryStartAtConstraint`s are created by invoking {@link (startAt:1)} or * {@link (startAfter:1)} and can then be passed to {@link query} to create a * new query instance that also contains this `QueryStartAtConstraint`. */ export declare class QueryStartAtConstraint extends QueryConstraint { /** The type of this query constraint */ readonly type: 'startAt' | 'startAfter'; private readonly _docOrFields; private readonly _inclusive; /** * @internal */ protected constructor( /** The type of this query constraint */ type: 'startAt' | 'startAfter', _docOrFields: Array>, _inclusive: boolean); static _create(type: 'startAt' | 'startAfter', _docOrFields: Array>, _inclusive: boolean): QueryStartAtConstraint; _apply(query: Query): Query; } /** * Returns true if the provided references are equal. * * @param left - A reference to compare. * @param right - A reference to compare. * @returns true if the references point to the same location in the same * Firestore database. */ export declare function refEqual(left: DocumentReference | CollectionReference, right: DocumentReference | CollectionReference): boolean; /** * A slash-separated path for navigating resources (documents and collections) * within Firestore. * * @internal */ declare class ResourcePath extends BasePath { protected construct(segments: string[], offset?: number, length?: number): ResourcePath; canonicalString(): string; toString(): string; /** * Creates a resource path from the given slash-delimited string. If multiple * arguments are provided, all components are combined. Leading and trailing * slashes from all components are ignored. */ static fromString(...pathComponents: string[]): ResourcePath; static emptyPath(): ResourcePath; } /** * Executes the given `updateFunction` and then attempts to commit the changes * applied within the transaction. If any document read within the transaction * has changed, Cloud Firestore retries the `updateFunction`. If it fails to * commit after 5 attempts, the transaction fails. * * The maximum number of writes allowed in a single transaction is 500. * * @param firestore - A reference to the Firestore database to run this * transaction against. * @param updateFunction - The function to execute within the transaction * context. * @param options - An options object to configure maximum number of attempts to * commit. * @returns If the transaction completed successfully or was explicitly aborted * (the `updateFunction` returned a failed promise), the promise returned by the * `updateFunction `is returned here. Otherwise, if the transaction failed, a * rejected promise with the corresponding failure error is returned. */ export declare function runTransaction(firestore: Firestore, updateFunction: (transaction: Transaction) => Promise, options?: TransactionOptions): Promise; /** * Returns a sentinel used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link @firebase/firestore/lite#(updateDoc:1)} to * include a server-generated timestamp in the written data. */ export declare function serverTimestamp(): FieldValue; declare type ServerTimestampBehavior = 'estimate' | 'previous' | 'none'; /** * Writes to the document referred to by the specified `DocumentReference`. If * the document does not yet exist, it will be created. * * The result of this write will only be reflected in document reads that occur * after the returned promise resolves. If the client is offline, the * write fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the document to write. * @param data - A map of the fields and values for the document. * @throws Error - If the provided input is not a valid Firestore document. * @returns A `Promise` resolved once the data has been successfully written * to the backend. */ export declare function setDoc(reference: DocumentReference, data: WithFieldValue): Promise; /** * Writes to the document referred to by the specified `DocumentReference`. If * the document does not yet exist, it will be created. If you provide `merge` * or `mergeFields`, the provided data can be merged into an existing document. * * The result of this write will only be reflected in document reads that occur * after the returned promise resolves. If the client is offline, the * write fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the document to write. * @param data - A map of the fields and values for the document. * @param options - An object to configure the set behavior. * @throws Error - If the provided input is not a valid Firestore document. * @returns A `Promise` resolved once the data has been successfully written * to the backend. */ export declare function setDoc(reference: DocumentReference, data: PartialWithFieldValue, options: SetOptions): Promise; /** * Sets the verbosity of Cloud Firestore logs (debug, error, or silent). * * @param logLevel - The verbosity you set for activity and error logging. Can * be any of the following values: * *
    *
  • `debug` for the most verbose logging level, primarily for * debugging.
  • *
  • `error` to log errors only.
  • *
  • `silent` to turn off logging.
