0x1998 - MANAGER

Düzenlenen Dosya: private.pipelines.d.ts

/** * Cloud Firestore * * @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 { SetOptions as SetOptions_2 } from '@firebase/firestore-types'; /** * @beta * Creates an expression that computes the absolute value of a numeric value. * * @param expr - The expression to compute the absolute value of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the absolute value of the numeric value. */ export declare function abs(expr: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the absolute value of a numeric value. * * @param fieldName - The field to compute the absolute value of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the absolute value of the numeric value. */ export declare function abs(fieldName: string): FunctionExpression; /* Excluded from this release type: AbstractUserDataWriter */ /** * Describes a map whose keys are active target ids. We do not care about the type of the * values. */ declare type ActiveTargets = SortedMap<TargetId, unknown>; /** * @beta * * Creates an expression that adds two expressions together. * * @example * ```typescript * // Add the value of the 'quantity' field and the 'reserve' field. * add(field("quantity"), field("reserve")); * ``` * * @param first - The first expression to add. * @param second - The second expression or literal to add. * @param others - Optional other expressions or literals to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the addition operation. */ export declare function add(first: Expression, second: Expression | unknown): FunctionExpression; /** * @beta * * Creates an expression that adds a field's value to an expression. * * @example * ```typescript * // Add the value of the 'quantity' field and the 'reserve' field. * add("quantity", field("reserve")); * ``` * * @param fieldName - The name of the field containing the value to add. * @param second - The second expression or literal to add. * @param others - Optional other expressions or literals to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the addition operation. */ export declare function add(fieldName: string, second: Expression | unknown): FunctionExpression; /** * @beta * Options defining how an AddFieldsStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(addFields:1)}. */ export declare type AddFieldsStageOptions = StageOptions & { /** * @beta * The fields to add to each document, specified as a {@link @firebase/firestore/pipelines#Selectable}. * At least one field is required. */ fields: Selectable[]; }; /** * @beta * * A class that represents an aggregate function. */ export declare class AggregateFunction implements ProtoValueSerializable, UserData { private name; private params; exprType: ExpressionType; /* Excluded from this release type: _methodName */ constructor(name: string, params: Expression[]); /* Excluded from this release type: _create */ /** * @beta * Assigns an alias to this AggregateFunction. The alias specifies the name that * the aggregated value will have in the output document. * * @example * ```typescript * // Calculate the average price of all items and assign it the alias "averagePrice". * firestore.pipeline().collection("items") * .aggregate(field("price").average().as("averagePrice")); * ``` * * @param name - The alias to assign to this AggregateFunction. * @returns A new {@link @firebase/firestore/pipelines#AliasedAggregate} that wraps this * AggregateFunction and associates it with the provided alias. */ as(name: string): AliasedAggregate; /* Excluded from this release type: _toProto */ _protoValueType: "ProtoValue"; /* Excluded from this release type: _readUserData */ } /** * @beta * Options defining how an AggregateStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(aggregate:1)}. */ export declare type AggregateStageOptions = StageOptions & { /** * @beta * The {@link @firebase/firestore/pipelines#AliasedAggregate} values specifying aggregate operations to * perform on the input documents. */ accumulators: AliasedAggregate[]; /** * @beta * The {@link @firebase/firestore/pipelines#Selectable} expressions or field names to consider when determining * distinct value combinations (groups), which will be aggregated over. */ groups?: Array<string | Selectable>; }; /** * @beta * * An AggregateFunction with alias. */ export declare class AliasedAggregate implements UserData { readonly aggregate: AggregateFunction; readonly alias: string; readonly _methodName: string | undefined; constructor(aggregate: AggregateFunction, alias: string, _methodName: string | undefined); /* Excluded from this release type: _readUserData */ } /** * @beta */ export declare class AliasedExpression implements Selectable, UserData { readonly expr: Expression; readonly alias: string; readonly _methodName: string | undefined; exprType: ExpressionType; selectable: true; constructor(expr: Expression, alias: string, _methodName: string | undefined); /* Excluded from this release type: _readUserData */ } /** * @beta * * Creates an expression that performs a logical 'AND' operation on multiple filter conditions. * * @example * ```typescript * // Check if the 'age' field is greater than 18 AND the 'city' field is "London" AND * // the 'status' field is "active" * const condition = and(greaterThan("age", 18), equal("city", "London"), equal("status", "active")); * ``` * * @param first - The first filter condition. * @param second - The second filter condition. * @param more - Additional filter conditions to 'AND' together. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical 'AND' operation. */ export declare function and(first: BooleanExpression, second: BooleanExpression, ...more: BooleanExpression[]): BooleanExpression; declare interface ApiClientObjectMap<T> { [k: string]: T; } /** * @beta * * Creates an expression that creates a Firestore array value from an input array. * * @example * ```typescript * // Create an array value from the input array and reference the 'baz' field value from the input document. * array(['bar', Field.of('baz')]).as('foo'); * ``` * * @param elements - The input array to evaluate in the expression. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the array function. */ export declare function array(elements: unknown[]): FunctionExpression; /** * @beta * Creates an aggregation that collects all values of an expression across multiple stage * inputs into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all tags from books into an array * arrayAgg(field("tags")).as("allTags"); * ``` * * @param expression - The expression to collect values from. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'array_agg' aggregation. */ export declare function arrayAgg(expression: Expression): AggregateFunction; /** * @beta * Creates an aggregation that collects all values of a field across multiple stage inputs * into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all tags from books into an array * arrayAgg("tags").as("allTags"); * ``` * * @param fieldName - The name of the field to collect values from. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'array_agg' aggregation. */ export declare function arrayAgg(fieldName: string): AggregateFunction; /** * @beta * Creates an aggregation that collects all distinct values of an expression across multiple stage * inputs into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all distinct tags from books into an array * arrayAggDistinct(field("tags")).as("allDistinctTags"); * ``` * * @param expression - The expression to collect values from. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'array_agg_distinct' aggregation. */ export declare function arrayAggDistinct(expression: Expression): AggregateFunction; /** * @beta * Creates an aggregation that collects all distinct values of a field across multiple stage inputs * into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all distinct tags from books into an array * arrayAggDistinct("tags").as("allDistinctTags"); * ``` * * @param fieldName - The name of the field to collect values from. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'array_agg_distinct' aggregation. */ export declare function arrayAggDistinct(fieldName: string): AggregateFunction; /** * @beta * * Creates an expression that concatenates an array expression with other arrays. * * @example * ```typescript * // Combine the 'items' array with two new item arrays * arrayConcat(field("items"), [field("newItems"), field("otherItems")]); * ``` * * @param firstArray - The first array expression to concatenate to. * @param secondArray - The second array expression or array literal to concatenate to. * @param otherArrays - Optional additional array expressions or array literals to concatenate. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the concatenated array. */ export declare function arrayConcat(firstArray: Expression, secondArray: Expression | unknown[], ...otherArrays: Array<Expression | unknown[]>): FunctionExpression; /** * @beta * * Creates an expression that concatenates a field's array value with other arrays. * * @example * ```typescript * // Combine the 'items' array with two new item arrays * arrayConcat("items", [field("newItems"), field("otherItems")]); * ``` * * @param firstArrayField - The first array to concatenate to. * @param secondArray - The second array expression or array literal to concatenate to. * @param otherArrays - Optional additional array expressions or array literals to concatenate. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the concatenated array. */ export declare function arrayConcat(firstArrayField: string, secondArray: Expression | unknown[], ...otherArrays: Array<Expression | unknown[]>): FunctionExpression; /** * @beta * * Creates an expression that checks if an array expression contains a specific element. * * @example * ```typescript * // Check if the 'colors' array contains the value of field 'selectedColor' * arrayContains(field("colors"), field("selectedColor")); * ``` * * @param array - The array expression to check. * @param element - The element to search for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains' comparison. */ export declare function arrayContains(array: Expression, element: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an array expression contains a specific element. * * @example * ```typescript * // Check if the 'colors' array contains "red" * arrayContains(field("colors"), "red"); * ``` * * @param array - The array expression to check. * @param element - The element to search for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains' comparison. */ export declare function arrayContains(array: Expression, element: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains a specific element. * * @example * ```typescript * // Check if the 'colors' array contains the value of field 'selectedColor' * arrayContains("colors", field("selectedColor")); * ``` * * @param fieldName - The field name to check. * @param element - The element to search for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains' comparison. */ export declare function arrayContains(fieldName: string, element: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains a specific value. * * @example * ```typescript * // Check if the 'colors' array contains "red" * arrayContains("colors", "red"); * ``` * * @param fieldName - The field name to check. * @param element - The element to search for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains' comparison. */ export declare function arrayContains(fieldName: string, element: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if an array expression contains all the specified elements. * * @example * ```typescript * // Check if the "tags" array contains all of the values: "SciFi", "Adventure", and the value from field "tag1" * arrayContainsAll(field("tags"), [field("tag1"), constant("SciFi"), "Adventure"]); * ``` * * @param array - The array expression to check. * @param values - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_all' comparison. */ export declare function arrayContainsAll(array: Expression, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains all the specified values or * expressions. * * @example * ```typescript * // Check if the 'tags' array contains both of the values from field 'tag1', the value "SciFi", and "Adventure" * arrayContainsAll("tags", [field("tag1"), "SciFi", "Adventure"]); * ``` * * @param fieldName - The field name to check. * @param values - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_all' comparison. */ export declare function arrayContainsAll(fieldName: string, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if an array expression contains all the specified elements. * * @example * ```typescript * // Check if the "tags" array contains all of the values: "SciFi", "Adventure", and the value from field "tag1" * arrayContainsAll(field("tags"), [field("tag1"), constant("SciFi"), "Adventure"]); * ``` * * @param array - The array expression to check. * @param arrayExpression - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_all' comparison. */ export declare function arrayContainsAll(array: Expression, arrayExpression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains all the specified values or * expressions. * * @example * ```typescript * // Check if the 'tags' array contains both of the values from field 'tag1', the value "SciFi", and "Adventure" * arrayContainsAll("tags", [field("tag1"), "SciFi", "Adventure"]); * ``` * * @param fieldName - The field name to check. * @param arrayExpression - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_all' comparison. */ export declare function arrayContainsAll(fieldName: string, arrayExpression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an array expression contains any of the specified * elements. * * @example * ```typescript * // Check if the 'categories' array contains either values from field "cate1" or "Science" * arrayContainsAny(field("categories"), [field("cate1"), "Science"]); * ``` * * @param array - The array expression to check. * @param values - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_any' comparison. */ export declare function arrayContainsAny(array: Expression, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains any of the specified * elements. * * @example * ```typescript * // Check if the 'groups' array contains either the value from the 'userGroup' field * // or the value "guest" * arrayContainsAny("categories", [field("cate1"), "Science"]); * ``` * * @param fieldName - The field name to check. * @param values - The elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_any' comparison. */ export declare function arrayContainsAny(fieldName: string, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if an array expression contains any of the specified * elements. * * @example * ```typescript * // Check if the 'categories' array contains either values from field "cate1" or "Science" * arrayContainsAny(field("categories"), array([field("cate1"), "Science"])); * ``` * * @param array - The array expression to check. * @param values - An expression that evaluates to an array, whose elements to check for in the array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_any' comparison. */ export declare function arrayContainsAny(array: Expression, values: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's array value contains any of the specified * elements. * * @example * ```typescript * // Check if the 'groups' array contains either the value from the 'userGroup' field * // or the value "guest" * arrayContainsAny("categories", array([field("cate1"), "Science"])); * ``` * * @param fieldName - The field name to check. * @param values - An expression that evaluates to an array, whose elements to check for in the array field. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'array_contains_any' comparison. */ export declare function arrayContainsAny(fieldName: string, values: Expression): BooleanExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and return the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the tags field array at index 1. * arrayGet('tags', 1); * ``` * * @param arrayField - The name of the array field. * @param offset - The index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ export declare function arrayGet(arrayField: string, offset: number): FunctionExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and return the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the tags field array at index specified by field * // 'favoriteTag'. * arrayGet('tags', field('favoriteTag')); * ``` * * @param arrayField - The name of the array field. * @param offsetExpr - An `Expression` evaluating to the index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ export declare function arrayGet(arrayField: string, offsetExpr: Expression): FunctionExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and return the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the tags field array at index 1. * arrayGet(field('tags'), 1); * ``` * * @param arrayExpression - An `Expression` evaluating to an array. * @param offset - The index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ export declare function arrayGet(arrayExpression: Expression, offset: number): FunctionExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and return the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the tags field array at index specified by field * // 'favoriteTag'. * arrayGet(field('tags'), field('favoriteTag')); * ``` * * @param arrayExpression - An `Expression` evaluating to an array. * @param offsetExpr - An `Expression` evaluating to the index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ export declare function arrayGet(arrayExpression: Expression, offsetExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that calculates the length of an array in a specified field. * * @example * ```typescript * // Get the number of items in field 'cart' * arrayLength('cart'); * ``` * * @param fieldName - The name of the field containing an array to calculate the length of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the array. */ export declare function arrayLength(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that calculates the length of an array expression. * * @example * ```typescript * // Get the number of items in the 'cart' array * arrayLength(field("cart")); * ``` * * @param array - The array expression to calculate the length of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the array. */ export declare function arrayLength(array: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the sum of the elements in an array. * * @example * ```typescript * // Compute the sum of the elements in the 'scores' field. * arraySum("scores"); * ``` * * @param fieldName - The name of the field to compute the sum of. * @returns A new `Expression` representing the sum of the elements in the array. */ export declare function arraySum(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that computes the sum of the elements in an array. * * @example * ```typescript * // Compute the sum of the elements in the 'scores' field. * arraySum(field("scores")); * ``` * * @param expression - An expression evaluating to a numeric array, which the sum will be computed for. * @returns A new `Expression` representing the sum of the elements in the array. */ export declare function arraySum(expression: Expression): FunctionExpression; /** * @beta * * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in ascending order based on an expression. * * @example * ```typescript * // Sort documents by the 'name' field in lowercase in ascending order * firestore.pipeline().collection("users") * .sort(ascending(field("name").toLower())); * ``` * * @param expr - The expression to create an ascending ordering for. * @returns A new `Ordering` for ascending sorting. */ export declare function ascending(expr: Expression): Ordering; /** * @beta * * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in ascending order based on a field. * * @example * ```typescript * // Sort documents by the 'name' field in ascending order * firestore.pipeline().collection("users") * .sort(ascending("name")); * ``` * * @param fieldName - The field to create an ascending ordering for. * @returns A new `Ordering` for ascending sorting. */ export declare function ascending(fieldName: string): Ordering; 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<T extends unknown>(op: () => Promise<T>): 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<T extends unknown>(op: () => Promise<T>): 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 with `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<T extends unknown>(op: () => Promise<T>): Promise<T>; /** * 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>): 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<T extends unknown>(timerId: TimerId, delayMs: number, op: () => Promise<T>): DelayedOperation<T>; /** * 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; } /* Excluded from this release type: AuthTokenFactory */ /** * @beta * * Creates an aggregation that calculates the average (mean) of values from an expression across * multiple stage inputs. * * @example * ```typescript * // Calculate the average age of users * average(field("age")).as("averageAge"); * ``` * * @param expression - The expression representing the values to average. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'average' aggregation. */ export declare function average(expression: Expression): AggregateFunction; /** * @beta * * Creates an aggregation that calculates the average (mean) of a field's values across multiple * stage inputs. * * @example * ```typescript * // Calculate the average age of users * average("age").as("averageAge"); * ``` * * @param fieldName - The name of the field containing numeric values to average. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'average' aggregation. */ export declare function average(fieldName: string): AggregateFunction; /** * Path represents an ordered sequence of string segments. */ declare abstract class BasePath<B extends BasePath<B>> { 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[]; /** * Compare 2 paths segment by segment, prioritizing numeric IDs * (e.g., "__id123__") in numeric ascending order, followed by string * segments in lexicographical order. */ static comparator<T extends BasePath<T>>(p1: BasePath<T>, p2: BasePath<T>): number; private static compareSegments; private static isNumericId; private static extractNumericId; } /** * @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. */ /** * BatchID is a locally assigned ID for a batch of mutations that have been * applied. */ declare type BatchId = number; /** * @beta * * An interface that represents a filter condition. */ export declare abstract class BooleanExpression extends Expression { abstract get _expr(): Expression; get _methodName(): string | undefined; /** * @beta * Creates an aggregation that finds the count of input documents satisfying * this boolean expression. * * @example * ```typescript * // Find the count of documents with a score greater than 90 * field("score").greaterThan(90).countIf().as("highestScore"); * ``` * * @returns A new `AggregateFunction` representing the 'countIf' aggregation. */ countIf(): AggregateFunction; /** * @beta * Creates an expression that negates this boolean expression. * * @example * ```typescript * // Find documents where the 'tags' field does not contain 'completed' * field("tags").arrayContains("completed").not(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the negated filter condition. */ not(): BooleanExpression; /** * @beta * Creates a conditional expression that evaluates to the 'then' expression * if `this` expression evaluates to `true`, * or evaluates to the 'else' expression if `this` expressions evaluates `false`. * * @example * ```typescript * // If 'age' is greater than 18, return "Adult"; otherwise, return "Minor". * field("age").greaterThanOrEqual(18).conditional(constant("Adult"), constant("Minor")); * ``` * * @param thenExpr - The expression to evaluate if the condition is true. * @param elseExpr - The expression to evaluate if the condition is false. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the conditional expression. */ conditional(thenExpr: Expression, elseExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of this expression. * * @example * ```typescript * // Create an expression that protects against a divide by zero error * // but always returns a boolean expression. * constant(50).divide('length').gt(1).ifError(constant(false)); * ``` * * @param catchValue - The value that will be returned if this expression * produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchValue: BooleanExpression): BooleanExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of this expression. * * @example * ```typescript * // Create an expression that protects against a divide by zero error * // but always returns a boolean expression. * constant(50).divide('length').gt(1).ifError(false); * ``` * * @param catchValue - The value that will be returned if this expression * produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchValue: boolean): BooleanExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of this expression. * * @example * ```typescript * // Create an expression that protects against a divide by zero error. * constant(50).divide('length').gt(1).ifError(constant(0)); * ``` * * @param catchValue - The value that will be returned if this expression * produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchValue: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of this expression. * * @example * ```typescript * // Create an expression that protects against a divide by zero error. * constant(50).divide('length').gt(1).ifError(0); * ``` * * @param catchValue - The value that will be returned if this expression * produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchValue: unknown): FunctionExpression; /* Excluded from this release type: _toProto */ /* Excluded from this release type: _readUserData */ } /** * 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); } /** * Provides interfaces to save and read Firestore bundles. */ declare interface BundleCache { /** * Gets the saved `BundleMetadata` for a given `bundleId`, returns undefined * if no bundle metadata is found under the given id. */ getBundleMetadata(transaction: PersistenceTransaction, bundleId: string): PersistencePromise<BundleMetadata | undefined>; /** * Saves a `BundleMetadata` from a bundle into local storage, using its id as * the persistent key. */ saveBundleMetadata(transaction: PersistenceTransaction, metadata: BundleMetadata_2): PersistencePromise<void>; /** * Gets a saved `NamedQuery` for the given query name. Returns undefined if * no queries are found under the given name. */ getNamedQuery(transaction: PersistenceTransaction, queryName: string): PersistencePromise<NamedQuery | undefined>; /** * Saves a `NamedQuery` from a bundle, using its name as the persistent key. */ saveNamedQuery(transaction: PersistenceTransaction, query: NamedQuery_2): PersistencePromise<void>; } /** Properties of a BundledQuery. */ declare interface BundledQuery { /** BundledQuery parent */ parent?: string | null; /** BundledQuery structuredQuery */ structuredQuery?: StructuredQuery | null; /** BundledQuery limitType */ limitType?: LimitType_2 | null; } /** * Represents a Firestore bundle saved by the SDK in its local storage. */ declare interface BundleMetadata { /** * Id of the bundle. It is used together with `createTime` to determine if a * bundle has been loaded by the SDK. */ readonly id: string; /** Schema version of the bundle. */ readonly version: number; /** * Set to the snapshot version of the bundle if created by the Server SDKs. * Otherwise set to SnapshotVersion.MIN. */ readonly createTime: SnapshotVersion; } /** Properties of a BundleMetadata. */ declare interface BundleMetadata_2 { /** BundleMetadata id */ id?: string | null; /** BundleMetadata createTime */ createTime?: Timestamp_2 | null; /** BundleMetadata version */ version?: number | null; /** BundleMetadata totalDocuments */ totalDocuments?: number | null; /** BundleMetadata totalBytes */ totalBytes?: number | null; } /** * @beta * * Creates an expression that calculates the byte length of a string in UTF-8, or just the length of a Blob. * * @example * ```typescript * // Calculate the length of the 'myString' field in bytes. * byteLength(field("myString")); * ``` * * @param expr - The expression representing the string. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the string in bytes. */ export declare function byteLength(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that calculates the length of a string represented by a field in UTF-8 bytes, or just the length of a Blob. * * @example * ```typescript * // Calculate the length of the 'myString' field in bytes. * byteLength("myString"); * ``` * * @param fieldName - The name of the field containing the string. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the string in bytes. */ export declare function byteLength(fieldName: string): FunctionExpression; /** * 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; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; bytes: Property<"string">; }; /** * Returns a JSON-serializable representation of this `Bytes` instance. * * @returns a JSON representation of this object. */ toJSON(): object; /** * Builds a `Bytes` instance from a JSON object created by {@link Bytes.toJSON}. * * @param json - a JSON object represention of a `Bytes` instance * @returns an instance of {@link Bytes} if the JSON object could be parsed. Throws a * {@link FirestoreError} if an error occurs. */ static fromJSON(json: object): Bytes; } /* Excluded from this release type: ByteString */ /** * @beta * Creates an expression that computes the ceiling of a numeric value. * * @example * ```typescript * // Compute the ceiling of the 'price' field. * ceil("price"); * ``` * * @param fieldName - The name of the field to compute the ceiling of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the ceiling of the numeric value. */ export declare function ceil(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that computes the ceiling of a numeric value. * * @example * ```typescript * // Compute the ceiling of the 'price' field. * ceil(field("price")); * ``` * * @param expression - An expression evaluating to a numeric value, which the ceiling will be computed for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the ceiling of the numeric value. */ export declare function ceil(expression: Expression): FunctionExpression; declare const enum ChangeType { Added = 0, Removed = 1, Modified = 2, Metadata = 3 } /** * @beta * * Creates an expression that calculates the character length of a string field in UTF8. * * @example * ```typescript * // Get the character length of the 'name' field in UTF-8. * strLength("name"); * ``` * * @param fieldName - The name of the field containing the string. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the string. */ export declare function charLength(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that calculates the character length of a string expression in UTF-8. * * @example * ```typescript * // Get the character length of the 'name' field in UTF-8. * strLength(field("name")); * ``` * * @param stringExpression - The expression representing the string to calculate the length of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the string. */ export declare function charLength(stringExpression: Expression): FunctionExpression; /** * A randomly-generated key assigned to each Firestore instance at startup. */ declare type ClientId = string; /** * @beta * Defines the configuration options for a CollectionGroupStage within a pipeline. * This type extends {@link @firebase/firestore/pipelines#StageOptions} and provides specific settings for how a collection group * is identified and processed during pipeline execution. * * See {@link @firebase/firestore/pipelines#PipelineSource.(collectionGroup:1)} to create a collection group stage. */ export declare type CollectionGroupStageOptions = StageOptions & { /** * @beta * ID of the collection group to use as the Pipeline source. */ collectionId: string; /** * @beta * Specifies the name of an index to be used for a query, overriding the query optimizer's default choice. * This can be useful for performance tuning in specific scenarios where the default index selection * does not yield optimal performance. * * @remarks This property is optional. When provided, it should be the exact name of the index to force. */ forceIndex?: string; }; /** * @beta * Creates an expression that returns the collection ID from a path. * * @example * ```typescript * // Get the collection ID from a path. * collectionId("__name__"); * ``` * * @param fieldName - The name of the field to get the collection ID from. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the collectionId operation. */ export declare function collectionId(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that returns the collection ID from a path. * * @example * ```typescript * // Get the collection ID from a path. * collectionId(field("__name__")); * ``` * * @param expression - An expression evaluating to a path, which the collection ID will be extracted from. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the collectionId operation. */ export declare function collectionId(expression: Expression): FunctionExpression; /** * A `CollectionReference` object can be used for adding documents, getting * document references, and querying for documents (using {@link (query:1)}). */ declare class CollectionReference<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends Query<AppModelType, DbModelType> { readonly _path: ResourcePath; /** The type of this Firestore reference. */ readonly type = "collection"; /** @hideconstructor */ constructor(firestore: Firestore_2, converter: FirestoreDataConverter_2<AppModelType, DbModelType> | 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<DocumentData, DocumentData> | 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 of type `NewDbModelType` and * your custom type `NewAppModelType`. * * @param converter - Converts objects to and from Firestore. * @returns A `CollectionReference` that uses the provided converter. */ withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter_2<NewAppModelType, NewDbModelType>): CollectionReference<NewAppModelType, NewDbModelType>; /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `CollectionReference<DocumentData, DocumentData>` that does not * use a converter. */ withConverter(converter: null): CollectionReference<DocumentData, DocumentData>; } /** * @beta * Options defining how a CollectionStage is evaluated. See {@link @firebase/firestore/pipelines#PipelineSource.(collection:1)}. */ export declare type CollectionStageOptions = StageOptions & { /** * @beta * Name or reference to the collection that will be used as the Pipeline source. */ collection: string | CollectionReference; /** * @beta * Specifies the name of an index to be used for a query, overriding the query optimizer's default choice. * This can be useful for performance tuning in specific scenarios where the default index selection * does not yield optimal performance. * * @remarks This property is optional. When provided, it should be the exact name of the index to force. */ forceIndex?: string; }; /** * @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. */ declare type Comparator<K> = (key1: K, key2: K) => number; declare interface ComponentConfiguration { asyncQueue: AsyncQueue; databaseInfo: DatabaseInfo; authCredentials: CredentialsProvider<User>; appCheckCredentials: CredentialsProvider<string>; clientId: ClientId; initialUser: User; maxConcurrentLimboResolutions: number; } declare type CompositeFilterOp = 'OPERATOR_UNSPECIFIED' | 'AND' | 'OR'; /** * @beta * Creates an expression that concatenates strings, arrays, or blobs. Types cannot be mixed. * * @example * ```typescript * // Concatenate the 'firstName' and 'lastName' fields with a space in between. * concat(field("firstName"), " ", field("lastName")) * ``` * * @param first - The first expressions to concatenate. * @param second - The second literal or expression to concatenate. * @param others - Additional literals or expressions to concatenate. * @returns A new `Expression` representing the concatenation. */ export declare function concat(first: Expression, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * Creates an expression that concatenates strings, arrays, or blobs. Types cannot be mixed. * * @example * ```typescript * // Concatenate a field with a literal string. * concat(field("firstName"), "Doe") * ``` * * @param fieldName - The name of a field to concatenate. * @param second - The second literal or expression to concatenate. * @param others - Additional literal or expressions to concatenate. * @returns A new `Expression` representing the concatenation. */ export declare function concat(fieldName: string, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * * Creates a conditional expression that evaluates to a 'then' expression if a condition is true * and an 'else' expression if the condition is false. * * @example * ```typescript * // If 'age' is greater than 18, return "Adult"; otherwise, return "Minor". * conditional( * greaterThan("age", 18), constant("Adult"), constant("Minor")); * ``` * * @param condition - The condition to evaluate. * @param thenExpr - The expression to evaluate if the condition is true. * @param elseExpr - The expression to evaluate if the condition is false. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the conditional expression. */ export declare function conditional(condition: BooleanExpression, thenExpr: Expression, elseExpr: Expression): FunctionExpression; /** * @beta * Creates a `Constant` instance for a number value. * * @param value - The number value. * @returns A new `Constant` instance. */ export declare function constant(value: number): Expression; /** * @beta * Creates a `Constant` instance for a string value. * * @param value - The string value. * @returns A new `Constant` instance. */ export declare function constant(value: string): Expression; /** * @beta * Creates a `BooleanExpression` instance for a boolean value. * * @param value - The boolean value. * @returns A new `Constant` instance. */ export declare function constant(value: boolean): BooleanExpression; /** * @beta * Creates a `Constant` instance for a null value. * * @param value - The null value. * @returns A new `Constant` instance. */ export declare function constant(value: null): Expression; /** * @beta * Creates a `Constant` instance for a GeoPoint value. * * @param value - The GeoPoint value. * @returns A new `Constant` instance. */ export declare function constant(value: GeoPoint): Expression; /** * @beta * Creates a `Constant` instance for a Timestamp value. * * @param value - The Timestamp value. * @returns A new `Constant` instance. */ export declare function constant(value: Timestamp): Expression; /** * @beta * Creates a `Constant` instance for a Date value. * * @param value - The Date value. * @returns A new `Constant` instance. */ export declare function constant(value: Date): Expression; /** * @beta * Creates a `Constant` instance for a Bytes value. * * @param value - The Bytes value. * @returns A new `Constant` instance. */ export declare function constant(value: Bytes): Expression; /** * @beta * Creates a `Constant` instance for a DocumentReference value. * * @param value - The DocumentReference value. * @returns A new `Constant` instance. */ export declare function constant(value: DocumentReference): Expression; /* Excluded declaration from this release type: constant */ /** * @beta * Creates a `Constant` instance for a VectorValue value. * * @param value - The VectorValue value. * @returns A new `Constant` instance. */ export declare function constant(value: VectorValue): Expression; /** Contains the settings that are mutated as we parse user data. */ declare interface ContextSettings { /** Indicates what kind of API method this data came from. */ readonly dataSource: UserDataSource; /** The name of the method the user called to create the ParseContext. */ readonly methodName: string; /** The document the user is attempting to modify, if that applies. */ readonly targetDoc?: DocumentKey; /** * A path within the object being parsed. This could be an empty path (in * which case the context represents the root of the data being parsed), or a * nonempty path (indicating the context represents a nested location within * the data). */ readonly path?: FieldPath_2; /** * Whether or not this context corresponds to an element of an array. * If not set, elements are treated as if they were outside of arrays. */ readonly arrayElement?: boolean; /** * Whether or not a converter was specified in this context. If true, error * messages will reference the converter when invalid data is provided. */ readonly hasConverter?: boolean; } /** * @beta * * Calculates the Cosine distance between a field's vector value and a literal vector value. * * @example * ```typescript * // Calculate the Cosine distance between the 'location' field and a target location * cosineDistance("location", [37.7749, -122.4194]); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vector - The other vector (as an array of doubles) or {@link VectorValue} to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the Cosine distance between the two vectors. */ export declare function cosineDistance(fieldName: string, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the Cosine distance between a field's vector value and a vector expression. * * @example * ```typescript * // Calculate the cosine distance between the 'userVector' field and the 'itemVector' field * cosineDistance("userVector", field("itemVector")); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vectorExpression - The other vector (represented as an `Expression`) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the cosine distance between the two vectors. */ export declare function cosineDistance(fieldName: string, vectorExpression: Expression): FunctionExpression; /** * @beta * * Calculates the Cosine distance between a vector expression and a vector literal. * * @example * ```typescript * // Calculate the cosine distance between the 'location' field and a target location * cosineDistance(field("location"), [37.7749, -122.4194]); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to compare against. * @param vector - The other vector (as an array of doubles or VectorValue) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the cosine distance between the two vectors. */ export declare function cosineDistance(vectorExpression: Expression, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the Cosine distance between two vector expressions. * * @example * ```typescript * // Calculate the cosine distance between the 'userVector' field and the 'itemVector' field * cosineDistance(field("userVector"), field("itemVector")); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to compare against. * @param otherVectorExpression - The other vector (represented as an `Expression`) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the cosine distance between the two vectors. */ export declare function cosineDistance(vectorExpression: Expression, otherVectorExpression: Expression): FunctionExpression; /** * @beta * * Creates an aggregation that counts the number of stage inputs with valid evaluations of the * provided expression. * * @example * ```typescript * // Count the number of items where the price is greater than 10 * count(field("price").greaterThan(10)).as("expensiveItemCount"); * ``` * * @param expression - The expression to count. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'count' aggregation. */ export declare function count(expression: Expression): AggregateFunction; /** * @beta * Creates an aggregation that counts the number of stage inputs where the input field exists. * * @example * ```typescript * // Count the total number of products * count("productId").as("totalProducts"); * ``` * * @param fieldName - The name of the field to count. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'count' aggregation. */ export declare function count(fieldName: string): AggregateFunction; /** * @beta * * Creates an aggregation that counts the total number of stage inputs. * * @example * ```typescript * // Count the total number of input documents * countAll().as("totalDocument"); * ``` * * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'countAll' aggregation. */ export declare function countAll(): AggregateFunction; /** * @beta * Creates an aggregation that counts the number of distinct values of a field. * * @param expr - The expression or field to count distinct values of. * @returns A new `AggregateFunction` representing the 'count_distinct' aggregation. */ export declare function countDistinct(expr: Expression | string): AggregateFunction; /** * @beta * Creates an aggregation that counts the number of stage inputs where the provided * boolean expression evaluates to true. * * @example * ```typescript * // Count the number of documents where 'is_active' field equals true * countIf(field("is_active").equal(true)).as("numActiveDocuments"); * ``` * * @param booleanExpr - The boolean expression to evaluate on each input. * @returns A new `AggregateFunction` representing the 'countIf' aggregation. */ export declare function countIf(booleanExpr: BooleanExpression): AggregateFunction; /** * 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<T> = (credential: T) => Promise<void>; /** * Provides methods for getting the uid and token for the current user and * listening for changes. */ declare interface CredentialsProvider<T> { /** * 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<T>): void; /** Requests a token for the current user. */ getToken(): Promise<Token | null>; /** * 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; /** * @beta * * Creates an expression that evaluates to the current server timestamp. * * @example * ```typescript * // Get the current server timestamp * currentTimestamp() * ``` * * @returns A new Expression representing the current server timestamp. */ export declare function currentTimestamp(): FunctionExpression; /* Excluded from this release type: DatabaseId */ /** * @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. */ declare class DatabaseInfo { readonly databaseId: DatabaseId; readonly appId: string; readonly persistenceKey: string; readonly host: string; readonly ssl: boolean; readonly forceLongPolling: boolean; readonly autoDetectLongPolling: boolean; readonly longPollingOptions: ExperimentalLongPollingOptions; readonly useFetchStreams: boolean; readonly isUsingEmulator: boolean; readonly apiKey: string | undefined; /** * Constructs a DatabaseInfo using the provided host, databaseId and * persistenceKey. * * @param databaseId - The database to use. * @param appId - The Firebase App Id. * @param persistenceKey - A unique identifier for this Firestore's local * storage (used in conjunction with the databaseId). * @param host - The Firestore backend host to connect to. * @param ssl - Whether to use SSL when connecting. * @param forceLongPolling - Whether to use the forceLongPolling option * when using WebChannel as the network transport. * @param autoDetectLongPolling - Whether to use the detectBufferingProxy * option when using WebChannel as the network transport. * @param longPollingOptions - Options that configure long-polling. * @param useFetchStreams - Whether to use the Fetch API instead of * XMLHTTPRequest */ constructor(databaseId: DatabaseId, appId: string, persistenceKey: string, host: string, ssl: boolean, forceLongPolling: boolean, autoDetectLongPolling: boolean, longPollingOptions: ExperimentalLongPollingOptions, useFetchStreams: boolean, isUsingEmulator: boolean, apiKey: string | undefined); } /** * @beta * Options defining how a DatabaseStage is evaluated. See {@link @firebase/firestore/pipelines#PipelineSource.(database:1)}. */ export declare type DatabaseStageOptions = StageOptions & {}; /** * 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; abstract serializer: JsonProtoSerializer; } /** * 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<T extends unknown> implements PromiseLike<T> { private readonly asyncQueue; readonly timerId: TimerId; readonly targetTimeMs: number; private readonly op; private readonly removalCallback; private timerHandle; private readonly deferred; private constructor(); get promise(): Promise<T>; /** * 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<R extends unknown>(asyncQueue: AsyncQueue, timerId: TimerId, delayMs: number, op: () => Promise<R>, removalCallback: (op: DelayedOperation<R>) => void): DelayedOperation<R>; /** * 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: <TResult1 = T, TResult2 = never>(onfulfilled?: ((value: T) => TResult1 | PromiseLike<TResult1>) | null | undefined, onrejected?: ((reason: any) => TResult2 | PromiseLike<TResult2>) | null | undefined) => Promise<TResult1 | TResult2>; private handleDelayElapsed; private clearTimeout; } /** * @beta * * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in descending order based on an expression. * * @example * ```typescript * // Sort documents by the 'name' field in lowercase in descending order * firestore.pipeline().collection("users") * .sort(descending(field("name").toLower())); * ``` * * @param expr - The expression to create a descending ordering for. * @returns A new `Ordering` for descending sorting. */ export declare function descending(expr: Expression): Ordering; /** * @beta * * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in descending order based on a field. * * @example * ```typescript * // Sort documents by the 'name' field in descending order * firestore.pipeline().collection("users") * .sort(descending("name")); * ``` * * @param fieldName - The field to create a descending ordering for. * @returns A new `Ordering` for descending sorting. */ export declare function descending(fieldName: string): Ordering; /** * The direction of sorting in an order by. */ declare const enum Direction { ASCENDING = "asc", DESCENDING = "desc" } /** * @beta * Options defining how a DistinctStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(distinct:1)}. */ export declare type DistinctStageOptions = StageOptions & { /** * @beta * The {@link @firebase/firestore/pipelines#Selectable} expressions or field names to consider when determining * distinct value combinations (groups). */ groups: Array<string | Selectable>; }; /** * @beta * * Creates an expression that divides two expressions. * * @example * ```typescript * // Divide the 'total' field by the 'count' field * divide(field("total"), field("count")); * ``` * * @param left - The expression to be divided. * @param right - The expression to divide by. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the division operation. */ export declare function divide(left: Expression, right: Expression): FunctionExpression; /** * @beta * * Creates an expression that divides an expression by a constant value. * * @example * ```typescript * // Divide the 'value' field by 10 * divide(field("value"), 10); * ``` * * @param expression - The expression to be divided. * @param value - The constant value to divide by. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the division operation. */ export declare function divide(expression: Expression, value: unknown): FunctionExpression; /** * @beta * * Creates an expression that divides a field's value by an expression. * * @example * ```typescript * // Divide the 'total' field by the 'count' field * divide("total", field("count")); * ``` * * @param fieldName - The field name to be divided. * @param expressions - The expression to divide by. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the division operation. */ export declare function divide(fieldName: string, expressions: Expression): FunctionExpression; /** * @beta * * Creates an expression that divides a field's value by a constant value. * * @example * ```typescript * // Divide the 'value' field by 10 * divide("value", 10); * ``` * * @param fieldName - The field name to be divided. * @param value - The constant value to divide by. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the division operation. */ export declare function divide(fieldName: string, value: unknown): FunctionExpression; /** * 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; } declare type DocumentComparator = (doc1: Document_2, doc2: Document_2) => number; /** * 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; } /** * @beta * * Creates an expression that returns the document ID from a path. * * @example * ```typescript * // Get the document ID from a path. * documentId(myDocumentReference); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the documentId operation. */ export declare function documentId(documentPath: string | DocumentReference): FunctionExpression; /** * @beta * * Creates an expression that returns the document ID from a path. * * @example * ```typescript * // Get the document ID from a path. * documentId(field("__path__")); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the documentId operation. */ export declare function documentId(documentPathExpr: Expression): FunctionExpression; /* Excluded from this release type: DocumentKey */ declare type DocumentKeyMap<T> = ObjectMap<DocumentKey, T>; declare type DocumentKeySet = SortedSet<DocumentKey>; declare type DocumentMap = SortedMap<DocumentKey, Document_2>; /** * Provides methods to read and write document overlays. * * An overlay is a saved mutation, that gives a local view of a document when * applied to the remote version of the document. * * Each overlay stores the largest batch ID that is included in the overlay, * which allows us to remove the overlay once all batches leading up to it have * been acknowledged. */ declare interface DocumentOverlayCache { /** * Gets the saved overlay mutation for the given document key. * Returns null if there is no overlay for that key. */ getOverlay(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<Overlay | null>; /** * Gets the saved overlay mutation for the given document keys. Skips keys for * which there are no overlays. */ getOverlays(transaction: PersistenceTransaction, keys: DocumentKey[]): PersistencePromise<OverlayMap>; /** * Saves the given document mutation map to persistence as overlays. * All overlays will have their largest batch id set to `largestBatchId`. */ saveOverlays(transaction: PersistenceTransaction, largestBatchId: number, overlays: MutationMap): PersistencePromise<void>; /** Removes overlays for the given document keys and batch ID. */ removeOverlaysForBatchId(transaction: PersistenceTransaction, documentKeys: DocumentKeySet, batchId: number): PersistencePromise<void>; /** * Returns all saved overlays for the given collection. * * @param transaction - The persistence transaction to use for this operation. * @param collection - The collection path to get the overlays for. * @param sinceBatchId - The minimum batch ID to filter by (exclusive). * Only overlays that contain a change past `sinceBatchId` are returned. * @returns Mapping of each document key in the collection to its overlay. */ getOverlaysForCollection(transaction: PersistenceTransaction, collection: ResourcePath, sinceBatchId: number): PersistencePromise<OverlayMap>; /** * Returns `count` overlays with a batch ID higher than `sinceBatchId` for the * provided collection group, processed by ascending batch ID. The method * always returns all overlays for a batch even if the last batch contains * more documents than the remaining limit. * * @param transaction - The persistence transaction used for this operation. * @param collectionGroup - The collection group to get the overlays for. * @param sinceBatchId - The minimum batch ID to filter by (exclusive). * Only overlays that contain a change past `sinceBatchId` are returned. * @param count - The number of overlays to return. Can be exceeded if the last * batch contains more entries. * @returns Mapping of each document key in the collection group to its overlay. */ getOverlaysForCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, sinceBatchId: number, count: number): PersistencePromise<OverlayMap>; } /** * 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<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> { /** * If provided, the `FirestoreDataConverter` associated with this instance. */ readonly converter: FirestoreDataConverter_2<AppModelType, DbModelType> | 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_2; /** @hideconstructor */ constructor(firestore: Firestore_2, /** * If provided, the `FirestoreDataConverter` associated with this instance. */ converter: FirestoreDataConverter_2<AppModelType, DbModelType> | 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<AppModelType, DbModelType>; /** * 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 of * type `NewDbModelType` and your custom type `NewAppModelType`. * * @param converter - Converts objects to and from Firestore. * @returns A `DocumentReference` that uses the provided converter. */ withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter_2<NewAppModelType, NewDbModelType>): DocumentReference<NewAppModelType, NewDbModelType>; /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `DocumentReference<DocumentData, DocumentData>` that does not * use a converter. */ withConverter(converter: null): DocumentReference<DocumentData, DocumentData>; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; referencePath: Property<"string">; }; /** * Returns a JSON-serializable representation of this `DocumentReference` instance. * * @returns a JSON representation of this object. */ toJSON(): object; /** * Builds a `DocumentReference` instance from a JSON object created by * {@link DocumentReference.toJSON}. * * @param firestore - The {@link Firestore} instance the snapshot should be loaded for. * @param json - a JSON object represention of a `DocumentReference` instance * @returns an instance of {@link DocumentReference} if the JSON object could be parsed. Throws a * {@link FirestoreError} if an error occurs. */ static fromJSON(firestore: Firestore_2, json: object): DocumentReference; /** * Builds a `DocumentReference` instance from a JSON object created by * {@link DocumentReference.toJSON}. * * @param firestore - The {@link Firestore} instance the snapshot should be loaded for. * @param json - a JSON object represention of a `DocumentReference` instance * @param converter - Converts objects to and from Firestore. * @returns an instance of {@link DocumentReference} if the JSON object could be parsed. Throws a * {@link FirestoreError} if an error occurs. */ static fromJSON<NewAppModelType = DocumentData, NewDbModelType extends DocumentData = DocumentData>(firestore: Firestore_2, json: object, converter: FirestoreDataConverter_2<NewAppModelType, NewDbModelType>): DocumentReference<NewAppModelType, NewDbModelType>; } /** * DocumentSet is an immutable (copy-on-write) collection that holds documents * in order specified by the provided comparator. We always add a document key * comparator on top of what is provided to guarantee document equality based on * the key. */ declare class DocumentSet { /** * Returns an empty copy of the existing DocumentSet, using the same * comparator. */ static emptySet(oldSet: DocumentSet): DocumentSet; private comparator; private keyedMap; private sortedSet; /** The default ordering is by key if the comparator is omitted */ constructor(comp?: DocumentComparator); has(key: DocumentKey): boolean; get(key: DocumentKey): Document_2 | null; first(): Document_2 | null; last(): Document_2 | null; isEmpty(): boolean; /** * Returns the index of the provided key in the document set, or -1 if the * document key is not present in the set; */ indexOf(key: DocumentKey): number; get size(): number; /** Iterates documents in order defined by "comparator" */ forEach(cb: (doc: Document_2) => void): void; /** Inserts or updates a document with the same key */ add(doc: Document_2): DocumentSet; /** Deletes a document with a given key */ delete(key: DocumentKey): DocumentSet; isEqual(other: DocumentSet | null | undefined): boolean; toString(): string; private copy; } /** * A `DocumentSnapshot` contains data read from a document in your Firestore * database. The data can be extracted with `.data()` or `.get(<field>)` 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. */ declare class DocumentSnapshot<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> { _firestore: Firestore_2; _userDataWriter: AbstractUserDataWriter; _key: DocumentKey; _document: Document_2 | null; _converter: UntypedFirestoreDataConverter<AppModelType, DbModelType> | null; /** @hideconstructor protected */ constructor(_firestore: Firestore_2, _userDataWriter: AbstractUserDataWriter, _key: DocumentKey, _document: Document_2 | null, _converter: UntypedFirestoreDataConverter<AppModelType, DbModelType> | 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<AppModelType, DbModelType>; /** * Signals whether or not the document at the snapshot's location exists. * * @returns true if the document exists. */ exists(): this is QueryDocumentSnapshot_2<AppModelType, DbModelType>; /** * 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(): AppModelType | undefined; /* Excluded from this release type: _fieldsProto */ /** * 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; } /** * A `DocumentSnapshot` contains data read from a document in your Firestore * database. The data can be extracted with `.data()` or `.get(<field>)` 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. */ declare class DocumentSnapshot_2<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends DocumentSnapshot<AppModelType, DbModelType> { readonly _firestore: Firestore; private readonly _firestoreImpl; /** * Metadata about the `DocumentSnapshot`, including information about its * source and local modifications. */ readonly metadata: SnapshotMetadata; /** @hideconstructor protected */ constructor(_firestore: Firestore, userDataWriter: AbstractUserDataWriter, key: DocumentKey, document: Document_2 | null, metadata: SnapshotMetadata, converter: UntypedFirestoreDataConverter<AppModelType, DbModelType> | null); /** * Returns whether or not the data exists. True if the document exists. */ exists(): this is QueryDocumentSnapshot<AppModelType, DbModelType>; /** * Retrieves all fields in the document as an `Object`. Returns `undefined` if * the document doesn't exist. * * By default, `serverTimestamp()` values that have not yet been * set to their final value will be returned as `null`. You can override * this by passing an options object. * * @param options - An options object to configure how data is retrieved from * the snapshot (for example the desired behavior for server timestamps that * have not yet been set to their final value). * @returns An `Object` containing all fields in the document or `undefined` if * the document doesn't exist. */ data(options?: SnapshotOptions): AppModelType | undefined; /** * Retrieves the field specified by `fieldPath`. Returns `undefined` if the * document or field doesn't exist. * * By default, a `serverTimestamp()` that has not yet been set to * its final value will be returned as `null`. You can override this by * passing an options object. * * @param fieldPath - The path (for example 'foo' or 'foo.bar') to a specific * field. * @param options - An options object to configure how the field is retrieved * from the snapshot (for example the desired behavior for server timestamps * that have not yet been set to their final value). * @returns The data at the specified field location or undefined if no such * field exists in the document. */ get(fieldPath: string | FieldPath, options?: SnapshotOptions): any; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; bundleSource: Property<"string">; bundleName: Property<"string">; bundle: Property<"string">; }; /** * Returns a JSON-serializable representation of this `DocumentSnapshot` instance. * * @returns a JSON representation of this object. Throws a {@link FirestoreError} if this * `DocumentSnapshot` has pending writes. */ toJSON(): object; } /** * @beta * Options defining how a DocumentsStage is evaluated. See {@link @firebase/firestore/pipelines#PipelineSource.