import firebase from '@firebase/app-compat'; import { FirestoreError, Bytes, _isBase64Available, enableIndexedDbPersistence, enableMultiTabIndexedDbPersistence, clearIndexedDbPersistence, _DatabaseId, _logWarn, connectFirestoreEmulator, enableNetwork, disableNetwork, _validateIsNotUsedTogether, waitForPendingWrites, onSnapshotsInSync, collection, doc, collectionGroup, runTransaction, ensureFirestoreConfigured, WriteBatch as WriteBatch$1, executeWrite, loadBundle, namedQuery, DocumentSnapshot as DocumentSnapshot$1, DocumentReference as DocumentReference$1, _DocumentKey, refEqual, setDoc, updateDoc, deleteDoc, onSnapshot, getDocFromCache, getDocFromServer, getDoc, snapshotEqual, query, where, orderBy, limit, limitToLast, startAt, startAfter, endBefore, endAt, queryEqual, getDocsFromCache, getDocsFromServer, getDocs, QuerySnapshot as QuerySnapshot$1, addDoc, _cast, AbstractUserDataWriter, setLogLevel as setLogLevel$1, QueryDocumentSnapshot as QueryDocumentSnapshot$1, _debugAssert, FieldPath as FieldPath$1, _FieldPath, serverTimestamp, deleteField, arrayUnion, arrayRemove, increment, GeoPoint, Timestamp, CACHE_SIZE_UNLIMITED } from '@firebase/firestore'; import { getModularInstance } from '@firebase/util'; import { Component } from '@firebase/component'; const name = "@firebase/firestore-compat"; const version = "0.3.25"; /** * @license * Copyright 2021 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. */ function validateSetOptions(methodName, options) { if (options === undefined) { return { merge: false }; } if (options.mergeFields !== undefined && options.merge !== undefined) { throw new FirestoreError('invalid-argument', `Invalid options passed to function ${methodName}(): You cannot ` + 'specify both "merge" and "mergeFields".'); } return options; } /** * @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. */ /** Helper function to assert Uint8Array is available at runtime. */ function assertUint8ArrayAvailable() { if (typeof Uint8Array === 'undefined') { throw new FirestoreError('unimplemented', 'Uint8Arrays are not available in this environment.'); } } /** Helper function to assert Base64 functions are available at runtime. */ function assertBase64Available() { if (!_isBase64Available()) { throw new FirestoreError('unimplemented', 'Blobs are unavailable in Firestore in this environment.'); } } /** Immutable class holding a blob (binary data) */ class Blob { constructor(_delegate) { this._delegate = _delegate; } static fromBase64String(base64) { assertBase64Available(); return new Blob(Bytes.fromBase64String(base64)); } static fromUint8Array(array) { assertUint8ArrayAvailable(); return new Blob(Bytes.fromUint8Array(array)); } toBase64() { assertBase64Available(); return this._delegate.toBase64(); } toUint8Array() { assertUint8ArrayAvailable(); return this._delegate.toUint8Array(); } isEqual(other) { return this._delegate.isEqual(other._delegate); } toString() { return 'Blob(base64: ' + this.toBase64() + ')'; } } /** * @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. */ function isPartialObserver(obj) { return implementsAnyMethods(obj, ['next', 'error', 'complete']); } /** * Returns true if obj is an object and contains at least one of the specified * methods. */ function implementsAnyMethods(obj, methods) { if (typeof obj !== 'object' || obj === null) { return false; } const object = obj; for (const method of methods) { if (method in object && typeof object[method] === 'function') { return true; } } return false; } /** * @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. */ /** * The persistence provider included with the full Firestore SDK. */ class IndexedDbPersistenceProvider { enableIndexedDbPersistence(firestore, forceOwnership) { return enableIndexedDbPersistence(firestore._delegate, { forceOwnership }); } enableMultiTabIndexedDbPersistence(firestore) { return enableMultiTabIndexedDbPersistence(firestore._delegate); } clearIndexedDbPersistence(firestore) { return clearIndexedDbPersistence(firestore._delegate); } } /** * Compat class for Firestore. Exposes Firestore Legacy API, but delegates * to the functional API of firestore-exp. */ class Firestore { constructor(databaseIdOrApp, _delegate, _persistenceProvider) { this._delegate = _delegate; this._persistenceProvider = _persistenceProvider; this.INTERNAL = { delete: () => this.terminate() }; if (!