  • *
*/ export declare function setLogLevel(logLevel: LogLevel): void; /** * An options object that configures the behavior of {@link @firebase/firestore/lite#(setDoc:1)}, {@link * @firebase/firestore/lite#(WriteBatch.set:1)} and {@link @firebase/firestore/lite#(Transaction.set:1)} calls. These calls can be * configured to perform granular merges instead of overwriting the target * documents in their entirety by providing a `SetOptions` with `merge: true`. * * @param merge - Changes the behavior of a `setDoc()` call to only replace the * values specified in its data argument. Fields omitted from the `setDoc()` * call remain untouched. If your input sets any field to an empty map, all * nested fields are overwritten. * @param mergeFields - Changes the behavior of `setDoc()` calls to only replace * the specified field paths. Any field path that is not specified is ignored * and remains untouched. If your input sets any field to an empty map, all * nested fields are overwritten. */ export declare type SetOptions = { readonly merge?: boolean; } | { readonly mergeFields?: Array; }; /** * Specifies custom configurations for your Cloud Firestore instance. * You must set these before invoking any other methods. */ export declare interface Settings { /** The hostname to connect to. */ host?: string; /** Whether to use SSL when connecting. */ ssl?: boolean; /** * Whether to skip nested properties that are set to `undefined` during * object serialization. If set to `true`, these properties are skipped * and not written to Firestore. If set to `false` or omitted, the SDK * throws an exception when it encounters properties of type `undefined`. */ ignoreUndefinedProperties?: boolean; } /** * Returns true if the provided snapshots are equal. * * @param left - A snapshot to compare. * @param right - A snapshot to compare. * @returns true if the snapshots are equal. */ export declare function snapshotEqual(left: DocumentSnapshot | QuerySnapshot, right: DocumentSnapshot | QuerySnapshot): boolean; /** * A version of a document in Firestore. This corresponds to the version * timestamp, such as update_time or read_time. */ declare class SnapshotVersion { private timestamp; static fromTimestamp(value: Timestamp): SnapshotVersion; static min(): SnapshotVersion; static max(): SnapshotVersion; private constructor(); compareTo(other: SnapshotVersion): number; isEqual(other: SnapshotVersion): boolean; /** Returns a number representation of the version for use in spec tests. */ toMicroseconds(): number; toString(): string; toTimestamp(): Timestamp; } /** * Creates a {@link QueryStartAtConstraint} that modifies the result set to * start after the provided document (exclusive). The starting position is * relative to the order of the query. The document must contain all of the * fields provided in the orderBy of the query. * * @param snapshot - The snapshot of the document to start after. * @returns A {@link QueryStartAtConstraint} to pass to `query()` */ export declare function startAfter(snapshot: DocumentSnapshot): QueryStartAtConstraint; /** * Creates a {@link QueryStartAtConstraint} that modifies the result set to * start after the provided fields relative to the order of the query. The order * of the field values must match the order of the order by clauses of the query. * * @param fieldValues - The field values to start this query after, in order * of the query's order by. * @returns A {@link QueryStartAtConstraint} to pass to `query()` */ export declare function startAfter(...fieldValues: unknown[]): QueryStartAtConstraint; /** * Creates a {@link QueryStartAtConstraint} that modifies the result set to * start at the provided document (inclusive). The starting position is relative * to the order of the query. The document must contain all of the fields * provided in the `orderBy` of this query. * * @param snapshot - The snapshot of the document to start at. * @returns A {@link QueryStartAtConstraint} to pass to `query()`. */ export declare function startAt(snapshot: DocumentSnapshot): QueryStartAtConstraint; /** * Creates a {@link QueryStartAtConstraint} that modifies the result set to * start at the provided fields relative to the order of the query. The order of * the field values must match the order of the order by clauses of the query. * * @param fieldValues - The field values to start this query at, in order * of the query's order by. * @returns A {@link QueryStartAtConstraint} to pass to `query()`. */ export declare function startAt(...fieldValues: unknown[]): QueryStartAtConstraint; declare type TargetChangeTargetChangeType = 'NO_CHANGE' | 'ADD' | 'REMOVE' | 'CURRENT' | 'RESET'; /** * Terminates the provided `Firestore` instance. * * After calling `terminate()` only the `clearIndexedDbPersistence()` functions * may be used. Any other function will throw a `FirestoreError`. Termination * does not cancel any pending writes, and any promises that are awaiting a * response from the server will not be resolved. * * To restart after termination, create a new instance of `Firestore` with * {@link (getFirestore:1)}. * * Note: Under normal circumstances, calling `terminate()` is not required. This * function is useful only when you want to force this instance to release all of * its