(documents:1)}. */ export declare type DocumentsStageOptions = StageOptions & { /** * @beta * An array of paths and DocumentReferences specifying the individual documents that will be the source of this pipeline. * The converters for these DocumentReferences will be ignored and not have an effect on this pipeline. * There must be at least one document specified in the array. */ docs: Array<string | DocumentReference>; }; declare type DocumentVersionMap = SortedMap<DocumentKey, SnapshotVersion>; declare interface DocumentViewChange { type: ChangeType; doc: Document_2; } /** * @beta * * Calculates the dot product between a field's vector value and a double array. * * @example * ```typescript * // Calculate the dot product distance between a feature vector and a target vector * dotProduct("features", [0.5, 0.8, 0.2]); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vector - The other vector (as an array of doubles or VectorValue) to calculate with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the dot product between the two vectors. */ export declare function dotProduct(fieldName: string, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the dot product between a field's vector value and a vector expression. * * @example * ```typescript * // Calculate the dot product distance between two document vectors: 'docVector1' and 'docVector2' * dotProduct("docVector1", field("docVector2")); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vectorExpression - The other vector (represented as an `Expression`) to calculate with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the dot product between the two vectors. */ export declare function dotProduct(fieldName: string, vectorExpression: Expression): FunctionExpression; /** * @beta * * Calculates the dot product between a vector expression and a double array. * * @example * ```typescript * // Calculate the dot product between a feature vector and a target vector * dotProduct(field("features"), [0.5, 0.8, 0.2]); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to calculate with. * @param vector - The other vector (as an array of doubles or VectorValue) to calculate with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the dot product between the two vectors. */ export declare function dotProduct(vectorExpression: Expression, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the dot product between two vector expressions. * * @example * ```typescript * // Calculate the dot product between two document vectors: 'docVector1' and 'docVector2' * dotProduct(field("docVector1"), field("docVector2")); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to calculate with. * @param otherVectorExpression - The other vector (represented as an `Expression`) to calculate with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the dot product between the two vectors. */ export declare function dotProduct(vectorExpression: Expression, otherVectorExpression: Expression): FunctionExpression; /** * @beta * * Creates an expression that checks if a field's value ends with a given postfix. * * @example * ```typescript * // Check if the 'filename' field ends with ".txt" * endsWith("filename", ".txt"); * ``` * * @param fieldName - The field name to check. * @param suffix - The postfix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ends with' comparison. */ export declare function endsWith(fieldName: string, suffix: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value ends with a given postfix. * * @example * ```typescript * // Check if the 'url' field ends with the value of the 'extension' field * endsWith("url", field("extension")); * ``` * * @param fieldName - The field name to check. * @param suffix - The expression representing the postfix. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ends with' comparison. */ export declare function endsWith(fieldName: string, suffix: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression ends with a given postfix. * * @example * ```typescript * // Check if the result of concatenating 'firstName' and 'lastName' fields ends with "Jr." * endsWith(field("fullName"), "Jr."); * ``` * * @param stringExpression - The expression to check. * @param suffix - The postfix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ends with' comparison. */ export declare function endsWith(stringExpression: Expression, suffix: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression ends with a given postfix. * * @example * ```typescript * // Check if the result of concatenating 'firstName' and 'lastName' fields ends with "Jr." * endsWith(field("fullName"), constant("Jr.")); * ``` * * @param stringExpression - The expression to check. * @param suffix - The postfix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ends with' comparison. */ export declare function endsWith(stringExpression: Expression, suffix: Expression): BooleanExpression; declare interface Entry<K, V> { key: K; value: V; } /** * @beta * * Creates an expression that checks if two expressions are equal. * * @example * ```typescript * // Check if the 'age' field is equal to an expression * equal(field("age"), field("minAge").add(10)); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the equality comparison. */ export declare function equal(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is equal to a constant value. * * @example * ```typescript * // Check if the 'age' field is equal to 21 * equal(field("age"), 21); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the equality comparison. */ export declare function equal(expression: Expression, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is equal to an expression. * * @example * ```typescript * // Check if the 'age' field is equal to the 'limit' field * equal("age", field("limit")); * ``` * * @param fieldName - The field name to compare. * @param expression - The expression to compare to. * @returns A new `Expression` representing the equality comparison. */ export declare function equal(fieldName: string, expression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is equal to a constant value. * * @example * ```typescript * // Check if the 'city' field is equal to string constant "London" * equal("city", "London"); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the equality comparison. */ export declare function equal(fieldName: string, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression, when evaluated, is equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'category' field is either "Electronics" or value of field 'primaryType' * equalAny(field("category"), [constant("Electronics"), field("primaryType")]); * ``` * * @param expression - The expression whose results to compare. * @param values - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'IN' comparison. */ export declare function equalAny(expression: Expression, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is equal to any of the provided values. * * @example * ```typescript * // Check if the 'category' field is set to a value in the disabledCategories field * equalAny(field("category"), field('disabledCategories')); * ``` * * @param expression - The expression whose results to compare. * @param arrayExpression - An expression that evaluates to an array, whose elements to check for equality to the input. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'IN' comparison. */ export declare function equalAny(expression: Expression, arrayExpression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'category' field is either "Electronics" or value of field 'primaryType' * equalAny("category", [constant("Electronics"), field("primaryType")]); * ``` * * @param fieldName - The field to compare. * @param values - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'IN' comparison. */ export declare function equalAny(fieldName: string, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'category' field is either "Electronics" or value of field 'primaryType' * equalAny("category", ["Electronics", field("primaryType")]); * ``` * * @param fieldName - The field to compare. * @param arrayExpression - An expression that evaluates to an array, whose elements to check for equality to the input field. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'IN' comparison. */ export declare function equalAny(fieldName: string, arrayExpression: Expression): BooleanExpression; /** * @beta * * Calculates the Euclidean distance between a field's vector value and a double array. * * @example * ```typescript * // Calculate the Euclidean distance between the 'location' field and a target location * euclideanDistance("location", [37.7749, -122.4194]); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vector - The other vector (as an array of doubles or VectorValue) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the Euclidean distance between the two vectors. */ export declare function euclideanDistance(fieldName: string, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the Euclidean distance between a field's vector value and a vector expression. * * @example * ```typescript * // Calculate the Euclidean distance between two vector fields: 'pointA' and 'pointB' * euclideanDistance("pointA", field("pointB")); * ``` * * @param fieldName - The name of the field containing the first vector. * @param vectorExpression - The other vector (represented as an `Expression`) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the Euclidean distance between the two vectors. */ export declare function euclideanDistance(fieldName: string, vectorExpression: Expression): FunctionExpression; /** * @beta * * Calculates the Euclidean distance between a vector expression and a double array. * * @example * ```typescript * // Calculate the Euclidean distance between the 'location' field and a target location * * euclideanDistance(field("location"), [37.7749, -122.4194]); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to compare against. * @param vector - The other vector (as an array of doubles or VectorValue) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the Euclidean distance between the two vectors. */ export declare function euclideanDistance(vectorExpression: Expression, vector: number[] | VectorValue): FunctionExpression; /** * @beta * * Calculates the Euclidean distance between two vector expressions. * * @example * ```typescript * // Calculate the Euclidean distance between two vector fields: 'pointA' and 'pointB' * euclideanDistance(field("pointA"), field("pointB")); * ``` * * @param vectorExpression - The first vector (represented as an `Expression`) to compare against. * @param otherVectorExpression - The other vector (represented as an `Expression`) to compare against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the Euclidean distance between the two vectors. */ export declare function euclideanDistance(vectorExpression: Expression, otherVectorExpression: Expression): FunctionExpression; /** * EventManager is responsible for mapping queries to query event emitters. * It handles "fan-out". -- Identical queries will re-use the same watch on the * backend. * * PORTING NOTE: On Web, EventManager `onListen` and `onUnlisten` need to be * assigned to SyncEngine's `listen()` and `unlisten()` API before usage. This * allows users to tree-shake the Watch logic. */ declare interface EventManager { onListen?: (query: Query_2, enableRemoteListen: boolean) => Promise<ViewSnapshot>; onUnlisten?: (query: Query_2, disableRemoteListen: boolean) => Promise<void>; onFirstRemoteStoreListen?: (query: Query_2) => Promise<void>; onLastRemoteStoreUnlisten?: (query: Query_2) => Promise<void>; terminate(): void; } /** * @beta * Executes a pipeline and returns a Promise to represent the asynchronous operation. * * The returned Promise can be used to track the progress of the pipeline execution * and retrieve the results (or handle any errors) asynchronously. * * The pipeline results are returned as a {@link @firebase/firestore/pipelines#PipelineSnapshot} that contains * a list of {@link @firebase/firestore/pipelines#PipelineResult} objects. Each {@link @firebase/firestore/pipelines#PipelineResult} typically * represents a single key/value map that has passed through all the * stages of the pipeline, however this might differ depending on the stages involved in the * pipeline. For example: * * <ul> * <li>If there are no stages or only transformation stages, each {@link @firebase/firestore/pipelines#PipelineResult} * represents a single document.</li> * <li>If there is an aggregation, only a single {@link @firebase/firestore/pipelines#PipelineResult} is returned, * representing the aggregated results over the entire dataset .</li> * <li>If there is an aggregation stage with grouping, each {@link @firebase/firestore/pipelines#PipelineResult} represents a * distinct group and its associated aggregated values.</li> * </ul> * * @example * ```typescript * const snapshot: PipelineSnapshot = await execute(firestore.pipeline().collection("books") * .where(gt(field("rating"), 4.5)) * .select("title", "author", "rating")); * * const results: PipelineResults = snapshot.results; * ``` * * @param pipeline - The pipeline to execute. * @returns A Promise representing the asynchronous pipeline execution. */ export declare function execute(pipeline: Pipeline_2): Promise<PipelineSnapshot>; /** * @beta * Executes a pipeline and returns a Promise to represent the asynchronous operation. * * The returned Promise can be used to track the progress of the pipeline execution * and retrieve the results (or handle any errors) asynchronously. * * The pipeline results are returned as a {@link @firebase/firestore/pipelines#PipelineSnapshot} that contains * a list of {@link @firebase/firestore/pipelines#PipelineResult} objects. Each {@link @firebase/firestore/pipelines#PipelineResult} typically * represents a single key/value map that has passed through all the * stages of the pipeline, however this might differ depending on the stages involved in the * pipeline. For example: * * <ul> * <li>If there are no stages or only transformation stages, each {@link @firebase/firestore/pipelines#PipelineResult} * represents a single document.</li> * <li>If there is an aggregation, only a single {@link @firebase/firestore/pipelines#PipelineResult} is returned, * representing the aggregated results over the entire dataset .</li> * <li>If there is an aggregation stage with grouping, each {@link @firebase/firestore/pipelines#PipelineResult} represents a * distinct group and its associated aggregated values.</li> * </ul> * * @example * ```typescript * const snapshot: PipelineSnapshot = await execute(firestore.pipeline().collection("books") * .where(gt(field("rating"), 4.5)) * .select("title", "author", "rating")); * * const results: PipelineResults = snapshot.results; * ``` * * @param options - Specifies the pipeline to execute and other options for execute. * @returns A Promise representing the asynchronous pipeline execution. */ export declare function execute(options: PipelineExecuteOptions): Promise<PipelineSnapshot>; /** * @beta * * Creates an expression that checks if a field exists. * * @example * ```typescript * // Check if the document has a field named "phoneNumber" * exists(field("phoneNumber")); * ``` * * @param value - An expression evaluates to the name of the field to check. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'exists' check. */ export declare function exists(value: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field exists. * * @example * ```typescript * // Check if the document has a field named "phoneNumber" * exists("phoneNumber"); * ``` * * @param fieldName - The field name to check. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'exists' check. */ export declare function exists(fieldName: string): BooleanExpression; /** * @beta * Creates an expression that computes e to the power of the expression's result. * * @example * ```typescript * // Compute e to the power of 2. * exp(constant(2)); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the exp of the numeric value. */ export declare function exp(expression: Expression): FunctionExpression; /** * @beta * Creates an expression that computes e to the power of the expression's result. * * @example * ```typescript * // Compute e to the power of the 'value' field. * exp('value'); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the exp of the numeric value. */ export declare function exp(fieldName: string): FunctionExpression; /** * @license * Copyright 2023 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 that configure the SDK’s underlying network transport (WebChannel) * when long-polling is used. * * Note: This interface is "experimental" and is subject to change. * * See `FirestoreSettings.experimentalAutoDetectLongPolling`, * `FirestoreSettings.experimentalForceLongPolling`, and * `FirestoreSettings.experimentalLongPollingOptions`. */ declare interface ExperimentalLongPollingOptions { /** * The desired maximum timeout interval, in seconds, to complete a * long-polling GET response. Valid values are between 5 and 30, inclusive. * Floating point values are allowed and will be rounded to the nearest * millisecond. * * By default, when long-polling is used the "hanging GET" request sent by * the client times out after 30 seconds. To request a different timeout * from the server, set this setting with the desired timeout. * * Changing the default timeout may be useful, for example, if the buffering * proxy that necessitated enabling long-polling in the first place has a * shorter timeout for hanging GET requests, in which case setting the * long-polling timeout to a shorter value, such as 25 seconds, may fix * prematurely-closed hanging GET requests. * For example, see https://github.com/firebase/firebase-js-sdk/issues/6987. */ timeoutSeconds?: number; } /** * @beta * * Represents an expression that can be evaluated to a value within the execution of a {@link * @firebase/firestore/pipelines#Pipeline}. * * Expressions are the building blocks for creating complex queries and transformations in * Firestore pipelines. They can represent: * * - **Field references:** Access values from document fields. * - **Literals:** Represent constant values (strings, numbers, booleans). * - **Function calls:** Apply functions to one or more expressions. * * The `Expression` class provides a fluent API for building expressions. You can chain together * method calls to create complex expressions. */ export declare abstract class Expression implements ProtoValueSerializable, UserData { abstract readonly expressionType: ExpressionType; abstract readonly _methodName?: string; /* Excluded from this release type: _toProto */ _protoValueType: "ProtoValue"; /* Excluded from this release type: _readUserData */ /** * Creates an expression that adds this expression to another expression. * * @example * ```typescript * // Add the value of the 'quantity' field and the 'reserve' field. * field("quantity").add(field("reserve")); * ``` * * @param second - The expression or literal to add to this expression. * @param others - Optional additional expressions or literals to add to this expression. * @returns A new `Expression` representing the addition operation. */ add(second: Expression | unknown): FunctionExpression; /** * @beta * Wraps the expression in a [BooleanExpression]. * * @returns A [BooleanExpression] representing the same expression. */ asBoolean(): BooleanExpression; /** * @beta * Creates an expression that subtracts another expression from this expression. * * @example * ```typescript * // Subtract the 'discount' field from the 'price' field * field("price").subtract(field("discount")); * ``` * * @param subtrahend - The expression to subtract from this expression. * @returns A new `Expression` representing the subtraction operation. */ subtract(subtrahend: Expression): FunctionExpression; /** * @beta * Creates an expression that subtracts a constant value from this expression. * * @example * ```typescript * // Subtract 20 from the value of the 'total' field * field("total").subtract(20); * ``` * * @param subtrahend - The constant value to subtract. * @returns A new `Expression` representing the subtraction operation. */ subtract(subtrahend: number): FunctionExpression; /** * @beta * Creates an expression that multiplies this expression by another expression. * * @example * ```typescript * // Multiply the 'quantity' field by the 'price' field * field("quantity").multiply(field("price")); * ``` * * @param second - The second expression or literal to multiply by. * @param others - Optional additional expressions or literals to multiply by. * @returns A new `Expression` representing the multiplication operation. */ multiply(second: Expression | number): FunctionExpression; /** * @beta * Creates an expression that divides this expression by another expression. * * @example * ```typescript * // Divide the 'total' field by the 'count' field * field("total").divide(field("count")); * ``` * * @param divisor - The expression to divide by. * @returns A new `Expression` representing the division operation. */ divide(divisor: Expression): FunctionExpression; /** * @beta * Creates an expression that divides this expression by a constant value. * * @example * ```typescript * // Divide the 'value' field by 10 * field("value").divide(10); * ``` * * @param divisor - The constant value to divide by. * @returns A new `Expression` representing the division operation. */ divide(divisor: number): FunctionExpression; /** * @beta * Creates an expression that calculates the modulo (remainder) of dividing this expression by another expression. * * @example * ```typescript * // Calculate the remainder of dividing the 'value' field by the 'divisor' field * field("value").mod(field("divisor")); * ``` * * @param expression - The expression to divide by. * @returns A new `Expression` representing the modulo operation. */ mod(expression: Expression): FunctionExpression; /** * @beta * Creates an expression that calculates the modulo (remainder) of dividing this expression by a constant value. * * @example * ```typescript * // Calculate the remainder of dividing the 'value' field by 10 * field("value").mod(10); * ``` * * @param value - The constant value to divide by. * @returns A new `Expression` representing the modulo operation. */ mod(value: number): FunctionExpression; /** * @beta * Creates an expression that checks if this expression is equal to another expression. * * @example * ```typescript * // Check if the 'age' field is equal to 21 * field("age").equal(21); * ``` * * @param expression - The expression to compare for equality. * @returns A new `Expression` representing the equality comparison. */ equal(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is equal to a constant value. * * @example * ```typescript * // Check if the 'city' field is equal to "London" * field("city").equal("London"); * ``` * * @param value - The constant value to compare for equality. * @returns A new `Expression` representing the equality comparison. */ equal(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is not equal to another expression. * * @example * ```typescript * // Check if the 'status' field is not equal to "completed" * field("status").notEqual("completed"); * ``` * * @param expression - The expression to compare for inequality. * @returns A new `Expression` representing the inequality comparison. */ notEqual(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is not equal to a constant value. * * @example * ```typescript * // Check if the 'country' field is not equal to "USA" * field("country").notEqual("USA"); * ``` * * @param value - The constant value to compare for inequality. * @returns A new `Expression` representing the inequality comparison. */ notEqual(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is less than another expression. * * @example * ```typescript * // Check if the 'age' field is less than 'limit' * field("age").lessThan(field('limit')); * ``` * * @param experession - The expression to compare for less than. * @returns A new `Expression` representing the less than comparison. */ lessThan(experession: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is less than a constant value. * * @example * ```typescript * // Check if the 'price' field is less than 50 * field("price").lessThan(50); * ``` * * @param value - The constant value to compare for less than. * @returns A new `Expression` representing the less than comparison. */ lessThan(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is less than or equal to another * expression. * * @example * ```typescript * // Check if the 'quantity' field is less than or equal to 20 * field("quantity").lessThan(constant(20)); * ``` * * @param expression - The expression to compare for less than or equal to. * @returns A new `Expression` representing the less than or equal to comparison. */ lessThanOrEqual(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is less than or equal to a constant value. * * @example * ```typescript * // Check if the 'score' field is less than or equal to 70 * field("score").lessThan(70); * ``` * * @param value - The constant value to compare for less than or equal to. * @returns A new `Expression` representing the less than or equal to comparison. */ lessThanOrEqual(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is greater than another expression. * * @example * ```typescript * // Check if the 'age' field is greater than the 'limit' field * field("age").greaterThan(field("limit")); * ``` * * @param expression - The expression to compare for greater than. * @returns A new `Expression` representing the greater than comparison. */ greaterThan(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is greater than a constant value. * * @example * ```typescript * // Check if the 'price' field is greater than 100 * field("price").greaterThan(100); * ``` * * @param value - The constant value to compare for greater than. * @returns A new `Expression` representing the greater than comparison. */ greaterThan(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is greater than or equal to another * expression. * * @example * ```typescript * // Check if the 'quantity' field is greater than or equal to field 'requirement' plus 1 * field("quantity").greaterThanOrEqual(field('requirement').add(1)); * ``` * * @param expression - The expression to compare for greater than or equal to. * @returns A new `Expression` representing the greater than or equal to comparison. */ greaterThanOrEqual(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is greater than or equal to a constant * value. * * @example * ```typescript * // Check if the 'score' field is greater than or equal to 80 * field("score").greaterThanOrEqual(80); * ``` * * @param value - The constant value to compare for greater than or equal to. * @returns A new `Expression` representing the greater than or equal to comparison. */ greaterThanOrEqual(value: unknown): BooleanExpression; /** * @beta * Creates an expression that concatenates an array expression with one or more other arrays. * * @example * ```typescript * // Combine the 'items' array with another array field. * field("items").arrayConcat(field("otherItems")); * ``` * @param secondArray - Second array expression or array literal to concatenate. * @param otherArrays - Optional additional array expressions or array literals to concatenate. * @returns A new `Expression` representing the concatenated array. */ arrayConcat(secondArray: Expression | unknown[], ...otherArrays: Array<Expression | unknown[]>): FunctionExpression; /** * @beta * Creates an expression that checks if an array contains a specific element. * * @example * ```typescript * // Check if the 'sizes' array contains the value from the 'selectedSize' field * field("sizes").arrayContains(field("selectedSize")); * ``` * * @param expression - The element to