(databaseIdOrApp instanceof _DatabaseId)) { this._appCompat = databaseIdOrApp; } } get _databaseId() { return this._delegate._databaseId; } settings(settingsLiteral) { const currentSettings = this._delegate._getSettings(); if (!settingsLiteral.merge && currentSettings.host !== settingsLiteral.host) { _logWarn('You are overriding the original host. If you did not intend ' + 'to override your settings, use {merge: true}.'); } if (settingsLiteral.merge) { settingsLiteral = Object.assign(Object.assign({}, currentSettings), settingsLiteral); // Remove the property from the settings once the merge is completed delete settingsLiteral.merge; } this._delegate._setSettings(settingsLiteral); } useEmulator(host, port, options = {}) { connectFirestoreEmulator(this._delegate, host, port, options); } enableNetwork() { return enableNetwork(this._delegate); } disableNetwork() { return disableNetwork(this._delegate); } enablePersistence(settings) { let synchronizeTabs = false; let experimentalForceOwningTab = false; if (settings) { synchronizeTabs = !!settings.synchronizeTabs; experimentalForceOwningTab = !!settings.experimentalForceOwningTab; _validateIsNotUsedTogether('synchronizeTabs', synchronizeTabs, 'experimentalForceOwningTab', experimentalForceOwningTab); } return synchronizeTabs ? this._persistenceProvider.enableMultiTabIndexedDbPersistence(this) : this._persistenceProvider.enableIndexedDbPersistence(this, experimentalForceOwningTab); } clearPersistence() { return this._persistenceProvider.clearIndexedDbPersistence(this); } terminate() { if (this._appCompat) { this._appCompat._removeServiceInstance('firestore-compat'); this._appCompat._removeServiceInstance('firestore'); } return this._delegate._delete(); } waitForPendingWrites() { return waitForPendingWrites(this._delegate); } onSnapshotsInSync(arg) { return onSnapshotsInSync(this._delegate, arg); } get app() { if (!this._appCompat) { throw new FirestoreError('failed-precondition', "Firestore was not initialized using the Firebase SDK. 'app' is " + 'not available'); } return this._appCompat; } collection(pathString) { try { return new CollectionReference(this, collection(this._delegate, pathString)); } catch (e) { throw replaceFunctionName(e, 'collection()', 'Firestore.collection()'); } } doc(pathString) { try { return new DocumentReference(this, doc(this._delegate, pathString)); } catch (e) { throw replaceFunctionName(e, 'doc()', 'Firestore.doc()'); } } collectionGroup(collectionId) { try { return new Query(this, collectionGroup(this._delegate, collectionId)); } catch (e) { throw replaceFunctionName(e, 'collectionGroup()', 'Firestore.collectionGroup()'); } } runTransaction(updateFunction) { return runTransaction(this._delegate, transaction => updateFunction(new Transaction(this, transaction))); } batch() { ensureFirestoreConfigured(this._delegate); return new WriteBatch(new WriteBatch$1(this._delegate, mutations => executeWrite(this._delegate, mutations))); } loadBundle(bundleData) { return loadBundle(this._delegate, bundleData); } namedQuery(name) { return namedQuery(this._delegate, name).then(expQuery => { if (!expQuery) { return null; } return new Query(this, // We can pass `expQuery` here directly since named queries don't have a UserDataConverter. // Otherwise, we would have to create a new ExpQuery and pass the old UserDataConverter. expQuery); }); } } class UserDataWriter extends AbstractUserDataWriter { constructor(firestore) { super(); this.firestore = firestore; } convertBytes(bytes) { return new Blob(new Bytes(bytes)); } convertReference(name) { const key = this.convertDocumentKey(name, this.firestore._databaseId); return DocumentReference.forKey(key, this.firestore, /* converter= */ null); } } function setLogLevel(level) { setLogLevel$1(level); } /** * A reference to a transaction. */ class Transaction { constructor(_firestore, _delegate) { this._firestore = _firestore; this._delegate = _delegate; this._userDataWriter = new UserDataWriter(_firestore); } get(documentRef) { const ref = castReference(documentRef); return this._delegate .get(ref) .then(result => new DocumentSnapshot(this._firestore, new DocumentSnapshot$1(this._firestore._delegate, this._userDataWriter, result._key, result._document, result.metadata, ref.converter))); } set(documentRef, data, options) { const ref = castReference(documentRef); if (options) { validateSetOptions('Transaction.set', options); this._delegate.set(ref, data, options); } else { this._delegate.set(ref, data); } return