resources or in combination with {@link clearIndexedDbPersistence} to * ensure that all local state is destroyed between test runs. * * @param firestore - The `Firestore` instance to terminate. * @returns A `Promise` that is resolved when the instance has been successfully * terminated. */ export declare function terminate(firestore: Firestore): Promise; /** * Wellknown "timer" IDs used when scheduling delayed operations on the * AsyncQueue. These IDs can then be used from tests to check for the presence * of operations or to run them early. * * The string values are used when encoding these timer IDs in JSON spec tests. */ declare const enum TimerId { /** All can be used with runDelayedOperationsEarly() to run all timers. */ All = "all", /** * The following 5 timers are used in persistent_stream.ts for the listen and * write streams. The "Idle" timer is used to close the stream due to * inactivity. The "ConnectionBackoff" timer is used to restart a stream once * the appropriate backoff delay has elapsed. The health check is used to mark * a stream healthy if it has not received an error during its initial setup. */ ListenStreamIdle = "listen_stream_idle", ListenStreamConnectionBackoff = "listen_stream_connection_backoff", WriteStreamIdle = "write_stream_idle", WriteStreamConnectionBackoff = "write_stream_connection_backoff", HealthCheckTimeout = "health_check_timeout", /** * A timer used in online_state_tracker.ts to transition from * OnlineState.Unknown to Offline after a set timeout, rather than waiting * indefinitely for success or failure. */ OnlineStateTimeout = "online_state_timeout", /** * A timer used to update the client metadata in IndexedDb, which is used * to determine the primary leaseholder. */ ClientMetadataRefresh = "client_metadata_refresh", /** A timer used to periodically attempt LRU Garbage collection */ LruGarbageCollection = "lru_garbage_collection", /** * A timer used to retry transactions. Since there can be multiple concurrent * transactions, multiple of these may be in the queue at a given time. */ TransactionRetry = "transaction_retry", /** * A timer used to retry operations scheduled via retryable AsyncQueue * operations. */ AsyncQueueRetry = "async_queue_retry", /** * A timer used to periodically attempt index backfill. */ IndexBackfill = "index_backfill" } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A `Timestamp` represents a point in time independent of any time zone or * calendar, represented as seconds and fractions of seconds at nanosecond * resolution in UTC Epoch time. * * It is encoded using the Proleptic Gregorian Calendar which extends the * Gregorian calendar backwards to year one. It is encoded assuming all minutes * are 60 seconds long, i.e. leap seconds are "smeared" so that no leap second * table is needed for interpretation. Range is from 0001-01-01T00:00:00Z to * 9999-12-31T23:59:59.999999999Z. * * For examples and further specifications, refer to the * {@link https://github.com/google/protobuf/blob/master/src/google/protobuf/timestamp.proto | Timestamp definition}. */ export declare class Timestamp { /** * The number of seconds of UTC time since Unix epoch 1970-01-01T00:00:00Z. */ readonly seconds: number; /** * The fractions of a second at nanosecond resolution.* */ readonly nanoseconds: number; /** * Creates a new timestamp with the current date, with millisecond precision. * * @returns a new timestamp representing the current date. */ static now(): Timestamp; /** * Creates a new timestamp from the given date. * * @param date - The date to initialize the `Timestamp` from. * @returns A new `Timestamp` representing the same point in time as the given * date. */ static fromDate(date: Date): Timestamp; /** * Creates a new timestamp from the given number of milliseconds. * * @param milliseconds - Number of milliseconds since Unix epoch * 1970-01-01T00:00:00Z. * @returns A new `Timestamp` representing the same point in time as the given * number of milliseconds. */ static fromMillis(milliseconds: number): Timestamp; /** * Creates a new timestamp. * * @param seconds - The number of seconds of UTC time since Unix epoch * 1970-01-01T00:00:00Z. Must be from 0001-01-01T00:00:00Z to * 9999-12-31T23:59:59Z inclusive. * @param nanoseconds - The non-negative fractions of a second at nanosecond * resolution. Negative second values with fractions must still have * non-negative nanoseconds values that count forward in time. Must be * from 0 to 999,999,999 inclusive. */ constructor( /** * The number of seconds of UTC time since Unix epoch 1970-01-01T00:00:00Z. */ seconds: number, /** * The fractions of a second at nanosecond resolution.