search for in the array. * @returns A new `Expression` representing the 'array_contains' comparison. */ arrayContains(expression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if an array contains a specific value. * * @example * ```typescript * // Check if the 'colors' array contains "red" * field("colors").arrayContains("red"); * ``` * * @param value - The element to search for in the array. * @returns A new `Expression` representing the 'array_contains' comparison. */ arrayContains(value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if an array contains all the specified elements. * * @example * ```typescript * // Check if the 'tags' array contains both the value in field "tag1" and the literal value "tag2" * field("tags").arrayContainsAll([field("tag1"), "tag2"]); * ``` * * @param values - The elements to check for in the array. * @returns A new `Expression` representing the 'array_contains_all' comparison. */ arrayContainsAll(values: Array<Expression | unknown>): BooleanExpression; /** * @beta * Creates an expression that checks if an array contains all the specified elements. * * @example * ```typescript * // Check if the 'tags' array contains both of the values from field "tag1" and the literal value "tag2" * field("tags").arrayContainsAll(array([field("tag1"), "tag2"])); * ``` * * @param arrayExpression - The elements to check for in the array. * @returns A new `Expression` representing the 'array_contains_all' comparison. */ arrayContainsAll(arrayExpression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if an array contains any of the specified elements. * * @example * ```typescript * // Check if the 'categories' array contains either values from field "cate1" or "cate2" * field("categories").arrayContainsAny([field("cate1"), field("cate2")]); * ``` * * @param values - The elements to check for in the array. * @returns A new `Expression` representing the 'array_contains_any' comparison. */ arrayContainsAny(values: Array<Expression | unknown>): BooleanExpression; /** * @beta * Creates an expression that checks if an array contains any of the specified elements. * * @example * ```typescript * // Check if the 'groups' array contains either the value from the 'userGroup' field * // or the value "guest" * field("groups").arrayContainsAny(array([field("userGroup"), "guest"])); * ``` * * @param arrayExpression - The elements to check for in the array. * @returns A new `Expression` representing the 'array_contains_any' comparison. */ arrayContainsAny(arrayExpression: Expression): BooleanExpression; /** * @beta * Creates an expression that reverses an array. * * @example * ```typescript * // Reverse the value of the 'myArray' field. * field("myArray").arrayReverse(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed array. */ arrayReverse(): FunctionExpression; /** * @beta * Creates an expression that calculates the length of an array. * * @example * ```typescript * // Get the number of items in the 'cart' array * field("cart").arrayLength(); * ``` * * @returns A new `Expression` representing the length of the array. */ arrayLength(): FunctionExpression; /** * @beta * Creates an expression that checks if this expression is equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'category' field is either "Electronics" or value of field 'primaryType' * field("category").equalAny("Electronics", field("primaryType")); * ``` * * @param values - The values or expressions to check against. * @returns A new `Expression` representing the 'IN' comparison. */ equalAny(values: Array<Expression | unknown>): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'category' field is either "Electronics" or value of field 'primaryType' * field("category").equalAny(array(["Electronics", field("primaryType")])); * ``` * * @param arrayExpression - An expression that evaluates to an array of values to check against. * @returns A new `Expression` representing the 'IN' comparison. */ equalAny(arrayExpression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is not equal to any of the provided values or * expressions. * * @example * ```typescript * // Check if the 'status' field is neither "pending" nor the value of 'rejectedStatus' * field("status").notEqualAny(["pending", field("rejectedStatus")]); * ``` * * @param values - The values or expressions to check against. * @returns A new `Expression` representing the 'notEqualAny' comparison. */ notEqualAny(values: Array<Expression | unknown>): BooleanExpression; /** * @beta * Creates an expression that checks if this expression is not equal to any of the values in the evaluated expression. * * @example * ```typescript * // Check if the 'status' field is not equal to any value in the field 'rejectedStatuses' * field("status").notEqualAny(field('rejectedStatuses')); * ``` * * @param arrayExpression - The values or expressions to check against. * @returns A new `Expression` representing the 'notEqualAny' comparison. */ notEqualAny(arrayExpression: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if a field exists in the document. * * @example * ```typescript * // Check if the document has a field named "phoneNumber" * field("phoneNumber").exists(); * ``` * * @returns A new `Expression` representing the 'exists' check. */ exists(): BooleanExpression; /** * @beta * Creates an expression that calculates the character length of a string in UTF-8. * * @example * ```typescript * // Get the character length of the 'name' field in its UTF-8 form. * field("name").charLength(); * ``` * * @returns A new `Expression` representing the length of the string. */ charLength(): FunctionExpression; /** * @beta * Creates an expression that performs a case-sensitive string comparison. * * @example * ```typescript * // Check if the 'title' field contains the word "guide" (case-sensitive) * field("title").like("%guide%"); * ``` * * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new `Expression` representing the 'like' comparison. */ like(pattern: string): BooleanExpression; /** * @beta * Creates an expression that performs a case-sensitive string comparison. * * @example * ```typescript * // Check if the 'title' field contains the word "guide" (case-sensitive) * field("title").like("%guide%"); * ``` * * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new `Expression` representing the 'like' comparison. */ like(pattern: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if a string contains a specified regular expression as a * substring. * * @example * ```typescript * // Check if the 'description' field contains "example" (case-insensitive) * field("description").regexContains("(?i)example"); * ``` * * @param pattern - The regular expression to use for the search. * @returns A new `Expression` representing the 'contains' comparison. */ regexContains(pattern: string): BooleanExpression; /** * @beta * Creates an expression that checks if a string contains a specified regular expression as a * substring. * * @example * ```typescript * // Check if the 'description' field contains the regular expression stored in field 'regex' * field("description").regexContains(field("regex")); * ``` * * @param pattern - The regular expression to use for the search. * @returns A new `Expression` representing the 'contains' comparison. */ regexContains(pattern: Expression): BooleanExpression; /** * @beta * Creates an expression that returns the first substring of a string expression that matches * a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract the domain from an email address * field("email").regexFind("@.+") * ``` * * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ regexFind(pattern: string): FunctionExpression; /** * @beta * Creates an expression that returns the first substring of a string expression that matches * a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract the domain from an email address * field("email").regexFind(field("domain")) * ``` * * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ regexFind(pattern: Expression): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in this string expression that * match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all hashtags from a post content field * field("content").regexFindAll("#[A-Za-z0-9_]+") * ``` * * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} that evaluates to an array of matched substrings. */ regexFindAll(pattern: string): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in this string expression that * match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all names from a post content field * field("content").regexFindAll(field("names")) * ``` * * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} that evaluates to an array of matched substrings. */ regexFindAll(pattern: Expression): FunctionExpression; /** * @beta * Creates an expression that checks if a string matches a specified regular expression. * * @example * ```typescript * // Check if the 'email' field matches a valid email pattern * field("email").regexMatch("[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\\.[A-Za-z]{2,}"); * ``` * * @param pattern - The regular expression to use for the match. * @returns A new `Expression` representing the regular expression match. */ regexMatch(pattern: string): BooleanExpression; /** * @beta * Creates an expression that checks if a string matches a specified regular expression. * * @example * ```typescript * // Check if the 'email' field matches a regular expression stored in field 'regex' * field("email").regexMatch(field("regex")); * ``` * * @param pattern - The regular expression to use for the match. * @returns A new `Expression` representing the regular expression match. */ regexMatch(pattern: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if a string contains a specified substring. * * @example * ```typescript * // Check if the 'description' field contains "example". * field("description").stringContains("example"); * ``` * * @param substring - The substring to search for. * @returns A new `Expression` representing the 'contains' comparison. */ stringContains(substring: string): BooleanExpression; /** * @beta * Creates an expression that checks if a string contains the string represented by another expression. * * @example * ```typescript * // Check if the 'description' field contains the value of the 'keyword' field. * field("description").stringContains(field("keyword")); * ``` * * @param expr - The expression representing the substring to search for. * @returns A new `Expression` representing the 'contains' comparison. */ stringContains(expr: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if a string starts with a given prefix. * * @example * ```typescript * // Check if the 'name' field starts with "Mr." * field("name").startsWith("Mr."); * ``` * * @param prefix - The prefix to check for. * @returns A new `Expression` representing the 'starts with' comparison. */ startsWith(prefix: string): BooleanExpression; /** * @beta * Creates an expression that checks if a string starts with a given prefix (represented as an * expression). * * @example * ```typescript * // Check if the 'fullName' field starts with the value of the 'firstName' field * field("fullName").startsWith(field("firstName")); * ``` * * @param prefix - The prefix expression to check for. * @returns A new `Expression` representing the 'starts with' comparison. */ startsWith(prefix: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if a string ends with a given postfix. * * @example * ```typescript * // Check if the 'filename' field ends with ".txt" * field("filename").endsWith(".txt"); * ``` * * @param suffix - The postfix to check for. * @returns A new `Expression` representing the 'ends with' comparison. */ endsWith(suffix: string): BooleanExpression; /** * @beta * Creates an expression that checks if a string ends with a given postfix (represented as an * expression). * * @example * ```typescript * // Check if the 'url' field ends with the value of the 'extension' field * field("url").endsWith(field("extension")); * ``` * * @param suffix - The postfix expression to check for. * @returns A new `Expression` representing the 'ends with' comparison. */ endsWith(suffix: Expression): BooleanExpression; /** * @beta * Creates an expression that converts a string to lowercase. * * @example * ```typescript * // Convert the 'name' field to lowercase * field("name").toLower(); * ``` * * @returns A new `Expression` representing the lowercase string. */ toLower(): FunctionExpression; /** * @beta * Creates an expression that converts a string to uppercase. * * @example * ```typescript * // Convert the 'title' field to uppercase * field("title").toUpper(); * ``` * * @returns A new `Expression` representing the uppercase string. */ toUpper(): FunctionExpression; /** * @beta * Creates an expression that removes leading and trailing characters from a string or byte array. * * @example * ```typescript * // Trim whitespace from the 'userInput' field * field("userInput").trim(); * * // Trim quotes from the 'userInput' field * field("userInput").trim('"'); * ``` * @param valueToTrim - Optional This parameter is treated as a set of characters or bytes that will be * trimmed from the input. If not specified, then whitespace will be trimmed. * @returns A new `Expression` representing the trimmed string or byte array. */ trim(valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Trims whitespace or a specified set of characters/bytes from the beginning of a string or byte array. * * @example * ```typescript * // Trim whitespace from the beginning of the 'userInput' field * field("userInput").ltrim(); * * // Trim quotes from the beginning of the 'userInput' field * field("userInput").ltrim('"'); * ``` * * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new `Expression` representing the trimmed string. */ ltrim(valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Trims whitespace or a specified set of characters/bytes from the end of a string or byte array. * * @example * ```typescript * // Trim whitespace from the end of the 'userInput' field * field("userInput").rtrim(); * * // Trim quotes from the end of the 'userInput' field * field("userInput").rtrim('"'); * ``` * * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new `Expression` representing the trimmed string or byte array. */ rtrim(valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that returns the data type of this expression's result, as a string. * * @remarks * This is evaluated on the backend. This means: * 1. Generic typed elements (like `array<string>`) evaluate strictly to the primitive `'array'`. * 2. Any custom `FirestoreDataConverter` mappings are ignored. * 3. For numeric values, the backend does not yield the JavaScript `"number"` type; it evaluates * precisely as `"int64"` or `"float64"`. * 4. For date or timestamp objects, the backend evaluates to `"timestamp"`. * * @example * ```typescript * // Get the data type of the value in field 'title' * field('title').type() * ``` * * @returns A new `Expression` representing the data type. */ type(): FunctionExpression; /** * @beta * Creates an expression that checks if the result of this expression is of the given type. * * @remarks Null or undefined fields evaluate to skip/error. Use `ifAbsent()` / `isAbsent()` to evaluate missing data. * * @example * ```typescript * // Check if the 'price' field is specifically an integer (not just 'number') * field('price').isType('int64'); * ``` * * @param type - The type to check for. * @returns A new `BooleanExpression` that evaluates to true if the expression's result is of the given type, false otherwise. */ isType(type: Type): BooleanExpression; /** * @beta * Creates an expression that concatenates string expressions together. * * @example * ```typescript * // Combine the 'firstName', " ", and 'lastName' fields into a single string * field("firstName").stringConcat(constant(" "), field("lastName")); * ``` * * @param secondString - The additional expression or string literal to concatenate. * @param otherStrings - Optional additional expressions or string literals to concatenate. * @returns A new `Expression` representing the concatenated string. */ stringConcat(secondString: Expression | string, ...otherStrings: Array<Expression | string>): FunctionExpression; /** * @beta * Creates an expression that finds the index of the first occurrence of a substring or byte sequence. * * @example * ```typescript * // Find the index of "foo" in the 'text' field * field("text").stringIndexOf("foo"); * ``` * * @param search - The substring or byte sequence to search for. * @returns A new `Expression` representing the index of the first occurrence. */ stringIndexOf(search: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that repeats a string or byte array a specified number of times. * * @example * ```typescript * // Repeat the 'label' field 3 times * field("label").stringRepeat(3); * ``` * * @param repetitions - The number of times to repeat the string or byte array. * @returns A new `Expression` representing the repeated string or byte array. */ stringRepeat(repetitions: number | Expression): FunctionExpression; /** * @beta * Creates an expression that replaces all occurrences of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace all occurrences of "foo" with "bar" in the 'text' field * field("text").stringReplaceAll("foo", "bar"); * ``` * * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new `Expression` representing the string or byte array with replacements. */ stringReplaceAll(find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that replaces the first occurrence of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace the first occurrence of "foo" with "bar" in the 'text' field * field("text").stringReplaceOne("foo", "bar"); * ``` * * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new `Expression` representing the string or byte array with the replacement. */ stringReplaceOne(find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that concatenates expression results together. * * @example * ```typescript * // Combine the 'firstName', ' ', and 'lastName' fields into a single value. * field("firstName").concat(constant(" "), field("lastName")); * ``` * * @param second - The additional expression or literal to concatenate. * @param others - Optional additional expressions or literals to concatenate. * @returns A new `Expression` representing the concatenated value. */ concat(second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * Creates an expression that reverses this string expression. * * @example * ```typescript * // Reverse the value of the 'myString' field. * field("myString").reverse(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ reverse(): FunctionExpression; /** * @beta * Creates an expression that calculates the length of this string expression in bytes. * * @example * ```typescript * // Calculate the length of the 'myString' field in bytes. * field("myString").byteLength(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the string in bytes. */ byteLength(): FunctionExpression; /** * @beta * Creates an expression that computes the ceiling of a numeric value. * * @example * ```typescript * // Compute the ceiling of the 'price' field. * field("price").ceil(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the ceiling of the numeric value. */ ceil(): FunctionExpression; /** * @beta * Creates an expression that computes the floor of a numeric value. * * @example * ```typescript * // Compute the floor of the 'price' field. * field("price").floor(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the floor of the numeric value. */ floor(): FunctionExpression; /** * @beta * Creates an expression that computes the absolute value of a numeric value. * * @example * ```typescript * // Compute the absolute value of the 'price' field. * field("price").abs(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the absolute value of the numeric value. */ abs(): FunctionExpression; /** * @beta * Creates an expression that computes e to the power of this expression. * * @example * ```typescript * // Compute e to the power of the 'value' field. * field("value").exp(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the exp of the numeric value. */ exp(): FunctionExpression; /** * @beta * Accesses a value from a map (object) field using the provided key. * * @example * ```typescript * // Get the 'city' value from the 'address' map field * field("address").mapGet("city"); * ``` * * @param subfield - The key to access in the map. * @returns A new `Expression` representing the value associated with the given key in the map. */ mapGet(subfield: string): FunctionExpression; /** * @beta * Creates an expression that returns a new map with the specified entries added or updated. * * @remarks * Note that `mapSet` only performs shallow updates to the map. Setting a value to `null` * will retain the key with a `null` value. To remove a key entirely, use `mapRemove`. * * @example * ```typescript * // Set the 'city' to "San Francisco" in the 'address' map * field("address").mapSet("city", "San Francisco"); * ``` * * @param key - The key to set. Must be a string or a constant string expression. * @param value - The value to set. * @param moreKeyValues - Additional key-value pairs to set. * @returns A new `Expression` representing the map with the entries set. */ mapSet(key: string | Expression, value: unknown, ...moreKeyValues: unknown[]): FunctionExpression; /** * @beta * Creates an expression that returns the keys of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the keys of the 'address' map * field("address").mapKeys(); * ``` * * @returns A new `Expression` representing the keys of the map. */ mapKeys(): FunctionExpression; /** * @beta * Creates an expression that returns the values of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the values of the 'address' map * field("address").mapValues(); * ``` * * @returns A new `Expression` representing the values of the map. */ mapValues(): FunctionExpression; /** * @beta * Creates an expression that returns the entries of a map as an array of maps, * where each map contains a `"k"` property for the key and a `"v"` property for the value. * For example: `[{ k: "key1", v: "value1" }, ...]`. * * @example * ```typescript * // Get the entries of the 'address' map * field("address").mapEntries(); * ``` * * @returns A new `Expression` representing the entries of the map. */ mapEntries(): FunctionExpression; /** * @beta * Creates an aggregation that counts the number of stage inputs with valid evaluations of the * expression or field. * * @example * ```typescript * // Count the total number of products * field("productId").count().as("totalProducts"); * ``` * * @returns A new `AggregateFunction` representing the 'count' aggregation. */ count(): AggregateFunction; /** * @beta * Creates an aggregation that calculates the sum of a numeric field across multiple stage inputs. * * @example * ```typescript * // Calculate the total revenue from a set of orders * field("orderAmount").sum().as("totalRevenue"); * ``` * * @returns A new `AggregateFunction` representing the 'sum' aggregation. */ sum(): AggregateFunction; /** * @beta * Creates an aggregation that calculates the average (mean) of a numeric field across multiple * stage inputs. * * @example * ```typescript * // Calculate the average age of users * field("age").average().as("averageAge"); * ``` * * @returns A new `AggregateFunction` representing the 'average' aggregation. */ average(): AggregateFunction; /** * @beta * Creates an aggregation that finds the minimum value of a field across multiple stage inputs. * * @example * ```typescript * // Find the lowest price of all products * field("price").minimum().as("lowestPrice"); * ``` * * @returns A new `AggregateFunction` representing the 'minimum' aggregation. */ minimum(): AggregateFunction; /** * @beta * Creates an aggregation that finds the maximum value of a field across multiple stage inputs. * * @example * ```typescript * // Find the highest score in a leaderboard * field("score").maximum().as("highestScore"); * ``` * * @returns A new `AggregateFunction` representing the 'maximum' aggregation. */ maximum(): AggregateFunction; /** * @beta * Creates an aggregation that finds the first value of an expression across multiple stage inputs. * * @example * ```typescript * // Find the first value of the 'rating' field * field("rating").first().as("firstRating"); * ``` * * @returns A new `AggregateFunction` representing the 'first' aggregation. */ first(): AggregateFunction; /** * @beta * Creates an aggregation that finds the last value of an expression across multiple stage inputs. * * @example * ```typescript * // Find the last value of the 'rating' field * field("rating").last().as("lastRating"); * ``` * * @returns A new `AggregateFunction` representing the 'last' aggregation. */ last(): AggregateFunction; /** * @beta * Creates an aggregation that collects all values of an expression across multiple stage inputs * into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all tags from books into an array * field("tags").arrayAgg().as("allTags"); * ``` * * @returns A new `AggregateFunction` representing the 'array_agg' aggregation. */ arrayAgg(): AggregateFunction; /** * @beta * Creates an aggregation that collects all distinct values of an expression across multiple stage * inputs into an array. * * @remarks * If the expression resolves to an absent value, it is converted to `null`. * The order of elements in the output array is not stable and shouldn't be relied upon. * * @example * ```typescript * // Collect all distinct tags from books into an array * field("tags").arrayAggDistinct().as("allDistinctTags"); * ``` * * @returns A new `AggregateFunction` representing the 'array_agg_distinct' aggregation. */ arrayAggDistinct(): AggregateFunction; /** * @beta * Creates an aggregation that counts the number of distinct values of the expression or field. * * @example * ```typescript * // Count the distinct number of products * field("productId").countDistinct().as("distinctProducts"); * ``` * * @returns A new `AggregateFunction` representing the 'count_distinct' aggregation. */ countDistinct(): AggregateFunction; /** * @beta * Creates an expression that returns the larger value between this expression and another expression, based on Firestore's value type ordering. * * @example * ```typescript * // Returns the larger value between the 'timestamp' field and the current timestamp. * field("timestamp").logicalMaximum(Function.currentTimestamp()); * ``` * * @param second - The second expression or literal to compare with. * @param others - Optional additional expressions or literals to compare with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical maximum operation. */ logicalMaximum(second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * Creates an expression that returns the smaller value between this expression and another expression, based on Firestore's value type ordering. * * @example * ```typescript * // Returns the smaller value between the 'timestamp' field and the current timestamp. * field("timestamp").logicalMinimum(Function.currentTimestamp()); * ``` * * @param second - The second expression or literal to compare with. * @param others - Optional additional expressions or literals to compare with. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical minimum operation. */ logicalMinimum(second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * Creates an expression that calculates the length (number of dimensions) of this Firestore Vector expression. * * @example * ```typescript * // Get the vector length (dimension) of the field 'embedding'. * field("embedding").vectorLength(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the vector. */ vectorLength(): FunctionExpression; /** * @beta * Calculates the cosine distance between two vectors. * * @example * ```typescript * // Calculate the cosine distance between the 'userVector' field and the 'itemVector' field * field("userVector").cosineDistance(field("itemVector")); * ``` * * @param vectorExpression - The other vector (represented as an Expression) to compare against. * @returns A new `Expression` representing the cosine distance between the two vectors. */ cosineDistance(vectorExpression: Expression): FunctionExpression; /** * @beta * Calculates the Cosine distance between two vectors. * * @example * ```typescript * // Calculate the Cosine distance between the 'location' field and a target location * field("location").cosineDistance(new VectorValue([37.7749, -122.4194])); * ``` * * @param vector - The other vector (as a VectorValue) to compare against. * @returns A new `Expression` representing the Cosine* distance between the two vectors. */ cosineDistance(vector: VectorValue | number[]): FunctionExpression; /** * @beta * Calculates the dot product between two vectors. * * @example * ```typescript * // Calculate the dot product between a feature vector and a target vector * field("features").dotProduct([0.5, 0.8, 0.2]); * ``` * * @param vectorExpression - The other vector (as an array of numbers) to calculate with. * @returns A new `Expression` representing the dot product between the two vectors. */ dotProduct(vectorExpression: Expression): FunctionExpression; /** * @beta * Calculates the dot product between two vectors. * * @example * ```typescript * // Calculate the dot product between a feature vector and a target vector * field("features").dotProduct(new VectorValue([0.5, 0.8, 0.2])); * ``` * * @param vector - The other vector (as an array of numbers) to calculate with. * @returns A new `Expression` representing the dot product between the two vectors. */ dotProduct(vector: VectorValue | number[]): FunctionExpression; /** * @beta * Calculates the Euclidean distance between two vectors. * * @example * ```typescript * // Calculate the Euclidean distance between the 'location' field and a target location * field("location").euclideanDistance([37.7749, -122.4194]); * ``` * * @param vectorExpression - The other vector (as an array of numbers) to calculate with. * @returns A new `Expression` representing the Euclidean distance between the two vectors. */ euclideanDistance(vectorExpression: Expression): FunctionExpression; /** * @beta * Calculates the Euclidean distance between two vectors. * * @example * ```typescript * // Calculate the Euclidean distance between the 'location' field and a target location * field("location").euclideanDistance(new VectorValue([37.7749, -122.4194])); * ``` * * @param vector - The other vector (as a VectorValue) to compare against. * @returns A new `Expression` representing the Euclidean distance between the two vectors. */ euclideanDistance(vector: VectorValue | number[]): FunctionExpression; /** * @beta * Creates an expression that interprets this expression as the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'microseconds' field as microseconds since epoch. * field("microseconds").unixMicrosToTimestamp(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ unixMicrosToTimestamp(): FunctionExpression; /** * @beta * Creates an expression that converts this timestamp expression to the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to microseconds since epoch. * field("timestamp").timestampToUnixMicros(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of microseconds since epoch. */ timestampToUnixMicros(): FunctionExpression; /** * @beta * Creates an expression that interprets this expression as the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'milliseconds' field as milliseconds since epoch. * field("milliseconds").unixMillisToTimestamp(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ unixMillisToTimestamp(): FunctionExpression; /** * @beta * Creates an expression that converts this timestamp expression to the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to milliseconds since epoch. * field("timestamp").timestampToUnixMillis(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of milliseconds since epoch. */ timestampToUnixMillis(): FunctionExpression; /** * @beta * Creates an expression that interprets this expression as the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'seconds' field as seconds since epoch. * field("seconds").unixSecondsToTimestamp(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ unixSecondsToTimestamp(): FunctionExpression; /** * @beta * Creates an expression that converts this timestamp expression to the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to seconds since epoch. * field("timestamp").timestampToUnixSeconds(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of seconds since epoch. */ timestampToUnixSeconds(): FunctionExpression; /** * @beta * Creates an expression that adds a specified amount of time to this timestamp expression. * * @example * ```typescript * // Add some duration determined by field 'unit' and 'amount' to the 'timestamp' field. * field("timestamp").timestampAdd(field("unit"), field("amount")); * ``` * * @param unit - The expression evaluates to unit of time, must be one of 'microsecond', 'millisecond', 'second', 'minute', 'hour', 'day'. * @param amount - The expression evaluates to amount of the unit. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ timestampAdd(unit: Expression, amount: Expression): FunctionExpression; /** * @beta * Creates an expression that adds a specified amount of time to this timestamp expression. * * @example * ```typescript * // Add 1 day to the 'timestamp' field. * field("timestamp").timestampAdd("day", 1); * ``` * * @param unit - The unit of time to add (e.g., "day", "hour"). * @param amount - The amount of time to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ timestampAdd(unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * Creates an expression that subtracts a specified amount of time from this timestamp expression. * * @example * ```typescript * // Subtract some duration determined by field 'unit' and 'amount' from the 'timestamp' field. * field("timestamp").timestampSubtract(field("unit"), field("amount")); * ``` * * @param unit - The expression evaluates to unit of time, must be one of 'microsecond', 'millisecond', 'second', 'minute', 'hour', 'day'. * @param amount - The expression evaluates to amount of the unit. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ timestampSubtract(unit: Expression, amount: Expression): FunctionExpression; /** * @beta * Creates an expression that subtracts a specified amount of time from this timestamp expression. * * @example * ```typescript * // Subtract 1 day from the 'timestamp' field. * field("timestamp").timestampSubtract("day", 1); * ``` * * @param unit - The unit of time to subtract (e.g., "day", "hour"). * @param amount - The amount of time to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ timestampSubtract(unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * * Creates an expression that returns the document ID from a path. * * @example * ```typescript * // Get the document ID from a path. * field("__path__").documentId(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the documentId operation. */ documentId(): FunctionExpression; /** * @beta * * Creates an expression that returns a substring of the results of this expression. * * @param position - Index of the first character of the substring. * @param length - Length of the substring. If not provided, the substring will * end at the end of the input. */ substring(position: number, length?: number): FunctionExpression; /** * @beta * * Creates an expression that returns a substring of the results of this expression. * * @param position - An expression returning the index of the first character of the substring. * @param length - An expression returning the length of the substring. If not provided the * substring will end at the end of the input. */ substring(position: Expression, length?: Expression): FunctionExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and returns the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the 'tags' field array at index `1`. * field('tags').arrayGet(1); * ``` * * @param offset - The index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ arrayGet(offset: number): FunctionExpression; /** * @beta * Creates an expression that indexes into an array from the beginning or end * and returns the element. If the offset exceeds the array length, an error is * returned. A negative offset, starts from the end. * * @example * ```typescript * // Return the value in the tags field array at index specified by field * // 'favoriteTag'. * field('tags').arrayGet(field('favoriteTag')); * ``` * * @param offsetExpr - An `Expression` evaluating to the index of the element to return. * @returns A new `Expression` representing the 'arrayGet' operation. */ arrayGet(offsetExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that checks if a given expression produces an error. * * @example * ```typescript * // Check if the result of a calculation is an error * field("title").arrayContains(1).isError(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#BooleanExpression} representing the 'isError' check. */ isError(): BooleanExpression; /** * @beta * * Creates an expression that returns the result of the `catchExpr` argument * if there is an error, else return the result of this expression. * * @example * ```typescript * // Returns the first item in the title field arrays, or returns * // the entire title field if the array is empty or the field is another type. * field("title").arrayGet(0).ifError(field("title")); * ``` * * @param catchExpr - The catch expression that will be evaluated and * returned if this expression produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of this expression. * * @example * ```typescript * // Returns the first item in the title field arrays, or returns * // "Default Title" * field("title").arrayGet(0).ifError("Default Title"); * ``` * * @param catchValue - The value that will be returned if this expression * produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ ifError(catchValue: unknown): FunctionExpression; /** * @beta * * Creates an expression that returns `true` if the result of this expression * is absent. Otherwise, returns `false` even if the value is `null`. * * @example * ```typescript * // Check if the field `value` is absent. * field("value").isAbsent(); * @example * ``` * * @returns A new {@link @firebase/firestore/pipelines#BooleanExpression} representing the 'isAbsent' check. */ isAbsent(): BooleanExpression; /** * @beta * * Creates an expression that removes a key from the map produced by evaluating this expression. * * @example * ``` * // Removes the key 'baz' from the input map. * map({foo: 'bar', baz: true}).mapRemove('baz'); * ``` * * @param key - The name of the key to remove from the input map. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'mapRemove' operation. */ mapRemove(key: string): FunctionExpression; /** * @beta * * Creates an expression that removes a key from the map produced by evaluating this expression. * * @example * ``` * // Removes the key 'baz' from the input map. * map({foo: 'bar', baz: true}).mapRemove(constant('baz')); * @example * ``` * * @param keyExpr - An expression that produces the name of the key to remove from the input map. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'mapRemove' operation. */ mapRemove(keyExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that merges multiple map values. * * @example * ``` * // Merges the map in the settings field with, a map literal, and a map in * // that is conditionally returned by another expression * field('settings').mapMerge({ enabled: true }, conditional(field('isAdmin'), { admin: true}, {}) * ``` * * @param secondMap - A required second map to merge. Represented as a literal or * an expression that returns a map. * @param otherMaps - Optional additional maps to merge. Each map is represented * as a literal or an expression that returns a map. * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'mapMerge' operation. */ mapMerge(secondMap: Record<string, unknown> | Expression, ...otherMaps: Array<Record<string, unknown> | Expression>): FunctionExpression; /** * @beta * Creates an expression that returns the value of this expression raised to the power of another expression. * * @example * ```typescript * // Raise the value of the 'base' field to the power of the 'exponent' field. * field("base").pow(field("exponent")); * ``` * * @param exponent - The expression to raise this expression to the power of. * @returns A new `Expression` representing the power operation. */ pow(exponent: Expression): FunctionExpression; /** * @beta * Creates an expression that returns the value of this expression raised to the power of a constant value. * * @example * ```typescript * // Raise the value of the 'base' field to the power of 2. * field("base").pow(2); * ``` * * @param exponent - The constant value to raise this expression to the power of. * @returns A new `Expression` representing the power operation. */ pow(exponent: number): FunctionExpression; /** * @beta * Creates an expression that truncates the numeric value to an integer. * * @example * ```typescript * // Truncate the 'rating' field * field("rating").trunc(); * ``` * * @returns A new `Expression` representing the truncated value. */ trunc(): FunctionExpression; /** * @beta * Creates an expression that truncates a numeric value to the specified number of decimal places. * * @example * ```typescript * // Truncate the value of the 'rating' field to two decimal places. * field("rating").trunc(2); * ``` * * @param decimalPlaces - A constant specifying the truncation precision in decimal places. * @returns A new `Expression` representing the truncated value. */ trunc(decimalPlaces: number): FunctionExpression; /** * @beta * Creates an expression that truncates a numeric value to the specified number of decimal places. * * @example * ```typescript * // Truncate the value of the 'rating' field to two decimal places. * field("rating").trunc(constant(2)); * ``` * * @param decimalPlaces - An expression specifying the truncation precision in decimal places. * @returns A new `Expression` representing the truncated value. */ trunc(decimalPlaces: Expression): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the nearest whole number. * * @example * ```typescript * // Round the value of the 'price' field. * field("price").round(); * ``` * * @returns A new `Expression` representing the rounded value. */ round(): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the specified number of decimal places. * * @example * ```typescript * // Round the value of the 'price' field to two decimal places. * field("price").round(2); * ``` * * @param decimalPlaces - A constant specifying the rounding precision in decimal places. * * @returns A new `Expression` representing the rounded value. */ round(decimalPlaces: number): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the specified number of decimal places. * * @example * ```typescript * // Round the value of the 'price' field to two decimal places. * field("price").round(constant(2)); * ``` * * @param decimalPlaces - An expression specifying the rounding precision in decimal places. * * @returns A new `Expression` representing the rounded value. */ round(decimalPlaces: Expression): FunctionExpression; /** * @beta * Creates an expression that returns the collection ID from a path. * * @example * ```typescript * // Get the collection ID from a path. * field("__path__").collectionId(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the collectionId operation. */ collectionId(): FunctionExpression; /** * @beta * Creates an expression that calculates the length of a string, array, map, vector, or bytes. * * @example * ```typescript * // Get the length of the 'name' field. * field("name").length(); * * // Get the number of items in the 'cart' array. * field("cart").length(); * ``` * * @returns A new `Expression` representing the length of the string, array, map, vector, or bytes. */ length(): FunctionExpression; /** * @beta * Creates an expression that computes the natural logarithm of a numeric value. * * @example * ```typescript * // Compute the natural logarithm of the 'value' field. * field("value").ln(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the natural logarithm of the numeric value. */ ln(): FunctionExpression; /** * @beta * Creates an expression that computes the square root of a numeric value. * * @example * ```typescript * // Compute the square root of the 'value' field. * field("value").sqrt(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the square root of the numeric value. */ sqrt(): FunctionExpression; /** * @beta * Creates an expression that reverses a string. * * @example * ```typescript * // Reverse the value of the 'myString' field. * field("myString").stringReverse(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ stringReverse(): FunctionExpression; /** * @beta * Creates an expression that returns the `elseValue` argument if this expression results in an absent value, else * return the result of the this expression evaluation. * * @example * ```typescript * // Returns the value of the optional field 'optional_field', or returns 'default_value' * // if the field is absent. * field("optional_field").ifAbsent("default_value") * ``` * * @param elseValue - The value that will be returned if this Expression evaluates to an absent value. * @returns A new [Expression] representing the ifAbsent operation. */ ifAbsent(elseValue: unknown): Expression; /** * @beta * Creates an expression that returns the `elseValue` argument if this expression results in an absent value, else * return the result of this expression evaluation. * * ```typescript * // Returns the value of the optional field 'optional_field', or if that is * // absent, then returns the value of the field ` * field("optional_field").ifAbsent(field('default_field')) * ``` * * @param elseExpression - The Expression that will be evaluated if this Expression evaluates to an absent value. * @returns A new [Expression] representing the ifAbsent operation. */ ifAbsent(elseExpression: unknown): Expression; /** * @beta * Creates an expression that joins the elements of an array into a string. * * @example * ```typescript * // Join the elements of the 'tags' field with the delimiter from the 'separator' field. * field("tags").join(field("separator")) * ``` * * @param delimiterExpression - The expression that evaluates to the delimiter string. * @returns A new Expression representing the join operation. */ join(delimiterExpression: Expression): Expression; /** * @beta * Creates an expression that joins the elements of an array field into a string. * * @example * ```typescript * // Join the elements of the 'tags' field with a comma and space. * field("tags").join(", ") * ``` * * @param delimiter - The string to use as a delimiter. * @returns A new Expression representing the join operation. */ join(delimiter: string): Expression; /** * @beta * Creates an expression that computes the base-10 logarithm of a numeric value. * * @example * ```typescript * // Compute the base-10 logarithm of the 'value' field. * field("value").log10(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the base-10 logarithm of the numeric value. */ log10(): FunctionExpression; /** * @beta * Creates an expression that computes the sum of the elements in an array. * * @example * ```typescript * // Compute the sum of the elements in the 'scores' field. * field("scores").arraySum(); * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the sum of the elements in the array. */ arraySum(): FunctionExpression; /** * @beta * Creates an expression that splits the result of this expression into an * array of substrings based on the provided delimiter. * * @example * ```typescript * // Split the 'scoresCsv' field on delimiter ',' * field('scoresCsv').split(',') * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ split(delimiter: string): FunctionExpression; /** * @beta * Creates an expression that splits the result of this expression into an * array of substrings based on the provided delimiter. * * @example * ```typescript * // Split the 'scores' field on delimiter ',' or ':' depending on the stored format * field('scores').split(conditional(field('format').equal('csv'), constant(','), constant(':')) * ``` * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ split(delimiter: Expression): FunctionExpression; /** * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the beginning of the day. * field('createdAt').timestampTruncate('day') * ``` * * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ timestampTruncate(granularity: TimeGranularity, timezone?: string | Expression): FunctionExpression; /** * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the granularity specified in the field 'granularity'. * field('createdAt').timestampTruncate(field('granularity')) * ``` * * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ timestampTruncate(granularity: Expression, timezone?: string | Expression): FunctionExpression; /** * @beta * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in ascending order based on this expression. * * @example * ```typescript * // Sort documents by the 'name' field in ascending order * pipeline().collection("users") * .sort(field("name").ascending()); * ``` * * @returns A new `Ordering` for ascending sorting. */ ascending(): Ordering; /** * @beta * Creates an {@link @firebase/firestore/pipelines#Ordering} that sorts documents in descending order based on this expression. * * @example * ```typescript * // Sort documents by the 'createdAt' field in descending order * firestore.pipeline().collection("users") * .sort(field("createdAt").descending()); * ``` * * @returns A new `Ordering` for descending sorting. */ descending(): Ordering; /** * @beta * Assigns an alias to this expression. * * Aliases are useful for renaming fields in the output of a stage or for giving meaningful * names to calculated values. * * @example * ```typescript * // Calculate the total price and assign it the alias "totalPrice" and add it to the output. * firestore.pipeline().collection("items") * .addFields(field("price").multiply(field("quantity")).as("totalPrice")); * ``` * * @param name - The alias to assign to this expression. * @returns A new {@link @firebase/firestore/pipelines#AliasedExpression} that wraps this * expression and associates it with the provided alias. */ as(name: string): AliasedExpression; } /** * @beta * * An enumeration of the different types of expressions. */ export declare type ExpressionType = 'Field' | 'Constant' | 'Function' | 'AggregateFunction' | 'ListOfExpressions' | 'AliasedExpression'; /** * @beta * * Represents a reference to a field in a Firestore document, or outputs of a {@link @firebase/firestore/pipelines#Pipeline} stage. * * <p>Field references are used to access document field values in expressions and to specify fields * for sorting, filtering, and projecting data in Firestore pipelines. * * <p>You can create a `Field` instance using the static {@link @firebase/firestore/pipelines#field} method: * * @example * ```typescript * // Create a Field instance for the 'name' field * const nameField = field("name"); * * // Create a Field instance for a nested field 'address.city' * const cityField = field("address.city"); * ``` */ export declare class Field extends Expression implements Selectable { private fieldPath; readonly _methodName: string | undefined; readonly expressionType: ExpressionType; selectable: true; /* Excluded from this release type: __constructor */ get fieldName(): string; get alias(): string; get expr(): Expression; /* Excluded from this release type: _toProto */ /* Excluded from this release type: _readUserData */ } /** * @beta * Creates a {@link @firebase/firestore/pipelines#Field} instance representing the field at the given path. * * The path can be a simple field name (e.g., "name") or a dot-separated path to a nested field * (e.g., "address.city"). * * @example * ```typescript * // Create a Field instance for the 'title' field * const titleField = field("title"); * * // Create a Field instance for a nested field 'author.firstName' * const authorFirstNameField = field("author.firstName"); * ``` * * @param name - The path to the field. * @returns A new {@link @firebase/firestore/pipelines#Field} instance representing the specified field. */ export declare function field(name: string): Field; /** * @beta * Creates a {@link @firebase/firestore/pipelines#Field} instance representing the field at the given path. * * @param path - A FieldPath specifying the field. * @returns A new {@link @firebase/firestore/pipelines#Field} instance representing the specified field. */ export declare function field(path: FieldPath): Field; 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[]; } 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'; /** * An index definition for field indexes in Firestore. * * Every index is associated with a collection. The definition contains a list * of fields and their index kind (which can be `ASCENDING`, `DESCENDING` or * `CONTAINS` for ArrayContains/ArrayContainsAny queries). * * Unlike the backend, the SDK does not differentiate between collection or * collection group-scoped indices. Every index can be used for both single * collection and collection group queries. */ declare class FieldIndex { /** * The index ID. Returns -1 if the index ID is not available (e.g. the index * has not yet been persisted). */ readonly indexId: number; /** The collection ID this index applies to. */ readonly collectionGroup: string; /** The field segments for this index. */ readonly fields: IndexSegment[]; /** Shows how up-to-date the index is for the current user. */ readonly indexState: IndexState; /** An ID for an index that has not yet been added to persistence. */ static UNKNOWN_ID: number; constructor( /** * The index ID. Returns -1 if the index ID is not available (e.g. the index * has not yet been persisted). */ indexId: number, /** The collection ID this index applies to. */ collectionGroup: string, /** The field segments for this index. */ fields: IndexSegment[], /** Shows how up-to-date the index is for the current user. */ indexState: IndexState); } /** * 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; } /* Excluded from this release type: 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[]; } /** * @beta * Options defining how a FindNearestStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(findNearest:1)}. */ export declare type FindNearestStageOptions = StageOptions & { /** * @beta * Specifies the field to be used. This can be a string representing the field path * (e.g., 'fieldName', 'nested.fieldName') or an object of type {@link @firebase/firestore/pipelines#Field} * representing a more complex field expression. */ field: Field | string; /** * @beta * Specifies the query vector value, to which the vector distance will be computed. */ vectorValue: VectorValue | number[]; /** * @beta * Specifies the method used to compute the distance between vectors. * * Possible values are: * - `'euclidean'`: Euclidean distance. * - `'cosine'`: Cosine similarity. * - `'dot_product'`: Dot product. */ distanceMeasure: 'euclidean' | 'cosine' | 'dot_product'; /** * @beta * The maximum number of documents to return from the FindNearest stage. */ limit?: number; /** * @beta * If set, specifies the field on the output documents that will contain * the computed vector distance for the document. If not set, the computed * vector distance will not be returned. */ distanceField?: string; }; /* Excluded from this release type: _FirebaseService */ /** * The Cloud Firestore service interface. * * Do not call this constructor directly. Instead, use {@link (getFirestore:1)}. */ export declare class Firestore extends Firestore_2 { /** * Whether it's a {@link Firestore} or Firestore Lite instance. */ type: 'firestore-lite' | 'firestore'; _queue: AsyncQueue; readonly _persistenceKey: string; _firestoreClient: FirestoreClient | undefined; _componentsProvider?: { _offline: OfflineComponentProviderFactory; _online: OnlineComponentProviderFactory; }; /** @hideconstructor */ constructor(authCredentialsProvider: CredentialsProvider<User>, appCheckCredentialsProvider: CredentialsProvider<string>, databaseId: DatabaseId, app?: FirebaseApp); protected _terminate(): Promise<void>; } /** * The Cloud Firestore service interface. * * Do not call this constructor directly. Instead, use {@link (getFirestore:1)}. */ declare class Firestore_2 implements FirestoreService { _authCredentials: CredentialsProvider<User>; _appCheckCredentials: CredentialsProvider<string>; 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 _emulatorOptions; private _terminateTask; /** @hideconstructor */ constructor(_authCredentials: CredentialsProvider<User>, _appCheckCredentials: CredentialsProvider<string>, _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; _getEmulatorOptions(): { mockUserToken?: EmulatorMockTokenOptions | string; }; _freezeSettings(): FirestoreSettingsImpl; _delete(): Promise<void>; _restart(): Promise<void>; /** 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<void>; } /** * FirestoreClient is a top-level class that constructs and owns all of the // * pieces of the client SDK architecture. It is responsible for creating the // * async queue that is shared by all of the other components in the system. // */ declare class FirestoreClient { private authCredentials; private appCheckCredentials; /** * Asynchronous queue responsible for all of our internal processing. When * we get incoming work from the user (via public API) or the network * (incoming GRPC messages), we should always schedule onto this queue. * This ensures all of our work is properly serialized (e.g. we don't * start processing a new operation while the previous one is waiting for * an async I/O to complete). */ asyncQueue: AsyncQueue; /** * Exposed for testing */ _databaseInfo: DatabaseInfo; private user; private readonly clientId; private authCredentialListener; private appCheckCredentialListener; _uninitializedComponentsProvider?: { _offline: OfflineComponentProvider; _online: OnlineComponentProvider; }; _offlineComponents?: OfflineComponentProvider; _onlineComponents?: OnlineComponentProvider; constructor(authCredentials: CredentialsProvider<User>, appCheckCredentials: CredentialsProvider<string>, /** * Asynchronous queue responsible for all of our internal processing. When * we get incoming work from the user (via public API) or the network * (incoming GRPC messages), we should always schedule onto this queue. * This ensures all of our work is properly serialized (e.g. we don't * start processing a new operation while the previous one is waiting for * an async I/O to complete). */ asyncQueue: AsyncQueue, /** * Exposed for testing */ _databaseInfo: DatabaseInfo, componentProvider?: { _offline: OfflineComponentProvider; _online: OnlineComponentProvider; }); get configuration(): ComponentConfiguration; setCredentialChangeListener(listener: (user: User) => Promise<void>): void; setAppCheckTokenChangeListener(listener: (appCheckToken: string, user: User) => Promise<void>): void; terminate(): Promise<void>; } /** * Converter used by `withConverter()` to transform user objects of type * `AppModelType` into Firestore data of type `DbModelType`. * * Using the converter allows you to specify generic type arguments when * storing and retrieving objects from Firestore. * * In this context, an "AppModel" is a class that is used in an application to * package together related information and functionality. Such a class could, * for example, have properties with complex, nested data types, properties used * for memoization, properties of types not supported by Firestore (such as * `symbol` and `bigint`), and helper functions that perform compound * operations. Such classes are not suitable and/or possible to store into a * Firestore database. Instead, instances of such classes need to be converted * to "plain old JavaScript objects" (POJOs) with exclusively primitive * properties, potentially nested inside other POJOs or arrays of POJOs. In this * context, this type is referred to as the "DbModel" and would be an object * suitable for persisting into Firestore. For convenience, applications can * implement `FirestoreDataConverter` and register the converter with Firestore * objects, such as `DocumentReference` or `Query`, to automatically convert * `AppModel` to `DbModel` when storing into Firestore, and convert `DbModel` * to `AppModel` when retrieving from Firestore. * * @example * * Simple Example * * ```typescript * const numberConverter = { * toFirestore(value: WithFieldValue<number>) { * return { value }; * }, * fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions) { * return snapshot.data(options).value as number; * } * }; * * async function simpleDemo(db: Firestore): Promise<void> { * const documentRef = doc(db, 'values/value123').withConverter(numberConverter); * * // converters are used with `setDoc`, `addDoc`, and `getDoc` * await setDoc(documentRef, 42); * const snapshot1 = await getDoc(documentRef); * assertEqual(snapshot1.data(), 42); * * // converters are not used when writing data with `updateDoc` * await updateDoc(documentRef, { value: 999 }); * const snapshot2 = await getDoc(documentRef); * assertEqual(snapshot2.data(), 999); * } * ``` * * Advanced Example * * ```typescript * // The Post class is a model that is used by our application. * // This class may have properties and methods that are specific * // to our application execution, which do not need to be persisted * // to Firestore. * class Post { * constructor( * readonly title: string, * readonly author: string, * readonly lastUpdatedMillis: number * ) {} * toString(): string { * return `${this.title} by ${this.author}`; * } * } * * // The PostDbModel represents how we want our posts to be stored * // in Firestore. This DbModel has different properties (`ttl`, * // `aut`, and `lut`) from the Post class we use in our application. * interface PostDbModel { * ttl: string; * aut: { firstName: string; lastName: string }; * lut: Timestamp; * } * * // The `PostConverter` implements `FirestoreDataConverter` and specifies * // how the Firestore SDK can convert `Post` objects to `PostDbModel` * // objects and vice versa. * class PostConverter implements FirestoreDataConverter<Post, PostDbModel> { * toFirestore(post: WithFieldValue<Post>): WithFieldValue<PostDbModel> { * return { * ttl: post.title, * aut: this._autFromAuthor(post.author), * lut: this._lutFromLastUpdatedMillis(post.lastUpdatedMillis) * }; * } * * fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions): Post { * const data = snapshot.data(options) as PostDbModel; * const author = `${data.aut.firstName} ${data.aut.lastName}`; * return new Post(data.ttl, author, data.lut.toMillis()); * } * * _autFromAuthor( * author: string | FieldValue * ): { firstName: string; lastName: string } | FieldValue { * if (typeof author !