this; } update(documentRef, dataOrField, value, ...moreFieldsAndValues) { const ref = castReference(documentRef); if (arguments.length === 2) { this._delegate.update(ref, dataOrField); } else { this._delegate.update(ref, dataOrField, value, ...moreFieldsAndValues); } return this; } delete(documentRef) { const ref = castReference(documentRef); this._delegate.delete(ref); return this; } } class WriteBatch { constructor(_delegate) { this._delegate = _delegate; } set(documentRef, data, options) { const ref = castReference(documentRef); if (options) { validateSetOptions('WriteBatch.set', options); this._delegate.set(ref, data, options); } else { this._delegate.set(ref, data); } return this; } update(documentRef, dataOrField, value, ...moreFieldsAndValues) { const ref = castReference(documentRef); if (arguments.length === 2) { this._delegate.update(ref, dataOrField); } else { this._delegate.update(ref, dataOrField, value, ...moreFieldsAndValues); } return this; } delete(documentRef) { const ref = castReference(documentRef); this._delegate.delete(ref); return this; } commit() { return this._delegate.commit(); } } /** * Wraps a `PublicFirestoreDataConverter` translating the types from the * experimental SDK into corresponding types from the Classic SDK before passing * them to the wrapped converter. */ class FirestoreDataConverter { constructor(_firestore, _userDataWriter, _delegate) { this._firestore = _firestore; this._userDataWriter = _userDataWriter; this._delegate = _delegate; } fromFirestore(snapshot, options) { const expSnapshot = new QueryDocumentSnapshot$1(this._firestore._delegate, this._userDataWriter, snapshot._key, snapshot._document, snapshot.metadata, /* converter= */ null); return this._delegate.fromFirestore(new QueryDocumentSnapshot(this._firestore, expSnapshot), options !== null && options !== void 0 ? options : {}); } toFirestore(modelObject, options) { if (!options) { return this._delegate.toFirestore(modelObject); } else { return this._delegate.toFirestore(modelObject, options); } } // Use the same instance of `FirestoreDataConverter` for the given instances // of `Firestore` and `PublicFirestoreDataConverter` so that isEqual() will // compare equal for two objects created with the same converter instance. static getInstance(firestore, converter) { const converterMapByFirestore = FirestoreDataConverter.INSTANCES; let untypedConverterByConverter = converterMapByFirestore.get(firestore); if (!untypedConverterByConverter) { untypedConverterByConverter = new WeakMap(); converterMapByFirestore.set(firestore, untypedConverterByConverter); } let instance = untypedConverterByConverter.get(converter); if (!instance) { instance = new FirestoreDataConverter(firestore, new UserDataWriter(firestore), converter); untypedConverterByConverter.set(converter, instance); } return instance; } } FirestoreDataConverter.INSTANCES = new WeakMap(); /** * A reference to a particular document in a collection in the database. */ class DocumentReference { constructor(firestore, _delegate) { this.firestore = firestore; this._delegate = _delegate; this._userDataWriter = new UserDataWriter(firestore); } static forPath(path, firestore, converter) { if (path.length % 2 !== 0) { throw new FirestoreError('invalid-argument', 'Invalid document reference. Document ' + 'references must have an even number of segments, but ' + `${path.canonicalString()} has ${path.length}`); } return new DocumentReference(firestore, new DocumentReference$1(firestore._delegate, converter, new _DocumentKey(path))); } static forKey(key, firestore, converter) { return new DocumentReference(firestore, new DocumentReference$1(firestore._delegate, converter, key)); } get id() { return this._delegate.id; } get parent() { return new CollectionReference(this.firestore, this._delegate.parent); } get path() { return this._delegate.path; } collection(pathString) { try { return new CollectionReference(this.firestore, collection(this._delegate, pathString)); } catch (e) { throw replaceFunctionName(e, 'collection()', 'DocumentReference.collection()'); } } isEqual(other) { other = getModularInstance(other); if (!