* */ nanoseconds: number); /** * Converts a `Timestamp` to a JavaScript `Date` object. This conversion * causes a loss of precision since `Date` objects only support millisecond * precision. * * @returns JavaScript `Date` object representing the same point in time as * this `Timestamp`, with millisecond precision. */ toDate(): Date; /** * Converts a `Timestamp` to a numeric timestamp (in milliseconds since * epoch). This operation causes a loss of precision. * * @returns The point in time corresponding to this timestamp, represented as * the number of milliseconds since Unix epoch 1970-01-01T00:00:00Z. */ toMillis(): number; _compareTo(other: Timestamp): number; /** * Returns true if this `Timestamp` is equal to the provided one. * * @param other - The `Timestamp` to compare against. * @returns true if this `Timestamp` is equal to the provided one. */ isEqual(other: Timestamp): boolean; /** Returns a textual representation of this `Timestamp`. */ toString(): string; /** Returns a JSON-serializable representation of this `Timestamp`. */ toJSON(): { seconds: number; nanoseconds: number; }; /** * Converts this object to a primitive string, which allows `Timestamp` objects * to be compared using the `>`, `<=`, `>=` and `>` operators. */ valueOf(): string; } declare type Timestamp_2 = string | { seconds?: string | number; nanos?: number; }; declare interface Token { /** Type of token. */ type: TokenType; /** * The user with which the token is associated (used for persisting user * state on disk, etc.). * This will be null for Tokens of the type 'AppCheck'. */ user?: User; /** Header values to set for this token */ headers: Map; } declare type TokenType = 'OAuth' | 'FirstParty' | 'AppCheck'; /** * A reference to a transaction. * * The `Transaction` object passed to a transaction's `updateFunction` provides * the methods to read and write data within the transaction context. See * {@link runTransaction}. */ export declare class Transaction { protected readonly _firestore: Firestore; private readonly _transaction; private readonly _dataReader; /** @hideconstructor */ constructor(_firestore: Firestore, _transaction: Transaction_2); /** * Reads the document referenced by the provided {@link DocumentReference}. * * @param documentRef - A reference to the document to be read. * @returns A `DocumentSnapshot` with the read data. */ get(documentRef: DocumentReference): Promise>; /** * Writes to the document referred to by the provided {@link * DocumentReference}. If the document does not exist yet, it will be created. * * @param documentRef - A reference to the document to be set. * @param data - An object of the fields and values for the document. * @throws Error - If the provided input is not a valid Firestore document. * @returns This `Transaction` instance. Used for chaining method calls. */ set(documentRef: DocumentReference, data: WithFieldValue): this; /** * Writes to the document referred to by the provided {@link * DocumentReference}. If the document does not exist yet, it will be created. * If you provide `merge` or `mergeFields`, the provided data can be merged * into an existing document. * * @param documentRef - A reference to the document to be set. * @param data - An object of the fields and values for the document. * @param options - An object to configure the set behavior. * @throws Error - If the provided input is not a valid Firestore document. * @returns This `Transaction` instance. Used for chaining method calls. */ set(documentRef: DocumentReference, data: PartialWithFieldValue, options: SetOptions): this; /** * Updates fields in the document referred to by the provided {@link * DocumentReference}. The update will fail if applied to a document that does * not exist. * * @param documentRef - A reference to the document to be updated. * @param data - An object containing the fields and values with which to * update the document. Fields can contain dots to reference nested fields * within the document. * @throws Error - If the provided input is not valid Firestore data. * @returns This `Transaction` instance. Used for chaining method calls. */ update(documentRef: DocumentReference, data: UpdateData): this; /** * Updates fields in the document referred to by the provided {@link * DocumentReference}. The update will fail if applied to a document that does * not exist. * * Nested fields can be updated by providing dot-separated field path * strings or by providing `FieldPath` objects. * * @param documentRef - A reference to the document to be updated. * @param field - The first field to update. * @param value - The first value. * @param moreFieldsAndValues - Additional key/value pairs. * @throws Error - If the provided input is not valid Firestore data. * @returns This `Transaction` instance. Used for chaining method calls. */ update(documentRef: DocumentReference, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): this; /** * Deletes the document referred to by the provided {@link DocumentReference}. * * @param documentRef - A reference to the document to be deleted. * @returns This `Transaction` instance. Used for chaining method calls. */ delete(documentRef: DocumentReference): this; } /** * Internal transaction object responsible for accumulating the mutations to * perform and the base versions for any documents read. */ declare class Transaction_2 { private datastore; private readVersions; private mutations; private committed; /** * A deferred usage error that occurred previously in this transaction that * will cause the transaction to fail once it actually commits. */ private lastWriteError; /** * Set of documents that have been written in the transaction. * * When there's more than one write to the same key in a transaction, any * writes after the first are handled differently. */ private writtenDocs; constructor(datastore: Datastore); lookup(keys: DocumentKey[]): Promise; set(key: DocumentKey, data: ParsedSetData): void; update(key: DocumentKey, data: ParsedUpdateData): void; delete(key: DocumentKey): void; commit(): Promise; private recordVersion; /** * Returns the version of this document when it was read in this transaction, * as a precondition, or no precondition if it was not read. */ private precondition; /** * Returns the precondition for a document if the operation is an update. */ private preconditionForUpdate; private write; private ensureCommitNotCalled; } /** * @license * Copyright 2022 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Options to customize transaction behavior. */ export declare interface TransactionOptions { /** Maximum number of attempts to commit, after which transaction fails. Default is 5. */ readonly maxAttempts?: number; } /** Used to represent a field transform on a mutation. */ declare class TransformOperation { private _; } declare type UnaryFilterOp = 'OPERATOR_UNSPECIFIED' | 'IS_NAN' | 'IS_NULL' | 'IS_NOT_NAN' | 'IS_NOT_NULL'; /** * Given a union type `U = T1 | T2 | ...`, returns an intersected type * `(T1 & T2 & ...)`. * * Uses distributive conditional types and inference from conditional types. * This works because multiple candidates for the same type variable in * contra-variant positions causes an intersection type to be inferred. * https://www.typescriptlang.org/docs/handbook/advanced-types.html#type-inference-in-conditional-types * https://stackoverflow.com/questions/50374908/transform-union-type-to-intersection-type */ export declare type UnionToIntersection = (U extends unknown ? (k: U) => void : never) extends (k: infer I) => void ? I : never; /** * An untyped Firestore Data Converter interface that is shared between the * lite, firestore-exp and classic SDK. */ declare interface UntypedFirestoreDataConverter { toFirestore(modelObject: WithFieldValue): DocumentData_2; toFirestore(modelObject: PartialWithFieldValue, options: SetOptions_2): DocumentData_2; fromFirestore(snapshot: unknown, options?: unknown): T; } /** * Update data (for use with {@link (updateDoc:1)}) that consists of field paths * (e.g. 'foo' or 'foo.baz') mapped to values. Fields that contain dots * reference nested fields within the document. FieldValues can be passed in * as property values. */ export declare type UpdateData = T extends Primitive ? T : T extends {} ? { [K in keyof T]?: UpdateData | FieldValue; } & NestedUpdateFields : Partial; /** * Updates fields in the document referred to by the specified * `DocumentReference`. The update will fail if applied to a document that does * not exist. * * The result of this update will only be reflected in document reads that occur * after the returned promise resolves. If the client is offline, the * update fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the document to update. * @param data - An object containing the fields and values with which to * update the document. Fields can contain dots to reference nested fields * within the document. * @throws Error - If the provided input is not valid Firestore data. * @returns A `Promise` resolved once the data has been successfully written * to the backend. */ export declare function updateDoc(reference: DocumentReference, data: UpdateData): Promise; /** * Updates fields in the document referred to by the specified * `DocumentReference` The update will fail if applied to a document that does * not exist. * * Nested fields can be updated by providing dot-separated field path * strings or by providing `FieldPath` objects. * * The result of this update will only be reflected in document reads that occur * after the returned promise resolves. If the client is offline, the * update fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @param reference - A reference to the document to update. * @param field - The first field to update. * @param value - The first value. * @param moreFieldsAndValues - Additional key value pairs. * @throws Error - If the provided input is not valid Firestore data. * @returns A `Promise` resolved once the data has been successfully written * to the backend. */ export declare function updateDoc(reference: DocumentReference, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): Promise; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Simple wrapper around a nullable UID. Mostly exists to make code more * readable. */ declare class User { readonly uid: string | null; /** A user with a null UID. */ static readonly UNAUTHENTICATED: User; static readonly GOOGLE_CREDENTIALS: User; static readonly FIRST_PARTY: User; static readonly MOCK_USER: User; constructor(uid: string | null); isAuthenticated(): boolean; /** * Returns a key representing this user, suitable for inclusion in a * dictionary. */ toKey(): string; isEqual(otherUser: User): boolean; } declare type Value = firestoreV1ApiClientInterfaces.Value; declare type ValueNullValue = 'NULL_VALUE'; /** * Creates a {@link QueryFieldFilterConstraint} that enforces that documents * must contain the specified field and that the value should satisfy the * relation constraint provided. * * @param fieldPath - The path to compare * @param opStr - The operation string (e.g "<", "<=", "==", "<", * "<=", "!="). * @param value - The value for comparison * @returns The created {@link QueryFieldFilterConstraint}. */ export declare function where(fieldPath: string | FieldPath, opStr: WhereFilterOp, value: unknown): QueryFieldFilterConstraint; /** * Filter conditions in a {@link where} clause are specified using the * strings '<', '<=', '==', '!=', '>=', '>', 'array-contains', 'in', * 'array-contains-any', and 'not-in'. */ export declare type WhereFilterOp = '<' | '<=' | '==' | '!=' | '>=' | '>' | 'array-contains' | 'in' | 'array-contains-any' | 'not-in'; /** * Allows FieldValues to be passed in as a property value while maintaining * type safety. */ export declare type WithFieldValue = T | (T extends Primitive ? T : T extends {} ? { [K in keyof T]: WithFieldValue | FieldValue; } : never); /** * A write batch, used to perform multiple writes as a single atomic unit. * * A `WriteBatch` object can be acquired by calling {@link writeBatch}. It * provides methods for adding writes to the write batch. None of the writes * will be committed (or visible locally) until {@link WriteBatch.commit} is * called. */ export declare class WriteBatch { private readonly _firestore; private readonly _commitHandler; private readonly _dataReader; private _mutations; private _committed; /** @hideconstructor */ constructor(_firestore: Firestore, _commitHandler: (m: Mutation[]) => Promise); /** * Writes to the document referred to by the provided {@link * DocumentReference}. If the document does not exist yet, it will be created. * * @param documentRef - A reference to the document to be set. * @param data - An object of the fields and values for the document. * @returns This `WriteBatch` instance. Used for chaining method calls. */ set(documentRef: DocumentReference, data: WithFieldValue): WriteBatch; /** * Writes to the document referred to by the provided {@link * DocumentReference}. If the document does not exist yet, it will be created. * If you provide `merge` or `mergeFields`, the provided data can be merged * into an existing document. * * @param documentRef - A reference to the document to be set. * @param data - An object of the fields and values for the document. * @param options - An object to configure the set behavior. * @throws Error - If the provided input is not a valid Firestore document. * @returns This `WriteBatch` instance. Used for chaining method calls. */ set(documentRef: DocumentReference, data: PartialWithFieldValue, options: SetOptions): WriteBatch; /** * Updates fields in the document referred to by the provided {@link * DocumentReference}. The update will fail if applied to a document that does * not exist. * * @param documentRef - A reference to the document to be updated. * @param data - An object containing the fields and values with which to * update the document. Fields can contain dots to reference nested fields * within the document. * @throws Error - If the provided input is not valid Firestore data. * @returns This `WriteBatch` instance. Used for chaining method calls. */ update(documentRef: DocumentReference, data: UpdateData): WriteBatch; /** * Updates fields in the document referred to by this {@link * DocumentReference}. The update will fail if applied to a document that does * not exist. * * Nested fields can be update by providing dot-separated field path strings * or by providing `FieldPath` objects. * * @param documentRef - A reference to the document to be updated. * @param field - The first field to update. * @param value - The first value. * @param moreFieldsAndValues - Additional key value pairs. * @throws Error - If the provided input is not valid Firestore data. * @returns This `WriteBatch` instance. Used for chaining method calls. */ update(documentRef: DocumentReference, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): WriteBatch; /** * Deletes the document referred to by the provided {@link DocumentReference}. * * @param documentRef - A reference to the document to be deleted. * @returns This `WriteBatch` instance. Used for chaining method calls. */ delete(documentRef: DocumentReference): WriteBatch; /** * Commits all of the writes in this write batch as a single atomic unit. * * The result of these writes will only be reflected in document reads that * occur after the returned promise resolves. If the client is offline, the * write fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @returns A `Promise` resolved once all of the writes in the batch have been * successfully written to the backend as an atomic unit (note that it won't * resolve while you're offline). */ commit(): Promise; private _verifyNotCommitted; } /** * Creates a write batch, used for performing multiple writes as a single * atomic operation. The maximum number of writes allowed in a single WriteBatch * is 500. * * The result of these writes will only be reflected in document reads that * occur after the returned promise resolves. If the client is offline, the * write fails. If you would like to see local modifications or buffer writes * until the client is online, use the full Firestore SDK. * * @returns A `WriteBatch` that can be used to atomically execute multiple * writes. */ export declare function writeBatch(firestore: Firestore): WriteBatch; export { }