(other instanceof DocumentReference$1)) { return false; } return refEqual(this._delegate, other); } set(value, options) { options = validateSetOptions('DocumentReference.set', options); try { if (options) { return setDoc(this._delegate, value, options); } else { return setDoc(this._delegate, value); } } catch (e) { throw replaceFunctionName(e, 'setDoc()', 'DocumentReference.set()'); } } update(fieldOrUpdateData, value, ...moreFieldsAndValues) { try { if (arguments.length === 1) { return updateDoc(this._delegate, fieldOrUpdateData); } else { return updateDoc(this._delegate, fieldOrUpdateData, value, ...moreFieldsAndValues); } } catch (e) { throw replaceFunctionName(e, 'updateDoc()', 'DocumentReference.update()'); } } delete() { return deleteDoc(this._delegate); } onSnapshot(...args) { const options = extractSnapshotOptions(args); const observer = wrapObserver(args, result => new DocumentSnapshot(this.firestore, new DocumentSnapshot$1(this.firestore._delegate, this._userDataWriter, result._key, result._document, result.metadata, this._delegate.converter))); return onSnapshot(this._delegate, options, observer); } get(options) { let snap; if ((options === null || options === void 0 ? void 0 : options.source) === 'cache') { snap = getDocFromCache(this._delegate); } else if ((options === null || options === void 0 ? void 0 : options.source) === 'server') { snap = getDocFromServer(this._delegate); } else { snap = getDoc(this._delegate); } return snap.then(result => new DocumentSnapshot(this.firestore, new DocumentSnapshot$1(this.firestore._delegate, this._userDataWriter, result._key, result._document, result.metadata, this._delegate.converter))); } withConverter(converter) { return new DocumentReference(this.firestore, converter ? this._delegate.withConverter(FirestoreDataConverter.getInstance(this.firestore, converter)) : this._delegate.withConverter(null)); } } /** * Replaces the function name in an error thrown by the firestore-exp API * with the function names used in the classic API. */ function replaceFunctionName(e, original, updated) { e.message = e.message.replace(original, updated); return e; } /** * Iterates the list of arguments from an `onSnapshot` call and returns the * first argument that may be an `SnapshotListenOptions` object. Returns an * empty object if none is found. */ function extractSnapshotOptions(args) { for (const arg of args) { if (typeof arg === 'object' && !isPartialObserver(arg)) { return arg; } } return {}; } /** * Creates an observer that can be passed to the firestore-exp SDK. The * observer converts all observed values into the format expected by the classic * SDK. * * @param args - The list of arguments from an `onSnapshot` call. * @param wrapper - The function that converts the firestore-exp type into the * type used by this shim. */ function wrapObserver(args, wrapper) { var _a, _b; let userObserver; if (isPartialObserver(args[0])) { userObserver = args[0]; } else if (isPartialObserver(args[1])) { userObserver = args[1]; } else if (typeof args[0] === 'function') { userObserver = { next: args[0], error: args[1], complete: args[2] }; } else { userObserver = { next: args[1], error: args[2], complete: args[3] }; } return { next: val => { if (userObserver.next) { userObserver.next(wrapper(val)); } }, error: (_a = userObserver.error) === null || _a === void 0 ? void 0 : _a.bind(userObserver), complete: (_b = userObserver.complete) === null || _b === void 0 ? void 0 : _b.bind(userObserver) }; } class DocumentSnapshot { constructor(_firestore, _delegate) { this._firestore = _firestore; this._delegate = _delegate; } get ref() { return new DocumentReference(this._firestore, this._delegate.ref); } get id() { return this._delegate.id; } get metadata() { return this._delegate.metadata; } get exists() { return this._delegate.exists(); } data(options) { return this._delegate.data(options); } get(fieldPath, options // We are using `any` here to avoid an explicit cast by our users. // eslint-disable-next-line @typescript-eslint/no-explicit-any ) { return this._delegate.get(fieldPath, options); } isEqual(other) { return snapshotEqual(this._delegate, other._delegate); } } class QueryDocumentSnapshot extends DocumentSnapshot { data(options) { const data = this._delegate.data(options); if (this._delegate._converter) { // Undefined is a possible valid value from converter. return data; } else { _debugAssert(data !== undefined, 'Document in a QueryDocumentSnapshot should exist'); return data; } } } class Query { constructor(firestore, _delegate) { this.firestore = firestore; this._delegate = _delegate; this._userDataWriter = new UserDataWriter(firestore); } where(fieldPath, opStr, value) { try { // The "as string" cast is a little bit of a hack. `where` accepts the // FieldPath Compat type as input, but is not typed as such in order to // not expose this via our public typings file. return new Query(this.firestore, query(this._delegate, where(fieldPath, opStr, value))); } catch (e) { throw replaceFunctionName(e, /(orderBy|where)\(\)/, 'Query.$1()'); } } orderBy(fieldPath, directionStr) { try { // The "as string" cast is a little bit of a hack. `orderBy` accepts the // FieldPath Compat type as input, but is not typed as such in order to // not expose this via our public typings file. return new Query(this.firestore, query(this._delegate, orderBy(fieldPath, directionStr))); } catch (e) { throw replaceFunctionName(e, /(orderBy|where)\(\)/, 'Query.$1()'); } } limit(n) { try { return new Query(this.firestore, query(this._delegate, limit(n))); } catch (e) { throw replaceFunctionName(e, 'limit()', 'Query.limit()'); } } limitToLast(n) { try { return new Query(this.firestore, query(this._delegate, limitToLast(n))); } catch (e) { throw replaceFunctionName(e, 'limitToLast()', 'Query.limitToLast()'); } } startAt(...args) { try { return new Query(this.firestore, query(this._delegate, startAt(...args))); } catch (e) { throw replaceFunctionName(e, 'startAt()', 'Query.startAt()'); } } startAfter(...args) { try { return new Query(this.firestore, query(this._delegate, startAfter(...args))); } catch (e) { throw replaceFunctionName(e, 'startAfter()', 'Query.startAfter()'); } } endBefore(...args) { try { return new Query(this.firestore, query(this._delegate, endBefore(...args))); } catch (e) { throw replaceFunctionName(e, 'endBefore()', 'Query.endBefore()'); } } endAt(...args) { try { return new Query(this.firestore, query(this._delegate, endAt(...args))); } catch (e) { throw replaceFunctionName(e, 'endAt()', 'Query.endAt()'); } } isEqual(other) { return queryEqual(this._delegate, other._delegate); } get(options) { let query; if ((options === null || options === void 0 ? void 0 : options.source) === 'cache') { query = getDocsFromCache(this._delegate); } else if ((options === null || options === void 0 ? void 0 : options.source) === 'server') { query = getDocsFromServer(this._delegate); } else { query = getDocs(this._delegate); } return query.then(result => new QuerySnapshot(this.firestore, new QuerySnapshot$1(this.firestore._delegate, this._userDataWriter, this._delegate, result._snapshot))); } onSnapshot(...args) { const options = extractSnapshotOptions(args); const observer = wrapObserver(args, snap => new QuerySnapshot(this.firestore, new QuerySnapshot$1(this.firestore._delegate, this._userDataWriter, this._delegate, snap._snapshot))); return onSnapshot(this._delegate, options, observer); } withConverter(converter) { return new Query(this.firestore, converter ? this._delegate.withConverter(FirestoreDataConverter.getInstance(this.firestore, converter)) : this._delegate.withConverter(null)); } } class DocumentChange { constructor(_firestore, _delegate) { this._firestore = _firestore; this._delegate = _delegate; } get type() { return this._delegate.type; } get doc() { return new QueryDocumentSnapshot(this._firestore, this._delegate.doc); } get oldIndex() { return this._delegate.oldIndex; } get newIndex() { return this._delegate.newIndex; } } class QuerySnapshot { constructor(_firestore, _delegate) { this._firestore = _firestore; this._delegate = _delegate; } get query() { return new Query(this._firestore, this._delegate.query); } get metadata() { return this._delegate.metadata; } get size() { return this._delegate.size; } get empty() { return this._delegate.empty; } get docs() { return this._delegate.docs.map(doc => new QueryDocumentSnapshot(this._firestore, doc)); } docChanges(options) { return this._delegate .docChanges(options) .map(docChange => new DocumentChange(this._firestore, docChange)); } forEach(callback, thisArg) { this._delegate.forEach(snapshot => { callback.call(thisArg, new QueryDocumentSnapshot(this._firestore, snapshot)); }); } isEqual(other) { return snapshotEqual(this._delegate, other._delegate); } } class CollectionReference extends Query { constructor(firestore, _delegate) { super(firestore, _delegate); this.firestore = firestore; this._delegate = _delegate; } get id() { return this._delegate.id; } get path() { return this._delegate.path; } get parent() { const docRef = this._delegate.parent; return docRef ? new DocumentReference(this.firestore, docRef) : null; } doc(documentPath) { try { if (documentPath === undefined) { // Call `doc` without `documentPath` if `documentPath` is `undefined` // as `doc` validates the number of arguments to prevent users from // accidentally passing `undefined`. return new DocumentReference(this.firestore, doc(this._delegate)); } else { return new DocumentReference(this.firestore, doc(this._delegate, documentPath)); } } catch (e) { throw replaceFunctionName(e, 'doc()', 'CollectionReference.doc()'); } } add(data) { return addDoc(this._delegate, data).then(docRef => new DocumentReference(this.firestore, docRef)); } isEqual(other) { return refEqual(this._delegate, other._delegate); } withConverter(converter) { return new CollectionReference(this.firestore, converter ? this._delegate.withConverter(FirestoreDataConverter.getInstance(this.firestore, converter)) : this._delegate.withConverter(null)); } } function castReference(documentRef) { return _cast(documentRef, DocumentReference$1); } /** * @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. */ // The objects that are a part of this API are exposed to third-parties as // compiled javascript so we want to flag our private members with a leading // underscore to discourage their use. /** * 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). */ class FieldPath { /** * 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) { this._delegate = new FieldPath$1(...fieldNames); } static documentId() { /** * Internal Note: The backend doesn't technically support querying by * document ID. Instead it queries by the entire document name (full path * included), but in the cases we currently support documentId(), the net * effect is the same. */ return new FieldPath(_FieldPath.keyField().canonicalString()); } isEqual(other) { other = getModularInstance(other); if (!(other instanceof FieldPath$1)) { return false; } return this._delegate._internalPath.isEqual(other._internalPath); } } /** * @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. */ class FieldValue { constructor(_delegate) { this._delegate = _delegate; } static serverTimestamp() { const delegate = serverTimestamp(); delegate._methodName = 'FieldValue.serverTimestamp'; return new FieldValue(delegate); } static delete() { const delegate = deleteField(); delegate._methodName = 'FieldValue.delete'; return new FieldValue(delegate); } static arrayUnion(...elements) { const delegate = arrayUnion(...elements); delegate._methodName = 'FieldValue.arrayUnion'; return new FieldValue(delegate); } static arrayRemove(...elements) { const delegate = arrayRemove(...elements); delegate._methodName = 'FieldValue.arrayRemove'; return new FieldValue(delegate); } static increment(n) { const delegate = increment(n); delegate._methodName = 'FieldValue.increment'; return new FieldValue(delegate); } isEqual(other) { return this._delegate.isEqual(other._delegate); } } /** * @license * Copyright 2021 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. */ const firestoreNamespace = { Firestore, GeoPoint, Timestamp, Blob, Transaction, WriteBatch, DocumentReference, DocumentSnapshot, Query, QueryDocumentSnapshot, QuerySnapshot, CollectionReference, FieldPath, FieldValue, setLogLevel, CACHE_SIZE_UNLIMITED }; /** * Configures Firestore as part of the Firebase SDK by calling registerComponent. * * @param firebase - The FirebaseNamespace to register Firestore with * @param firestoreFactory - A factory function that returns a new Firestore * instance. */ function configureForFirebase(firebase, firestoreFactory) { firebase.INTERNAL.registerComponent(new Component('firestore-compat', container => { const app = container.getProvider('app-compat').getImmediate(); const firestoreExp = container.getProvider('firestore').getImmediate(); return firestoreFactory(app, firestoreExp); }, 'PUBLIC').setServiceProps(Object.assign({}, firestoreNamespace))); } /** * @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. */ /** * Registers the main Firestore build with the components framework. * Persistence can be enabled via `firebase.firestore().enablePersistence()`. */ function registerFirestore(instance) { configureForFirebase(instance, (app, firestoreExp) => new Firestore(app, firestoreExp, new IndexedDbPersistenceProvider())); instance.registerVersion(name, version); } registerFirestore(firebase); export { registerFirestore }; //# sourceMappingURL=index.esm2017.js.map