== 'string') { * // `author` is a FieldValue, so just return it. * return author; * } * const [firstName, lastName] = author.split(' '); * return {firstName, lastName}; * } * * _lutFromLastUpdatedMillis( * lastUpdatedMillis: number | FieldValue * ): Timestamp | FieldValue { * if (typeof lastUpdatedMillis !== 'number') { * // `lastUpdatedMillis` must be a FieldValue, so just return it. * return lastUpdatedMillis; * } * return Timestamp.fromMillis(lastUpdatedMillis); * } * } * * async function advancedDemo(db: Firestore): Promise<void> { * // Create a `DocumentReference` with a `FirestoreDataConverter`. * const documentRef = doc(db, 'posts/post123').withConverter(new PostConverter()); * * // The `data` argument specified to `setDoc()` is type checked by the * // TypeScript compiler to be compatible with `Post`. Since the `data` * // argument is typed as `WithFieldValue<Post>` rather than just `Post`, * // this allows properties of the `data` argument to also be special * // Firestore values that perform server-side mutations, such as * // `arrayRemove()`, `deleteField()`, and `serverTimestamp()`. * await setDoc(documentRef, { * title: 'My Life', * author: 'Foo Bar', * lastUpdatedMillis: serverTimestamp() * }); * * // The TypeScript compiler will fail to compile if the `data` argument to * // `setDoc()` is _not_ compatible with `WithFieldValue<Post>`. This * // type checking prevents the caller from specifying objects with incorrect * // properties or property values. * // @ts-expect-error "Argument of type { ttl: string; } is not assignable * // to parameter of type WithFieldValue<Post>" * await setDoc(documentRef, { ttl: 'The Title' }); * * // When retrieving a document with `getDoc()` the `DocumentSnapshot` * // object's `data()` method returns a `Post`, rather than a generic object, * // which would have been returned if the `DocumentReference` did _not_ have a * // `FirestoreDataConverter` attached to it. * const snapshot1: DocumentSnapshot<Post> = await getDoc(documentRef); * const post1: Post = snapshot1.data()!; * if (post1) { * assertEqual(post1.title, 'My Life'); * assertEqual(post1.author, 'Foo Bar'); * } * * // The `data` argument specified to `updateDoc()` is type checked by the * // TypeScript compiler to be compatible with `PostDbModel`. Note that * // unlike `setDoc()`, whose `data` argument must be compatible with `Post`, * // the `data` argument to `updateDoc()` must be compatible with * // `PostDbModel`. Similar to `setDoc()`, since the `data` argument is typed * // as `WithFieldValue<PostDbModel>` rather than just `PostDbModel`, this * // allows properties of the `data` argument to also be those special * // Firestore values, like `arrayRemove()`, `deleteField()`, and * // `serverTimestamp()`. * await updateDoc(documentRef, { * 'aut.firstName': 'NewFirstName', * lut: serverTimestamp() * }); * * // The TypeScript compiler will fail to compile if the `data` argument to * // `updateDoc()` is _not_ compatible with `WithFieldValue<PostDbModel>`. * // This type checking prevents the caller from specifying objects with * // incorrect properties or property values. * // @ts-expect-error "Argument of type { title: string; } is not assignable * // to parameter of type WithFieldValue<PostDbModel>" * await updateDoc(documentRef, { title: 'New Title' }); * const snapshot2: DocumentSnapshot<Post> = await getDoc(documentRef); * const post2: Post = snapshot2.data()!; * if (post2) { * assertEqual(post2.title, 'My Life'); * assertEqual(post2.author, 'NewFirstName Bar'); * } * } * ``` */ export declare interface FirestoreDataConverter<AppModelType, DbModelType extends DocumentData = DocumentData> extends FirestoreDataConverter_2<AppModelType, DbModelType> { /** * Called by the Firestore SDK to convert a custom model object of type * `AppModelType` into a plain JavaScript object (suitable for writing * directly to the Firestore database) of type `DbModelType`. To use `set()` * with `merge` and `mergeFields`, `toFirestore()` must be defined with * `PartialWithFieldValue<AppModelType>`. * * The `WithFieldValue<T>` type extends `T` to also allow FieldValues such as * {@link (deleteField:1)} to be used as property values. */ toFirestore(modelObject: WithFieldValue<AppModelType>): WithFieldValue<DbModelType>; /** * Called by the Firestore SDK to convert a custom model object of type * `AppModelType` into a plain JavaScript object (suitable for writing * directly to the Firestore database) of type `DbModelType`. Used with * {@link (setDoc:1)}, {@link (WriteBatch.set:1)} and * {@link (Transaction.set:1)} with `merge:true` or `mergeFields`. * * The `PartialWithFieldValue<T>` type extends `Partial<T>` 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<AppModelType>, options: SetOptions): PartialWithFieldValue<DbModelType>; /** * Called by the Firestore SDK to convert Firestore data into an object of * type `AppModelType`. You can access your data by calling: * `snapshot.data(options)`. * * Generally, the data returned from `snapshot.data()` can be cast to * `DbModelType`; however, this is not guaranteed because Firestore does not * enforce a schema on the database. For example, writes from a previous * version of the application or writes from another client that did not use a * type converter could have written data with different properties and/or * property types. The implementation will need to choose whether to * gracefully recover from non-conforming data or throw an error. * * To override this method, see {@link (FirestoreDataConverter.fromFirestore:1)}. * * @param snapshot - A `QueryDocumentSnapshot` containing your data and metadata. * @param options - The `SnapshotOptions` from the initial call to `data()`. */ fromFirestore(snapshot: QueryDocumentSnapshot<DocumentData, DocumentData>, options?: SnapshotOptions): AppModelType; } /** * Converter used by `withConverter()` to transform user objects of type * `AppModelType` into Firestore data of type `DbModelType`. * * Using the converter allows you to specify generic type arguments when * storing and retrieving objects from Firestore. * * In this context, an "AppModel" is a class that is used in an application to * package together related information and functionality. Such a class could, * for example, have properties with complex, nested data types, properties used * for memoization, properties of types not supported by Firestore (such as * `symbol` and `bigint`), and helper functions that perform compound * operations. Such classes are not suitable and/or possible to store into a * Firestore database. Instead, instances of such classes need to be converted * to "plain old JavaScript objects" (POJOs) with exclusively primitive * properties, potentially nested inside other POJOs or arrays of POJOs. In this * context, this type is referred to as the "DbModel" and would be an object * suitable for persisting into Firestore. For convenience, applications can * implement `FirestoreDataConverter` and register the converter with Firestore * objects, such as `DocumentReference` or `Query`, to automatically convert * `AppModel` to `DbModel` when storing into Firestore, and convert `DbModel` * to `AppModel` when retrieving from Firestore. * * @example * * Simple Example * * ```typescript * const numberConverter = { * toFirestore(value: WithFieldValue<number>) { * return { value }; * }, * fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions) { * return snapshot.data(options).value as number; * } * }; * * async function simpleDemo(db: Firestore): Promise<void> { * const documentRef = doc(db, 'values/value123').withConverter(numberConverter); * * // converters are used with `setDoc`, `addDoc`, and `getDoc` * await setDoc(documentRef, 42); * const snapshot1 = await getDoc(documentRef); * assertEqual(snapshot1.data(), 42); * * // converters are not used when writing data with `updateDoc` * await updateDoc(documentRef, { value: 999 }); * const snapshot2 = await getDoc(documentRef); * assertEqual(snapshot2.data(), 999); * } * ``` * * Advanced Example * * ```typescript * // The Post class is a model that is used by our application. * // This class may have properties and methods that are specific * // to our application execution, which do not need to be persisted * // to Firestore. * class Post { * constructor( * readonly title: string, * readonly author: string, * readonly lastUpdatedMillis: number * ) {} * toString(): string { * return `${this.title} by ${this.author}`; * } * } * * // The PostDbModel represents how we want our posts to be stored * // in Firestore. This DbModel has different properties (`ttl`, * // `aut`, and `lut`) from the Post class we use in our application. * interface PostDbModel { * ttl: string; * aut: { firstName: string; lastName: string }; * lut: Timestamp; * } * * // The `PostConverter` implements `FirestoreDataConverter` and specifies * // how the Firestore SDK can convert `Post` objects to `PostDbModel` * // objects and vice versa. * class PostConverter implements FirestoreDataConverter<Post, PostDbModel> { * toFirestore(post: WithFieldValue<Post>): WithFieldValue<PostDbModel> { * return { * ttl: post.title, * aut: this._autFromAuthor(post.author), * lut: this._lutFromLastUpdatedMillis(post.lastUpdatedMillis) * }; * } * * fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions): Post { * const data = snapshot.data(options) as PostDbModel; * const author = `${data.aut.firstName} ${data.aut.lastName}`; * return new Post(data.ttl, author, data.lut.toMillis()); * } * * _autFromAuthor( * author: string | FieldValue * ): { firstName: string; lastName: string } | FieldValue { * if (typeof author !== 'string') { * // `author` is a FieldValue, so just return it. * return author; * } * const [firstName, lastName] = author.split(' '); * return {firstName, lastName}; * } * * _lutFromLastUpdatedMillis( * lastUpdatedMillis: number | FieldValue * ): Timestamp | FieldValue { * if (typeof lastUpdatedMillis !== 'number') { * // `lastUpdatedMillis` must be a FieldValue, so just return it. * return lastUpdatedMillis; * } * return Timestamp.fromMillis(lastUpdatedMillis); * } * } * * async function advancedDemo(db: Firestore): Promise<void> { * // Create a `DocumentReference` with a `FirestoreDataConverter`. * const documentRef = doc(db, 'posts/post123').withConverter(new PostConverter()); * * // The `data` argument specified to `setDoc()` is type checked by the * // TypeScript compiler to be compatible with `Post`. Since the `data` * // argument is typed as `WithFieldValue<Post>` rather than just `Post`, * // this allows properties of the `data` argument to also be special * // Firestore values that perform server-side mutations, such as * // `arrayRemove()`, `deleteField()`, and `serverTimestamp()`. * await setDoc(documentRef, { * title: 'My Life', * author: 'Foo Bar', * lastUpdatedMillis: serverTimestamp() * }); * * // The TypeScript compiler will fail to compile if the `data` argument to * // `setDoc()` is _not_ compatible with `WithFieldValue<Post>`. This * // type checking prevents the caller from specifying objects with incorrect * // properties or property values. * // @ts-expect-error "Argument of type { ttl: string; } is not assignable * // to parameter of type WithFieldValue<Post>" * await setDoc(documentRef, { ttl: 'The Title' }); * * // When retrieving a document with `getDoc()` the `DocumentSnapshot` * // object's `data()` method returns a `Post`, rather than a generic object, * // which would have been returned if the `DocumentReference` did _not_ have a * // `FirestoreDataConverter` attached to it. * const snapshot1: DocumentSnapshot<Post> = await getDoc(documentRef); * const post1: Post = snapshot1.data()!; * if (post1) { * assertEqual(post1.title, 'My Life'); * assertEqual(post1.author, 'Foo Bar'); * } * * // The `data` argument specified to `updateDoc()` is type checked by the * // TypeScript compiler to be compatible with `PostDbModel`. Note that * // unlike `setDoc()`, whose `data` argument must be compatible with `Post`, * // the `data` argument to `updateDoc()` must be compatible with * // `PostDbModel`. Similar to `setDoc()`, since the `data` argument is typed * // as `WithFieldValue<PostDbModel>` rather than just `PostDbModel`, this * // allows properties of the `data` argument to also be those special * // Firestore values, like `arrayRemove()`, `deleteField()`, and * // `serverTimestamp()`. * await updateDoc(documentRef, { * 'aut.firstName': 'NewFirstName', * lut: serverTimestamp() * }); * * // The TypeScript compiler will fail to compile if the `data` argument to * // `updateDoc()` is _not_ compatible with `WithFieldValue<PostDbModel>`. * // This type checking prevents the caller from specifying objects with * // incorrect properties or property values. * // @ts-expect-error "Argument of type { title: string; } is not assignable * // to parameter of type WithFieldValue<PostDbModel>" * await updateDoc(documentRef, { title: 'New Title' }); * const snapshot2: DocumentSnapshot<Post> = await getDoc(documentRef); * const post2: Post = snapshot2.data()!; * if (post2) { * assertEqual(post2.title, 'My Life'); * assertEqual(post2.author, 'NewFirstName Bar'); * } * } * ``` */ declare interface FirestoreDataConverter_2<AppModelType, DbModelType extends DocumentData = DocumentData> { /** * Called by the Firestore SDK to convert a custom model object of type * `AppModelType` into a plain JavaScript object (suitable for writing * directly to the Firestore database) of type `DbModelType`. 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<T>` type extends `T` to also allow FieldValues such as * {@link (deleteField:1)} to be used as property values. */ toFirestore(modelObject: WithFieldValue<AppModelType>): WithFieldValue<DbModelType>; /** * Called by the Firestore SDK to convert a custom model object of type * `AppModelType` into a plain JavaScript object (suitable for writing * directly to the Firestore database) of type `DbModelType`. 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<T>` type extends `Partial<T>` 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<AppModelType>, options: SetOptions): PartialWithFieldValue<DbModelType>; /** * Called by the Firestore SDK to convert Firestore data into an object of * type `AppModelType`. You can access your data by calling: * `snapshot.data()`. * * * Generally, the data returned from `snapshot.data()` can be cast to * `DbModelType`; however, this is not guaranteed because Firestore does not * enforce a schema on the database. For example, writes from a previous * version of the application or writes from another client that did not use a * type converter could have written data with different properties and/or * property types. The implementation will need to choose whether to * gracefully recover from non-conforming data or throw an error. * * @param snapshot - A `QueryDocumentSnapshot` containing your data and * metadata. */ fromFirestore(snapshot: QueryDocumentSnapshot_2<DocumentData, DocumentData>): AppModelType; } /** An error returned by a Firestore operation. */ 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. */ 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'; /** * Union type from all supported SDK cache layer. */ declare type FirestoreLocalCache = MemoryLocalCache | PersistentLocalCache; /** * 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<User>; _appCheckCredentials: CredentialsProvider<string>; _persistenceKey: string; _databaseId: DatabaseId; _terminated: boolean; _freezeSettings(): FirestoreSettingsImpl; } /** * Specifies custom configurations for your Cloud Firestore instance. * You must set these before invoking any other methods. */ declare interface FirestoreSettings { /** 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; } /** * 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 experimentalLongPollingOptions: ExperimentalLongPollingOptions; readonly ignoreUndefinedProperties: boolean; readonly useFetchStreams: boolean; readonly localCache?: FirestoreLocalCache; readonly isUsingEmulator: boolean; credentials?: any; constructor(settings: PrivateSettings); isEqual(other: FirestoreSettingsImpl): boolean; } declare namespace firestoreV1ApiClientInterfaces { interface Aggregation { count?: Count; sum?: Sum; avg?: Avg; alias?: string; } interface AggregationResult { aggregateFields?: ApiClientObjectMap<Value>; } interface ArrayValue { values?: Value[]; } interface Avg { field?: FieldReference; } 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 BitSequence { bitmap?: string | Uint8Array; padding?: number; } interface BloomFilter { bits?: BitSequence; hashCount?: number; } 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 Count { upTo?: number; } interface Cursor { values?: Value[]; before?: boolean; } interface Document { name?: string; fields?: ApiClientObjectMap<Value>; 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 ExecutePipelineRequest { database?: string; structuredPipeline?: StructuredPipeline; transaction?: string; newTransaction?: TransactionOptions; readTime?: string; } interface ExecutePipelineResponse { transaction?: string; results?: Document[]; executionTime?: string; } interface ExistenceFilter { targetId?: number; count?: number; unchangedNames?: BloomFilter; } 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 Function { name?: string; args?: Value[]; options?: ApiClientObjectMap<Value>; } interface Index { name?: string; collectionId?: string; fields?: IndexField[]; state?: IndexState_2; } 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<string>; } interface ListenResponse { targetChange?: TargetChange; documentChange?: DocumentChange; documentDelete?: DocumentDelete; documentRemove?: DocumentRemove; filter?: ExistenceFilter; } interface MapValue { fields?: ApiClientObjectMap<Value>; } interface Operation { name?: string; metadata?: ApiClientObjectMap<any>; done?: boolean; error?: Status; response?: ApiClientObjectMap<any>; } interface Order { field?: FieldReference; direction?: OrderDirection; } interface Pipeline { stages?: Stage[]; } 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 StructuredAggregationQuery { structuredQuery?: StructuredQuery; aggregations?: Aggregation[]; } interface Stage { name?: string; args?: Value[]; options?: ApiClientObjectMap<Value>; } interface Status { code?: number; message?: string; details?: Array<ApiClientObjectMap<any>>; } interface StructuredPipeline { pipeline?: Pipeline; options?: ApiClientObjectMap<Value>; } interface StructuredQuery { select?: Projection; from?: CollectionSelector[]; where?: Filter; orderBy?: Order[]; startAt?: Cursor; endAt?: Cursor; offset?: number; limit?: number | { value: number; }; } interface Sum { field?: FieldReference; } interface Target { query?: QueryTarget; documents?: DocumentsTarget; resumeToken?: string | Uint8Array; readTime?: Timestamp_2; targetId?: number; once?: boolean; expectedCount?: number | { value: number; }; } 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; fieldReferenceValue?: string; functionValue?: Function; pipelineValue?: Pipeline; } 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<string>; } interface WriteResponse { streamId?: string; streamToken?: string | Uint8Array; writeResults?: WriteResult[]; commitTime?: Timestamp_2; } interface WriteResult { updateTime?: Timestamp_2; transformResults?: Value[]; } } /** * @beta * Creates an aggregation that finds the first value of an expression across multiple stage * inputs. * * @example * ```typescript * // Find the first value of the 'rating' field * first(field("rating")).as("firstRating"); * ``` * * @param expression - The expression to find the first value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'first' aggregation. */ export declare function first(expression: Expression): AggregateFunction; /** * @beta * Creates an aggregation that finds the first value of a field across multiple stage inputs. * * @example * ```typescript * // Find the first value of the 'rating' field * first("rating").as("firstRating"); * ``` * * @param fieldName - The name of the field to find the first value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'first' aggregation. */ export declare function first(fieldName: string): AggregateFunction; /* Excluded from this release type: FirstPartyCredentialsSettings */ /** * @beta * Creates an expression that computes the floor of a numeric value. * * @param expr - The expression to compute the floor of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the floor of the numeric value. */ export declare function floor(expr: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the floor of a numeric value. * * @param fieldName - The name of the field to compute the floor of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the floor of the numeric value. */ export declare function floor(fieldName: string): FunctionExpression; /** * @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. */ declare type FulfilledHandler<T, R> = ((result: T) => R | PersistencePromise<R>) | null; /** * @beta * * This class defines the base class for Firestore {@link @firebase/firestore/pipelines#Pipeline} functions, which can be evaluated within pipeline * execution. * * Typically, you would not use this class or its children directly. Use either the functions like {@link @firebase/firestore/pipelines#and}, {@link @firebase/firestore/pipelines#(equal:1)}, * or the methods on {@link @firebase/firestore/pipelines#Expression} ({@link @firebase/firestore/pipelines#Expression.(equal:1)}, {@link @firebase/firestore/pipelines#Expression.(lessThan:1)}, etc.) to construct new Function instances. */ export declare class FunctionExpression extends Expression { private name; private params; readonly _methodName?: string | undefined; readonly expressionType: ExpressionType; constructor(name: string, params: Expression[]); constructor(name: string, params: Expression[], _methodName: string | undefined); /* Excluded from this release type: _toProto */ /* Excluded from this release type: _readUserData */ } /** * 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; /** * Actually private to JS consumers of our API, so this function is prefixed * with an underscore. */ _compareTo(other: GeoPoint): number; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; latitude: Property<"number">; longitude: Property<"number">; }; /** * Returns a JSON-serializable representation of this `GeoPoint` instance. * * @returns a JSON representation of this object. */ toJSON(): { latitude: number; longitude: number; type: string; }; /** * Builds a `GeoPoint` instance from a JSON object created by {@link GeoPoint.toJSON}. * * @param json - a JSON object represention of a `GeoPoint` instance * @returns an instance of {@link GeoPoint} if the JSON object could be parsed. Throws a * {@link FirestoreError} if an error occurs. */ static fromJSON(json: object): GeoPoint; } /** * General purpose cache for global values. * * Global state that cuts across components should be saved here. Following are contained herein: * * `sessionToken` tracks server interaction across Listen and Write streams. This facilitates cache * synchronization and invalidation. */ declare interface GlobalsCache { /** * Gets session token. */ getSessionToken(transaction: PersistenceTransaction): PersistencePromise<ByteString>; /** * Sets session token. * * @param sessionToken - The new session token. */ setSessionToken(transaction: PersistenceTransaction, sessionToken: ByteString): PersistencePromise<void>; } /** * @beta * * Creates an expression that checks if the first expression is greater than the second * expression. * * @example * ```typescript * // Check if the 'age' field is greater than 18 * greaterThan(field("age"), Constant(9).add(9)); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the greater than comparison. */ export declare function greaterThan(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is greater than a constant value. * * @example * ```typescript * // Check if the 'age' field is greater than 18 * greaterThan(field("age"), 18); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the greater than comparison. */ export declare function greaterThan(expression: Expression, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is greater than an expression. * * @example * ```typescript * // Check if the value of field 'age' is greater than the value of field 'limit' * greaterThan("age", field("limit")); * ``` * * @param fieldName - The field name to compare. * @param expression - The expression to compare to. * @returns A new `Expression` representing the greater than comparison. */ export declare function greaterThan(fieldName: string, expression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is greater than a constant value. * * @example * ```typescript * // Check if the 'price' field is greater than 100 * greaterThan("price", 100); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the greater than comparison. */ export declare function greaterThan(fieldName: string, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if the first expression is greater than or equal to the * second expression. * * @example * ```typescript * // Check if the 'quantity' field is greater than or equal to the field "threshold" * greaterThanOrEqual(field("quantity"), field("threshold")); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the greater than or equal to comparison. */ export declare function greaterThanOrEqual(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is greater than or equal to a constant * value. * * @example * ```typescript * // Check if the 'quantity' field is greater than or equal to 10 * greaterThanOrEqual(field("quantity"), 10); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the greater than or equal to comparison. */ export declare function greaterThanOrEqual(expression: Expression, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is greater than or equal to an expression. * * @example * ```typescript * // Check if the value of field 'age' is greater than or equal to the value of field 'limit' * greaterThanOrEqual("age", field("limit")); * ``` * * @param fieldName - The field name to compare. * @param value - The expression to compare to. * @returns A new `Expression` representing the greater than or equal to comparison. */ export declare function greaterThanOrEqual(fieldName: string, value: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is greater than or equal to a constant * value. * * @example * ```typescript * // Check if the 'score' field is greater than or equal to 80 * greaterThanOrEqual("score", 80); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the greater than or equal to comparison. */ export declare function greaterThanOrEqual(fieldName: string, value: unknown): BooleanExpression; /** * @beta * Creates an expression that returns the `elseExpr` argument if `ifExpr` is absent, else return * the result of the `ifExpr` argument evaluation. * * @example * ```typescript * // Returns the value of the optional field 'optional_field', or returns 'default_value' * // if the field is absent. * ifAbsent(field("optional_field"), constant("default_value")) * ``` * * @param ifExpr - The expression to check for absence. * @param elseExpr - The expression that will be evaluated and returned if [ifExpr] is absent. * @returns A new Expression representing the ifAbsent operation. */ export declare function ifAbsent(ifExpr: Expression, elseExpr: Expression): Expression; /** * @beta * Creates an expression that returns the `elseValue` argument if `ifExpr` is absent, else * return the result of the `ifExpr` argument evaluation. * * @example * ```typescript * // Returns the value of the optional field 'optional_field', or returns 'default_value' * // if the field is absent. * ifAbsent(field("optional_field"), "default_value") * ``` * * @param ifExpr - The expression to check for absence. * @param elseValue - The value that will be returned if `ifExpr` evaluates to an absent value. * @returns A new [Expression] representing the ifAbsent operation. */ export declare function ifAbsent(ifExpr: Expression, elseValue: unknown): Expression; /** * @beta * Creates an expression that returns the `elseExpr` argument if `ifFieldName` is absent, else * return the value of the field. * * @example * ```typescript * // Returns the value of the optional field 'optional_field', or returns the value of * // 'default_field' if 'optional_field' is absent. * ifAbsent("optional_field", field("default_field")) * ``` * * @param ifFieldName - The field to check for absence. * @param elseExpr - The expression that will be evaluated and returned if `ifFieldName` is * absent. * @returns A new Expression representing the ifAbsent operation. */ export declare function ifAbsent(ifFieldName: string, elseExpr: Expression): Expression; /** * @beta * Creates an expression that returns the `elseValue` argument if `ifFieldName` is absent, else * return the value of the field. * * @example * ```typescript * // Returns the value of the optional field 'optional_field', or returns 'default_value' * // if the field is absent. * ifAbsent("optional_field", "default_value") * ``` * * @param ifFieldName - The field to check for absence. * @param elseValue - The value that will be returned if [ifFieldName] is absent. * @returns A new Expression representing the ifAbsent operation. */ export declare function ifAbsent(ifFieldName: string | Expression, elseValue: Expression | unknown): Expression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of the `try` argument evaluation. * * This overload is useful when a BooleanExpression is required. * * @example * ```typescript * // Create an expression that protects against a divide by zero error * // but always returns a boolean expression. * ifError(constant(50).divide('length').gt(1), constant(false)); * ``` * * @param tryExpr - The try expression. * @param catchExpr - The catch expression that will be evaluated and * returned if the tryExpr produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ export declare function ifError(tryExpr: BooleanExpression, catchExpr: BooleanExpression): BooleanExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of the `try` argument evaluation. * * @example * ```typescript * // Returns the first item in the title field arrays, or returns * // the entire title field if the array is empty or the field is another type. * ifError(field("title").arrayGet(0), field("title")); * ``` * * @param tryExpr - The try expression. * @param catchExpr - The catch expression that will be evaluated and * returned if the tryExpr produces an error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ export declare function ifError(tryExpr: Expression, catchExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the `catch` argument if there is an * error, else return the result of the `try` argument evaluation. * * @example * ```typescript * // Returns the first item in the title field arrays, or returns * // "Default Title" * ifError(field("title").arrayGet(0), "Default Title"); * ``` * * @param tryExpr - The try expression. * @param catchValue - The value that will be returned if the tryExpr produces an * error. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'ifError' operation. */ export declare function ifError(tryExpr: Expression, catchValue: unknown): FunctionExpression; declare type IndexFieldMode = 'MODE_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING'; /** The type of the index, e.g. for which type of query it can be used. */ declare const enum IndexKind { /** * Ordered index. Can be used for <, <=, ==, >=, >, !=, IN and NOT IN queries. */ ASCENDING = 0, /** * Ordered index. Can be used for <, <=, ==, >=, >, !=, IN and NOT IN queries. */ DESCENDING = 1, /** Contains index. Can be used for ArrayContains and ArrayContainsAny. */ CONTAINS = 2 } /** * Represents a set of indexes that are used to execute queries efficiently. * * Currently the only index is a [collection id] =&gt; [parent path] index, used * to execute Collection Group queries. */ declare interface IndexManager { /** * Creates an index entry mapping the collectionId (last segment of the path) * to the parent path (either the containing document location or the empty * path for root-level collections). Index entries can be retrieved via * getCollectionParents(). * * NOTE: Currently we don't remove index entries. If this ends up being an * issue we can devise some sort of GC strategy. */ addToCollectionParentIndex(transaction: PersistenceTransaction, collectionPath: ResourcePath): PersistencePromise<void>; /** * Retrieves all parent locations containing the given collectionId, as a * list of paths (each path being either a document location or the empty * path for a root-level collection). */ getCollectionParents(transaction: PersistenceTransaction, collectionId: string): PersistencePromise<ResourcePath[]>; /** * Adds a field path index. * * Values for this index are persisted via the index backfill, which runs * asynchronously in the background. Once the first values are written, * an index can be used to serve partial results for any matching queries. * Any unindexed portion of the database will continue to be served via * collection scons. */ addFieldIndex(transaction: PersistenceTransaction, index: FieldIndex): PersistencePromise<void>; /** Removes the given field index and deletes all index values. */ deleteFieldIndex(transaction: PersistenceTransaction, index: FieldIndex): PersistencePromise<void>; /** Removes all field indexes and deletes all index values. */ deleteAllFieldIndexes(transaction: PersistenceTransaction): PersistencePromise<void>; /** Creates a full matched field index which serves the given target. */ createTargetIndexes(transaction: PersistenceTransaction, target: Target): PersistencePromise<void>; /** * Returns a list of field indexes that correspond to the specified collection * group. * * @param collectionGroup - The collection group to get matching field indexes * for. * @returns A collection of field indexes for the specified collection group. */ getFieldIndexes(transaction: PersistenceTransaction, collectionGroup: string): PersistencePromise<FieldIndex[]>; /** Returns all configured field indexes. */ getFieldIndexes(transaction: PersistenceTransaction): PersistencePromise<FieldIndex[]>; /** * Returns the type of index (if any) that can be used to serve the given * target. */ getIndexType(transaction: PersistenceTransaction, target: Target): PersistencePromise<IndexType>; /** * Returns the documents that match the given target based on the provided * index or `null` if the target does not have a matching index. */ getDocumentsMatchingTarget(transaction: PersistenceTransaction, target: Target): PersistencePromise<DocumentKey[] | null>; /** * Returns the next collection group to update. Returns `null` if no group * exists. */ getNextCollectionGroupToUpdate(transaction: PersistenceTransaction): PersistencePromise<string | null>; /** * Sets the collection group's latest read time. * * This method updates the index offset for all field indices for the * collection group and increments their sequence number. Subsequent calls to * `getNextCollectionGroupToUpdate()` will return a different collection group * (unless only one collection group is configured). */ updateCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset): PersistencePromise<void>; /** Updates the index entries for the provided documents. */ updateIndexEntries(transaction: PersistenceTransaction, documents: DocumentMap): PersistencePromise<void>; /** * Iterates over all field indexes that are used to serve the given target, * and returns the minimum offset of them all. */ getMinOffset(transaction: PersistenceTransaction, target: Target): PersistencePromise<IndexOffset>; /** Returns the minimum offset for the given collection group. */ getMinOffsetFromCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string): PersistencePromise<IndexOffset>; } /** * Stores the latest read time, document and batch ID that were processed for an * index. */ declare class IndexOffset { /** * The latest read time version that has been indexed by Firestore for this * field index. */ readonly readTime: SnapshotVersion; /** * The key of the last document that was indexed for this query. Use * `DocumentKey.empty()` if no document has been indexed. */ readonly documentKey: DocumentKey; readonly largestBatchId: number; constructor( /** * The latest read time version that has been indexed by Firestore for this * field index. */ readTime: SnapshotVersion, /** * The key of the last document that was indexed for this query. Use * `DocumentKey.empty()` if no document has been indexed. */ documentKey: DocumentKey, largestBatchId: number); /** Returns an offset that sorts before all regular offsets. */ static min(): IndexOffset; /** Returns an offset that sorts after all regular offsets. */ static max(): IndexOffset; } /** An index component consisting of field path and index type. */ declare class IndexSegment { /** The field path of the component. */ readonly fieldPath: FieldPath_2; /** The fields sorting order. */ readonly kind: IndexKind; constructor( /** The field path of the component. */ fieldPath: FieldPath_2, /** The fields sorting order. */ kind: IndexKind); } /** * Stores the "high water mark" that indicates how updated the Index is for the * current user. */ declare class IndexState { /** * Indicates when the index was last updated (relative to other indexes). */ readonly sequenceNumber: number; /** The the latest indexed read time, document and batch id. */ readonly offset: IndexOffset; constructor( /** * Indicates when the index was last updated (relative to other indexes). */ sequenceNumber: number, /** The the latest indexed read time, document and batch id. */ offset: IndexOffset); /** The state of an index that has not yet been backfilled. */ static empty(): IndexState; } declare type IndexState_2 = 'STATE_UNSPECIFIED' | 'CREATING' | 'READY' | 'ERROR'; /** Represents the index state as it relates to a particular target. */ declare const enum IndexType { /** Indicates that no index could be found for serving the target. */ NONE = 0, /** * Indicates that only a "partial index" could be found for serving the * target. A partial index is one which does not have a segment for every * filter/orderBy in the target. */ PARTIAL = 1, /** * Indicates that a "full index" could be found for serving the target. A full * index is one which has a segment for every filter/orderBy in the target. */ FULL = 2 } /* Excluded from this release type: _internalPipelineToExecutePipelineRequestProto */ /** * @beta * * Creates an expression that returns `true` if a value is absent. Otherwise, * returns `false` even if the value is `null`. * * @example * ```typescript * // Check if the field `value` is absent. * isAbsent(field("value")); * ``` * * @param value - The expression to check. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'isAbsent' check. */ export declare function isAbsent(value: Expression): BooleanExpression; /** * @beta * * Creates an expression that returns `true` if a field is absent. Otherwise, * returns `false` even if the field value is `null`. * * @example * ```typescript * // Check if the field `value` is absent. * isAbsent("value"); * ``` * * @param field - The field to check. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'isAbsent' check. */ export declare function isAbsent(field: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a given expression produces an error. * * @example * ```typescript * // Check if the result of a calculation is an error * isError(field("title").arrayContains(1)); * ``` * * @param value - The expression to check. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'isError' check. */ export declare function isError(value: Expression): BooleanExpression; /** * @beta * Creates an expression that checks if the value in the specified field is of the given type. * * @remarks Null or undefined fields evaluate to skip/error. Use `ifAbsent()` / `isAbsent()` to evaluate missing data. * * @example * ```typescript * // Check if the 'price' field is a floating point number (evaluating to true inside pipeline conditionals) * isType('price', 'float64'); * ``` * * @param fieldName - The name of the field to check. * @param type - The type to check for. * @returns A new `BooleanExpression` that evaluates to true if the field's value is of the given type, false otherwise. */ export declare function isType(fieldName: string, type: Type): BooleanExpression; /** * @beta * Creates an expression that checks if the result of an expression is of the given type. * * @remarks Null or undefined fields evaluate to skip/error. Use `ifAbsent()` / `isAbsent()` to evaluate missing data. * * @example * ```typescript * // Check if the result of a calculation is a number * isType(add('count', 1), 'number') * ``` * * @param expression - The expression to check. * @param type - The type to check for. * @returns A new `BooleanExpression` that evaluates to true if the expression's result is of the given type, false otherwise. */ export declare function isType(expression: Expression, type: Type): BooleanExpression; /** * @beta * Creates an expression that joins the elements of an array into a string. * * @example * ```typescript * // Join the elements of the 'tags' field with a comma and space. * join("tags", ", ") * ``` * * @param arrayFieldName - The name of the field containing the array. * @param delimiter - The string to use as a delimiter. * @returns A new Expression representing the join operation. */ export declare function join(arrayFieldName: string, delimiter: string): Expression; /** * @beta * Creates an expression that joins the elements of an array into a string. * * @example * ```typescript * // Join an array of string using the delimiter from the 'separator' field. * join(array(['foo', 'bar']), field("separator")) * ``` * * @param arrayExpression - An expression that evaluates to an array. * @param delimiterExpression - The expression that evaluates to the delimiter string. * @returns A new Expression representing the join operation. */ export declare function join(arrayExpression: Expression, delimiterExpression: Expression): Expression; /** * @beta * Creates an expression that joins the elements of an array into a string. * * @example * ```typescript * // Join the elements of the 'tags' field with a comma and space. * join(field("tags"), ", ") * ``` * * @param arrayExpression - An expression that evaluates to an array. * @param delimiter - The string to use as a delimiter. * @returns A new Expression representing the join operation. */ export declare function join(arrayExpression: Expression, delimiter: string): Expression; /** * @beta * Creates an expression that joins the elements of an array into a string. * * @example * ```typescript * // Join the elements of the 'tags' field with the delimiter from the 'separator' field. * join('tags', field("separator")) * ``` * * @param arrayFieldName - The name of the field containing the array. * @param delimiterExpression - The expression that evaluates to the delimiter string. * @returns A new Expression representing the join operation. */ export declare function join(arrayFieldName: string, delimiterExpression: Expression): Expression; /** * This class generates JsonObject values for the Datastore API suitable for * sending to either GRPC stub methods or via the JSON/HTTP REST API. * * The serializer supports both Protobuf.js and Proto3 JSON formats. By * setting `useProto3Json` to true, the serializer will use the Proto3 JSON * format. * * For a description of the Proto3 JSON format check * https://developers.google.com/protocol-buffers/docs/proto3#json * * TODO(klimt): We can remove the databaseId argument if we keep the full * resource name in documents. */ declare class JsonProtoSerializer implements Serializer { readonly databaseId: DatabaseId; readonly useProto3Json: boolean; constructor(databaseId: DatabaseId, useProto3Json: boolean); } /* Excluded from this release type: JsonTypeDesc */ declare type Kind = 'memory' | 'persistent'; /** * @beta * Creates an aggregation that finds the last value of an expression across multiple stage * inputs. * * @example * ```typescript * // Find the last value of the 'rating' field * last(field("rating")).as("lastRating"); * ``` * * @param expression - The expression to find the last value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'last' aggregation. */ export declare function last(expression: Expression): AggregateFunction; /** * @beta * Creates an aggregation that finds the last value of a field across multiple stage inputs. * * @example * ```typescript * // Find the last value of the 'rating' field * last("rating").as("lastRating"); * ``` * * @param fieldName - The name of the field to find the last value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'last' aggregation. */ export declare function last(fieldName: string): AggregateFunction; /** * @beta * Creates an expression that calculates the length of a string, array, map, vector, or bytes. * * @example * ```typescript * // Get the length of the 'name' field. * length("name"); * * // Get the number of items in the 'cart' array. * length("cart"); * ``` * * @param fieldName - The name of the field to calculate the length of. * @returns A new `Expression` representing the length of the string, array, map, vector, or bytes. */ declare function length_2(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that calculates the length of a string, array, map, vector, or bytes. * * @example * ```typescript * // Get the length of the 'name' field. * length(field("name")); * * // Get the number of items in the 'cart' array. * length(field("cart")); * ``` * * @param expression - An expression evaluating to a string, array, map, vector, or bytes, which the length will be calculated for. * @returns A new `Expression` representing the length of the string, array, map, vector, or bytes. */ declare function length_2(expression: Expression): FunctionExpression; export { length_2 as length } /** * @beta * * Creates an expression that checks if the first expression is less than the second expression. * * @example * ```typescript * // Check if the 'age' field is less than 30 * lessThan(field("age"), field("limit")); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the less than comparison. */ export declare function lessThan(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is less than a constant value. * * @example * ```typescript * // Check if the 'age' field is less than 30 * lessThan(field("age"), 30); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the less than comparison. */ export declare function lessThan(expression: Expression, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is less than an expression. * * @example * ```typescript * // Check if the 'age' field is less than the 'limit' field * lessThan("age", field("limit")); * ``` * * @param fieldName - The field name to compare. * @param expression - The expression to compare to. * @returns A new `Expression` representing the less than comparison. */ export declare function lessThan(fieldName: string, expression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is less than a constant value. * * @example * ```typescript * // Check if the 'price' field is less than 50 * lessThan("price", 50); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the less than comparison. */ export declare function lessThan(fieldName: string, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if the first expression is less than or equal to the second * expression. * * @example * ```typescript * // Check if the 'quantity' field is less than or equal to 20 * lessThan(field("quantity"), field("limit")); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the less than or equal to comparison. */ export declare function lessThanOrEqual(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is less than or equal to a constant value. * * @example * ```typescript * // Check if the 'quantity' field is less than or equal to 20 * lessThan(field("quantity"), 20); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the less than or equal to comparison. */ export declare function lessThanOrEqual(expression: Expression, value: unknown): BooleanExpression; /** * @beta * Creates an expression that checks if a field's value is less than or equal to an expression. * * @example * ```typescript * // Check if the 'quantity' field is less than or equal to the 'limit' field * lessThan("quantity", field("limit")); * ``` * * @param fieldName - The field name to compare. * @param expression - The expression to compare to. * @returns A new `Expression` representing the less than or equal to comparison. */ export declare function lessThanOrEqual(fieldName: string, expression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is less than or equal to a constant value. * * @example * ```typescript * // Check if the 'score' field is less than or equal to 70 * lessThan("score", 70); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the less than or equal to comparison. */ export declare function lessThanOrEqual(fieldName: string, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that performs a case-sensitive wildcard string comparison against a * field. * * @example * ```typescript * // Check if the 'title' field contains the string "guide" * like("title", "%guide%"); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'like' comparison. */ export declare function like(fieldName: string, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that performs a case-sensitive wildcard string comparison against a * field. * * @example * ```typescript * // Check if the 'title' field contains the string "guide" * like("title", field("pattern")); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'like' comparison. */ export declare function like(fieldName: string, pattern: Expression): BooleanExpression; /** * @beta * * Creates an expression that performs a case-sensitive wildcard string comparison. * * @example * ```typescript * // Check if the 'title' field contains the string "guide" * like(field("title"), "%guide%"); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'like' comparison. */ export declare function like(stringExpression: Expression, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that performs a case-sensitive wildcard string comparison. * * @example * ```typescript * // Check if the 'title' field contains the string "guide" * like(field("title"), field("pattern")); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param pattern - The pattern to search for. You can use "%" as a wildcard character. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'like' comparison. */ export declare function like(stringExpression: Expression, pattern: Expression): BooleanExpression; /** * @beta * Options defining how a LimitStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(limit:1)}. */ export declare type LimitStageOptions = StageOptions & { /** * @beta * The maximum number of documents to return. */ limit: number; }; declare const enum LimitType { First = "F", Last = "L" } /** LimitType enum. */ declare type LimitType_2 = 'FIRST' | 'LAST'; declare type ListenSequenceNumber = number; declare class LLRBEmptyNode<K, V> { get key(): never; get value(): never; get color(): never; get left(): never; get right(): never; size: number; copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBEmptyNode<K, V>; insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>; remove(key: K, comparator: Comparator<K>): LLRBEmptyNode<K, V>; isEmpty(): boolean; inorderTraversal(action: (k: K, v: V) => boolean): boolean; reverseTraversal(action: (k: K, v: V) => boolean): boolean; minKey(): K | null; maxKey(): K | null; isRed(): boolean; checkMaxDepth(): boolean; protected check(): 0; } declare class LLRBNode<K, V> { key: K; value: V; readonly color: boolean; readonly left: LLRBNode<K, V> | LLRBEmptyNode<K, V>; readonly right: LLRBNode<K, V> | LLRBEmptyNode<K, V>; readonly size: number; static EMPTY: LLRBEmptyNode<any, any>; static RED: boolean; static BLACK: boolean; constructor(key: K, value: V, color?: boolean, left?: LLRBNode<K, V> | LLRBEmptyNode<K, V>, right?: LLRBNode<K, V> | LLRBEmptyNode<K, V>); copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBNode<K, V>; isEmpty(): boolean; inorderTraversal<T>(action: (k: K, v: V) => T): T; reverseTraversal<T>(action: (k: K, v: V) => T): T; private min; minKey(): K | null; maxKey(): K | null; insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>; private removeMin; remove(key: K, comparator: Comparator<K>): LLRBNode<K, V> | LLRBEmptyNode<K, V>; isRed(): boolean; private fixUp; private moveRedLeft; private moveRedRight; private rotateLeft; private rotateRight; private colorFlip; checkMaxDepth(): boolean; protected check(): number; } /** * @beta * Creates an expression that computes the natural logarithm of a numeric value. * * @example * ```typescript * // Compute the natural logarithm of the 'value' field. * ln("value"); * ``` * * @param fieldName - The name of the field to compute the natural logarithm of. * @returns A new `Expression` representing the natural logarithm of the numeric value. */ export declare function ln(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that computes the natural logarithm of a numeric value. * * @example * ```typescript * // Compute the natural logarithm of the 'value' field. * ln(field("value")); * ``` * * @param expression - An expression evaluating to a numeric value, which the natural logarithm will be computed for. * @returns A new `Expression` representing the natural logarithm of the numeric value. */ export declare function ln(expression: Expression): FunctionExpression; /** * A readonly view of the local state of all documents we're tracking (i.e. we * have a cached version in remoteDocumentCache or local mutations for the * document). The view is computed by applying the mutations in the * MutationQueue to the RemoteDocumentCache. */ declare class LocalDocumentsView { readonly remoteDocumentCache: RemoteDocumentCache; readonly mutationQueue: MutationQueue; readonly documentOverlayCache: DocumentOverlayCache; readonly indexManager: IndexManager; constructor(remoteDocumentCache: RemoteDocumentCache, mutationQueue: MutationQueue, documentOverlayCache: DocumentOverlayCache, indexManager: IndexManager); /** * Get the local view of the document identified by `key`. * * @returns Local view of the document or null if we don't have any cached * state for it. */ getDocument(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<Document_2>; /** * Gets the local view of the documents identified by `keys`. * * If we don't have cached state for a document in `keys`, a NoDocument will * be stored for that key in the resulting set. */ getDocuments(transaction: PersistenceTransaction, keys: DocumentKeySet): PersistencePromise<DocumentMap>; /** * Similar to `getDocuments`, but creates the local view from the given * `baseDocs` without retrieving documents from the local store. * * @param transaction - The transaction this operation is scoped to. * @param docs - The documents to apply local mutations to get the local views. * @param existenceStateChanged - The set of document keys whose existence state * is changed. This is useful to determine if some documents overlay needs * to be recalculated. */ getLocalViewOfDocuments(transaction: PersistenceTransaction, docs: MutableDocumentMap, existenceStateChanged?: DocumentKeySet): PersistencePromise<DocumentMap>; /** * Gets the overlayed documents for the given document map, which will include * the local view of those documents and a `FieldMask` indicating which fields * are mutated locally, `null` if overlay is a Set or Delete mutation. */ getOverlayedDocuments(transaction: PersistenceTransaction, docs: MutableDocumentMap): PersistencePromise<OverlayedDocumentMap>; /** * Fetches the overlays for {@code docs} and adds them to provided overlay map * if the map does not already contain an entry for the given document key. */ private populateOverlays; /** * Computes the local view for the given documents. * * @param docs - The documents to compute views for. It also has the base * version of the documents. * @param overlays - The overlays that need to be applied to the given base * version of the documents. * @param existenceStateChanged - A set of documents whose existence states * might have changed. This is used to determine if we need to re-calculate * overlays from mutation queues. * @returns A map represents the local documents view. */ computeViews(transaction: PersistenceTransaction, docs: MutableDocumentMap, overlays: OverlayMap, existenceStateChanged: DocumentKeySet): PersistencePromise<OverlayedDocumentMap>; private recalculateAndSaveOverlays; /** * Recalculates overlays by reading the documents from remote document cache * first, and saves them after they are calculated. */ recalculateAndSaveOverlaysForDocumentKeys(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<DocumentKeyMap<FieldMask | null>>; /** * Performs a query against the local view of all documents. * * @param transaction - The persistence transaction. * @param query - The query to match documents against. * @param offset - Read time and key to start scanning by (exclusive). * @param context - A optional tracker to keep a record of important details * during database local query execution. */ getDocumentsMatchingQuery(transaction: PersistenceTransaction, query: Query_2, offset: IndexOffset, context?: QueryContext): PersistencePromise<DocumentMap>; /** * Given a collection group, returns the next documents that follow the provided offset, along * with an updated batch ID. * * <p>The documents returned by this method are ordered by remote version from the provided * offset. If there are no more remote documents after the provided offset, documents with * mutations in order of batch id from the offset are returned. Since all documents in a batch are * returned together, the total number of documents returned can exceed {@code count}. * * @param transaction * @param collectionGroup - The collection group for the documents. * @param offset - The offset to index into. * @param count - The number of documents to return * @returns A LocalWriteResult with the documents that follow the provided offset and the last processed batch id. */ getNextDocuments(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset, count: number): PersistencePromise<LocalWriteResult>; private getDocumentsMatchingDocumentQuery; private getDocumentsMatchingCollectionGroupQuery; private getDocumentsMatchingCollectionQuery; } declare interface LocalStore { collectGarbage(garbageCollector: LruGarbageCollector): Promise<LruResults>; /** Manages the list of active field and collection indices. */ indexManager: IndexManager; /** * The "local" view of all documents (layering mutationQueue on top of * remoteDocumentCache). */ localDocuments: LocalDocumentsView; } /** The result of a write to the local store. */ declare interface LocalWriteResult { batchId: BatchId; changes: DocumentMap; } /** * @beta * Creates an expression that computes the logarithm of an expression to a given base. * * @example * ```typescript * // Compute the logarithm of the 'value' field with base 10. * log(field("value"), 10); * ``` * * @param expression - An expression evaluating to a numeric value, which the logarithm will be computed for. * @param base - The base of the logarithm. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logarithm of the numeric value. */ export declare function log(expression: Expression, base: number): FunctionExpression; /** * @beta * Creates an expression that computes the logarithm of an expression to a given base. * * @example * ```typescript * // Compute the logarithm of the 'value' field with the base in the 'base' field. * log(field("value"), field("base")); * ``` * * @param expression - An expression evaluating to a numeric value, which the logarithm will be computed for. * @param base - The base of the logarithm. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logarithm of the numeric value. */ export declare function log(expression: Expression, base: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the logarithm of a field to a given base. * * @example * ```typescript * // Compute the logarithm of the 'value' field with base 10. * log("value", 10); * ``` * * @param fieldName - The name of the field to compute the logarithm of. * @param base - The base of the logarithm. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logarithm of the numeric value. */ export declare function log(fieldName: string, base: number): FunctionExpression; /** * @beta * Creates an expression that computes the logarithm of a field to a given base. * * @example * ```typescript * // Compute the logarithm of the 'value' field with the base in the 'base' field. * log("value", field("base")); * ``` * * @param fieldName - The name of the field to compute the logarithm of. * @param base - The base of the logarithm. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logarithm of the numeric value. */ export declare function log(fieldName: string, base: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the base-10 logarithm of a numeric value. * * @example * ```typescript * // Compute the base-10 logarithm of the 'value' field. * log10("value"); * ``` * * @param fieldName - The name of the field to compute the base-10 logarithm of. * @returns A new `Expression` representing the base-10 logarithm of the numeric value. */ export declare function log10(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that computes the base-10 logarithm of a numeric value. * * @example * ```typescript * // Compute the base-10 logarithm of the 'value' field. * log10(field("value")); * ``` * * @param expression - An expression evaluating to a numeric value, which the base-10 logarithm will be computed for. * @returns A new `Expression` representing the base-10 logarithm of the numeric value. */ export declare function log10(expression: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the largest value between multiple input * expressions or literal values. Based on Firestore's value type ordering. * * @example * ```typescript * // Returns the largest value between the 'field1' field, the 'field2' field, * // and 1000 * logicalMaximum(field("field1"), field("field2"), 1000); * ``` * * @param first - The first operand expression. * @param second - The second expression or literal. * @param others - Optional additional expressions or literals. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical maximum operation. */ export declare function logicalMaximum(first: Expression, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * * Creates an expression that returns the largest value between multiple input * expressions or literal values. Based on Firestore's value type ordering. * * @example * ```typescript * // Returns the largest value between the 'field1' field, the 'field2' field, * // and 1000. * logicalMaximum("field1", field("field2"), 1000); * ``` * * @param fieldName - The first operand field name. * @param second - The second expression or literal. * @param others - Optional additional expressions or literals. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical maximum operation. */ export declare function logicalMaximum(fieldName: string, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * * Creates an expression that returns the smallest value between multiple input * expressions and literal values. Based on Firestore's value type ordering. * * @example * ```typescript * // Returns the smallest value between the 'field1' field, the 'field2' field, * // and 1000. * logicalMinimum(field("field1"), field("field2"), 1000); * ``` * * @param first - The first operand expression. * @param second - The second expression or literal. * @param others - Optional additional expressions or literals. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical minimum operation. */ export declare function logicalMinimum(first: Expression, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; /** * @beta * * Creates an expression that returns the smallest value between a field's value * and other input expressions or literal values. * Based on Firestore's value type ordering. * * @example * ```typescript * // Returns the smallest value between the 'field1' field, the 'field2' field, * // and 1000. * logicalMinimum("field1", field("field2"), 1000); * ``` * * @param fieldName - The first operand field name. * @param second - The second expression or literal. * @param others - Optional additional expressions or literals. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical minimum operation. */ export declare function logicalMinimum(fieldName: string, second: Expression | unknown, ...others: Array<Expression | unknown>): FunctionExpression; declare interface LruGarbageCollector { readonly params: LruParams; collect(txn: PersistenceTransaction, activeTargetIds: ActiveTargets): PersistencePromise<LruResults>; /** Given a percentile of target to collect, returns the number of targets to collect. */ calculateTargetCount(txn: PersistenceTransaction, percentile: number): PersistencePromise<number>; /** Returns the nth sequence number, counting in order from the smallest. */ nthSequenceNumber(txn: PersistenceTransaction, n: number): PersistencePromise<number>; /** * Removes documents that have a sequence number equal to or less than the * upper bound and are not otherwise pinned. */ removeOrphanedDocuments(txn: PersistenceTransaction, upperBound: ListenSequenceNumber): PersistencePromise<number>; getCacheSize(txn: PersistenceTransaction): PersistencePromise<number>; /** * Removes targets with a sequence number equal to or less than the given * upper bound, and removes document associations with those targets. */ removeTargets(txn: PersistenceTransaction, upperBound: ListenSequenceNumber, activeTargetIds: ActiveTargets): PersistencePromise<number>; } declare class LruParams { readonly cacheSizeCollectionThreshold: number; readonly percentileToCollect: number; readonly maximumSequenceNumbersToCollect: number; private static readonly DEFAULT_COLLECTION_PERCENTILE; private static readonly DEFAULT_MAX_SEQUENCE_NUMBERS_TO_COLLECT; static withCacheSize(cacheSize: number): LruParams; static readonly DEFAULT: LruParams; static readonly DISABLED: LruParams; constructor(cacheSizeCollectionThreshold: number, percentileToCollect: number, maximumSequenceNumbersToCollect: number); } /** * Describes the results of a garbage collection run. `didRun` will be set to * `false` if collection was skipped (either it is disabled or the cache size * has not hit the threshold). If collection ran, the other fields will be * filled in with the details of the results. */ declare interface LruResults { readonly didRun: boolean; readonly sequenceNumbersCollected: number; readonly targetsRemoved: number; readonly documentsRemoved: number; } /** * @beta * Trims whitespace or a specified set of characters/bytes from the beginning of a string or byte array. * * @example * ```typescript * // Trim whitespace from the beginning of the 'userInput' field * ltrim(field("userInput")); * * // Trim quotes from the beginning of the 'userInput' field * ltrim(field("userInput"), '"'); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string or byte array. */ export declare function ltrim(fieldName: string, valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Trims whitespace or a specified set of characters/bytes from the beginning of a string or byte array. * * @example * ```typescript * // Trim whitespace from the beginning of the 'userInput' field * ltrim(field("userInput")); * * // Trim quotes from the beginning of the 'userInput' field * ltrim(field("userInput"), '"'); * ``` * * @param expression - The expression representing the string or byte array. * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string or byte array. */ export declare function ltrim(expression: Expression, valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * * Creates an expression that creates a Firestore map value from an input object. * * @example * ```typescript * // Create a map from the input object and reference the 'baz' field value from the input document. * map({foo: 'bar', baz: Field.of('baz')}).as('data'); * ``` * * @param elements - The input map to evaluate in the expression. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the map function. */ export declare function map(elements: Record<string, unknown>): FunctionExpression; /** * @beta * Creates an expression that returns the entries of a map as an array of maps, * where each map contains a `"k"` property for the key and a `"v"` property for the value. * For example: `[{ k: "key1", v: "value1" }, ...]`. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the entries of the 'address' map field * mapEntries("address"); * ``` * * @param mapField - The map field to get the entries of. * @returns A new `Expression` representing the entries of the map. */ export declare function mapEntries(mapField: string): FunctionExpression; /** * @beta * Creates an expression that returns the entries of a map as an array of maps, * where each map contains a `"k"` property for the key and a `"v"` property for the value. * For example: `[{ k: "key1", v: "value1" }, ...]`. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the entries of the map expression * mapEntries(map({"city": "San Francisco"})); * ``` * * @param mapExpression - The expression representing the map to get the entries of. * @returns A new `Expression` representing the entries of the map. */ export declare function mapEntries(mapExpression: Expression): FunctionExpression; /** * @beta * * Accesses a value from a map (object) field using the provided key. * * @example * ```typescript * // Get the 'city' value from the 'address' map field * mapGet("address", "city"); * ``` * * @param fieldName - The field name of the map field. * @param subField - The key to access in the map. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the value associated with the given key in the map. */ export declare function mapGet(fieldName: string, subField: string): FunctionExpression; /** * @beta * * Accesses a value from a map (object) expression using the provided key. * * @example * ```typescript * // Get the 'city' value from the 'address' map field * mapGet(field("address"), "city"); * ``` * * @param mapExpression - The expression representing the map. * @param subField - The key to access in the map. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the value associated with the given key in the map. */ export declare function mapGet(mapExpression: Expression, subField: string): FunctionExpression; /** * @beta * Creates an expression that returns the keys of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the keys of the 'address' map field * mapKeys("address"); * ``` * * @param mapField - The map field to get the keys of. * @returns A new `Expression` representing the keys of the map. */ export declare function mapKeys(mapField: string): FunctionExpression; /** * @beta * Creates an expression that returns the keys of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the keys of the map expression * mapKeys(map({"city": "San Francisco"})); * ``` * * @param mapExpression - The expression representing the map to get the keys of. * @returns A new `Expression` representing the keys of the map. */ export declare function mapKeys(mapExpression: Expression): FunctionExpression; /** * @beta * * Creates an expression that merges multiple map values. * * @example * ``` * // Merges the map in the settings field with, a map literal, and a map in * // that is conditionally returned by another expression * mapMerge('settings', { enabled: true }, conditional(field('isAdmin'), { admin: true}, {}) * ``` * * @param mapField - Name of a field containing a map value that will be merged. * @param secondMap - A required second map to merge. Represented as a literal or * an expression that returns a map. * @param otherMaps - Optional additional maps to merge. Each map is represented * as a literal or an expression that returns a map. */ export declare function mapMerge(mapField: string, secondMap: Record<string, unknown> | Expression, ...otherMaps: Array<Record<string, unknown> | Expression>): FunctionExpression; /** * @beta * * Creates an expression that merges multiple map values. * * @example * ``` * // Merges the map in the settings field with, a map literal, and a map in * // that is conditionally returned by another expression * mapMerge(field('settings'), { enabled: true }, conditional(field('isAdmin'), { admin: true}, {}) * ``` * * @param firstMap - An expression or literal map value that will be merged. * @param secondMap - A required second map to merge. Represented as a literal or * an expression that returns a map. * @param otherMaps - Optional additional maps to merge. Each map is represented * as a literal or an expression that returns a map. */ export declare function mapMerge(firstMap: Record<string, unknown> | Expression, secondMap: Record<string, unknown> | Expression, ...otherMaps: Array<Record<string, unknown> | Expression>): FunctionExpression; /** * @beta * * Creates an expression that removes a key from the map at the specified field name. * * @example * ``` * // Removes the key 'city' field from the map in the address field of the input document. * mapRemove('address', 'city'); * ``` * * @param mapField - The name of a field containing a map value. * @param key - The name of the key to remove from the input map. */ export declare function mapRemove(mapField: string, key: string): FunctionExpression; /** * @beta * * Creates an expression that removes a key from the map produced by evaluating an expression. * * @example * ``` * // Removes the key 'baz' from the input map. * mapRemove(map({foo: 'bar', baz: true}), 'baz'); * @example * ``` * * @param mapExpr - An expression return a map value. * @param key - The name of the key to remove from the input map. */ export declare function mapRemove(mapExpr: Expression, key: string): FunctionExpression; /** * @beta * * Creates an expression that removes a key from the map at the specified field name. * * @example * ``` * // Removes the key 'city' field from the map in the address field of the input document. * mapRemove('address', constant('city')); * ``` * * @param mapField - The name of a field containing a map value. * @param keyExpr - An expression that produces the name of the key to remove from the input map. */ export declare function mapRemove(mapField: string, keyExpr: Expression): FunctionExpression; /** * @beta * * Creates an expression that removes a key from the map produced by evaluating an expression. * * @example * ``` * // Removes the key 'baz' from the input map. * mapRemove(map({foo: 'bar', baz: true}), constant('baz')); * @example * ``` * * @param mapExpr - An expression return a map value. * @param keyExpr - An expression that produces the name of the key to remove from the input map. */ export declare function mapRemove(mapExpr: Expression, keyExpr: Expression): FunctionExpression; /** * @beta * Creates an expression that returns a new map with the specified entries added or updated. * * @remarks * This only performs shallow updates to the map. Setting a value to `null` * will retain the key with a `null` value. To remove a key entirely, use `mapRemove`. * * @example * ```typescript * // Set the 'city' to 'San Francisco' in the 'address' map field * mapSet("address", "city", "San Francisco"); * ``` * * @param mapField - The map field to set entries in. * @param key - The key to set. Must be a string or a constant string expression. * @param value - The value to set. * @param moreKeyValues - Additional key-value pairs to set. * @returns A new `Expression` representing the map with the entries set. */ export declare function mapSet(mapField: string, key: string | Expression, value: unknown, ...moreKeyValues: unknown[]): FunctionExpression; /** * @beta * Creates an expression that returns a new map with the specified entries added or updated. * * @remarks * This only performs shallow updates to the map. Setting a value to `null` * will retain the key with a `null` value. To remove a key entirely, use `mapRemove`. * * @example * ```typescript * // Set the 'city' to "San Francisco" * mapSet(map({"state": "California"}), "city", "San Francisco"); * ``` * * @param mapExpression - The expression representing the map. * @param key - The key to set. Must be a string or a constant string expression. * @param value - The value to set. * @param moreKeyValues - Additional key-value pairs to set. * @returns A new `Expression` representing the map with the entries set. */ export declare function mapSet(mapExpression: Expression, key: string | Expression, value: unknown, ...moreKeyValues: unknown[]): FunctionExpression; declare type MapValue = firestoreV1ApiClientInterfaces.MapValue; /** * @beta * Creates an expression that returns the values of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the values of the 'address' map field * mapValues("address"); * ``` * * @param mapField - The map field to get the values of. * @returns A new `Expression` representing the values of the map. */ export declare function mapValues(mapField: string): FunctionExpression; /** * @beta * Creates an expression that returns the values of a map. * * @remarks * While the backend generally preserves insertion order, relying on the * order of the output array is not guaranteed and should be avoided. * * @example * ```typescript * // Get the values of the map expression * mapValues(map({"city": "San Francisco"})); * ``` * * @param mapExpression - The expression representing the map to get the values of. * @returns A new `Expression` representing the values of the map. */ export declare function mapValues(mapExpression: Expression): FunctionExpression; /** * @beta * * Creates an aggregation that finds the maximum value of an expression across multiple stage * inputs. * * @example * ```typescript * // Find the highest score in a leaderboard * maximum(field("score")).as("highestScore"); * ``` * * @param expression - The expression to find the maximum value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'maximum' aggregation. */ export declare function maximum(expression: Expression): AggregateFunction; /** * @beta * * Creates an aggregation that finds the maximum value of a field across multiple stage inputs. * * @example * ```typescript * // Find the highest score in a leaderboard * maximum("score").as("highestScore"); * ``` * * @param fieldName - The name of the field to find the maximum value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'maximum' aggregation. */ export declare function maximum(fieldName: string): AggregateFunction; /** * Provides an in-memory cache to the SDK. This is the default cache unless explicitly * configured otherwise. * * To use, create an instance using the factory function {@link memoryLocalCache()}, then * set the instance to `FirestoreSettings.cache` and call `initializeFirestore` using * the settings object. */ declare type MemoryLocalCache = { kind: 'memory'; /* Excluded from this release type: _onlineComponentProvider */ /* Excluded from this release type: _offlineComponentProvider */ }; /** * @beta * * Creates an aggregation that finds the minimum value of an expression across multiple stage * inputs. * * @example * ```typescript * // Find the lowest price of all products * minimum(field("price")).as("lowestPrice"); * ``` * * @param expression - The expression to find the minimum value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'minimum' aggregation. */ export declare function minimum(expression: Expression): AggregateFunction; /** * @beta * * Creates an aggregation that finds the minimum value of a field across multiple stage inputs. * * @example * ```typescript * // Find the lowest price of all products * minimum("price").as("lowestPrice"); * ``` * * @param fieldName - The name of the field to find the minimum value of. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'minimum' aggregation. */ export declare function minimum(fieldName: string): AggregateFunction; /** * @beta * * Creates an expression that calculates the modulo (remainder) of dividing two expressions. * * @example * ```typescript * // Calculate the remainder of dividing 'field1' by 'field2'. * mod(field("field1"), field("field2")); * ``` * * @param left - The dividend expression. * @param right - The divisor expression. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the modulo operation. */ export declare function mod(left: Expression, right: Expression): FunctionExpression; /** * @beta * * Creates an expression that calculates the modulo (remainder) of dividing an expression by a constant. * * @example * ```typescript * // Calculate the remainder of dividing 'field1' by 5. * mod(field("field1"), 5); * ``` * * @param expression - The dividend expression. * @param value - The divisor constant. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the modulo operation. */ export declare function mod(expression: Expression, value: unknown): FunctionExpression; /** * @beta * * Creates an expression that calculates the modulo (remainder) of dividing a field's value by an expression. * * @example * ```typescript * // Calculate the remainder of dividing 'field1' by 'field2'. * mod("field1", field("field2")); * ``` * * @param fieldName - The dividend field name. * @param expression - The divisor expression. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the modulo operation. */ export declare function mod(fieldName: string, expression: Expression): FunctionExpression; /** * @beta * * Creates an expression that calculates the modulo (remainder) of dividing a field's value by a constant. * * @example * ```typescript * // Calculate the remainder of dividing 'field1' by 5. * mod("field1", 5); * ``` * * @param fieldName - The dividend field name. * @param value - The divisor constant. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the modulo operation. */ export declare function mod(fieldName: string, value: unknown): FunctionExpression; /** * @beta * * Creates an expression that multiplies two expressions together. * * @example * ```typescript * // Multiply the 'quantity' field by the 'price' field * multiply(field("quantity"), field("price")); * ``` * * @param first - The first expression to multiply. * @param second - The second expression or literal to multiply. * @param others - Optional additional expressions or literals to multiply. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the multiplication operation. */ export declare function multiply(first: Expression, second: Expression | unknown): FunctionExpression; /** * @beta * * Creates an expression that multiplies a field's value by an expression. * * @example * ```typescript * // Multiply the 'quantity' field by the 'price' field * multiply("quantity", field("price")); * ``` * * @param fieldName - The name of the field containing the value to add. * @param second - The second expression or literal to add. * @param others - Optional other expressions or literals to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the multiplication operation. */ export declare function multiply(fieldName: string, second: Expression | unknown): FunctionExpression; /** * 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; } /** Miscellaneous collection types / constants. */ declare type MutableDocumentMap = SortedMap<DocumentKey, MutableDocument>; /** * 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; } /** * A batch of mutations that will be sent as one unit to the backend. */ declare class MutationBatch { batchId: BatchId; localWriteTime: Timestamp; baseMutations: Mutation[]; mutations: Mutation[]; /** * @param batchId - The unique ID of this mutation batch. * @param localWriteTime - The original write time of this mutation. * @param baseMutations - Mutations that are used to populate the base * values when this mutation is applied locally. This can be used to locally * overwrite values that are persisted in the remote document cache. Base * mutations are never sent to the backend. * @param mutations - The user-provided mutations in this mutation batch. * User-provided mutations are applied both locally and remotely on the * backend. */ constructor(batchId: BatchId, localWriteTime: Timestamp, baseMutations: Mutation[], mutations: Mutation[]); /** * Applies all the mutations in this MutationBatch to the specified document * to compute the state of the remote document * * @param document - The document to apply mutations to. * @param batchResult - The result of applying the MutationBatch to the * backend. */ applyToRemoteDocument(document: MutableDocument, batchResult: MutationBatchResult): void; /** * Computes the local view of a document given all the mutations in this * batch. * * @param document - The document to apply mutations to. * @param mutatedFields - Fields that have been updated before applying this mutation batch. * @returns A `FieldMask` representing all the fields that are mutated. */ applyToLocalView(document: MutableDocument, mutatedFields: FieldMask | null): FieldMask | null; /** * Computes the local view for all provided documents given the mutations in * this batch. Returns a `DocumentKey` to `Mutation` map which can be used to * replace all the mutation applications. */ applyToLocalDocumentSet(documentMap: OverlayedDocumentMap, documentsWithoutRemoteVersion: DocumentKeySet): MutationMap; keys(): DocumentKeySet; isEqual(other: MutationBatch): boolean; } /** The result of applying a mutation batch to the backend. */ declare class MutationBatchResult { readonly batch: MutationBatch; readonly commitVersion: SnapshotVersion; readonly mutationResults: MutationResult[]; /** * A pre-computed mapping from each mutated document to the resulting * version. */ readonly docVersions: DocumentVersionMap; private constructor(); /** * Creates a new MutationBatchResult for the given batch and results. There * must be one result for each mutation in the batch. This static factory * caches a document=&gt;version mapping (docVersions). */ static from(batch: MutationBatch, commitVersion: SnapshotVersion, results: MutationResult[]): MutationBatchResult; } declare type MutationMap = DocumentKeyMap<Mutation>; /** A queue of mutations to apply to the remote store. */ declare interface MutationQueue { /** Returns true if this queue contains no mutation batches. */ checkEmpty(transaction: PersistenceTransaction): PersistencePromise<boolean>; /** * Creates a new mutation batch and adds it to this mutation queue. * * @param transaction - The transaction this operation is scoped to. * @param localWriteTime - The original write time of this mutation. * @param baseMutations - Mutations that are used to populate the base values * when this mutation is applied locally. These mutations are used to locally * overwrite values that are persisted in the remote document cache. * @param mutations - The user-provided mutations in this mutation batch. */ addMutationBatch(transaction: PersistenceTransaction, localWriteTime: Timestamp, baseMutations: Mutation[], mutations: Mutation[]): PersistencePromise<MutationBatch>; /** * Loads the mutation batch with the given batchId. */ lookupMutationBatch(transaction: PersistenceTransaction, batchId: BatchId): PersistencePromise<MutationBatch | null>; /** * Gets the first unacknowledged mutation batch after the passed in batchId * in the mutation queue or null if empty. * * @param batchId - The batch to search after, or BATCHID_UNKNOWN for the * first mutation in the queue. * * @returns the next mutation or null if there wasn't one. */ getNextMutationBatchAfterBatchId(transaction: PersistenceTransaction, batchId: BatchId): PersistencePromise<MutationBatch | null>; /** * Gets the largest (latest) batch id in mutation queue for the current user * that is pending server response, returns `BATCHID_UNKNOWN` if the queue is * empty. * * @returns the largest batch id in the mutation queue that is not * acknowledged. */ getHighestUnacknowledgedBatchId(transaction: PersistenceTransaction): PersistencePromise<BatchId>; /** Gets all mutation batches in the mutation queue. */ getAllMutationBatches(transaction: PersistenceTransaction): PersistencePromise<MutationBatch[]>; /** * Finds all mutation batches that could possibly affect the given * document key. Not all mutations in a batch will necessarily affect the * document key, so when looping through the batch you'll need to check that * the mutation itself matches the key. * * Batches are guaranteed to be in sorted order. * * Note that because of this requirement implementations are free to return * mutation batches that don't contain the document key at all if it's * convenient. */ getAllMutationBatchesAffectingDocumentKey(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutationBatch[]>; /** * Finds all mutation batches that could possibly affect the given set of * document keys. Not all mutations in a batch will necessarily affect each * key, so when looping through the batch you'll need to check that the * mutation itself matches the key. * * Batches are guaranteed to be in sorted order. * * Note that because of this requirement implementations are free to return * mutation batches that don't contain any of the document keys at all if it's * convenient. */ getAllMutationBatchesAffectingDocumentKeys(transaction: PersistenceTransaction, documentKeys: SortedMap<DocumentKey, unknown>): PersistencePromise<MutationBatch[]>; /** * Finds all mutation batches that could affect the results for the given * query. Not all mutations in a batch will necessarily affect the query, so * when looping through the batch you'll need to check that the mutation * itself matches the query. * * Batches are guaranteed to be in sorted order. * * Note that because of this requirement implementations are free to return * mutation batches that don't match the query at all if it's convenient. * * NOTE: A PatchMutation does not need to include all fields in the query * filter criteria in order to be a match (but any fields it does contain do * need to match). */ getAllMutationBatchesAffectingQuery(transaction: PersistenceTransaction, query: Query_2): PersistencePromise<MutationBatch[]>; /** * Removes the given mutation batch from the queue. This is useful in two * circumstances: * * + Removing an applied mutation from the head of the queue * + Removing a rejected mutation from anywhere in the queue * * Multi-Tab Note: This operation should only be called by the primary client. */ removeMutationBatch(transaction: PersistenceTransaction, batch: MutationBatch): PersistencePromise<void>; /** * Performs a consistency check, examining the mutation queue for any * leaks, if possible. */ performConsistencyCheck(transaction: PersistenceTransaction): PersistencePromise<void>; } /** The result of successfully applying a mutation to the backend. */ declare class MutationResult { /** * The version at which the mutation was committed: * * - For most operations, this is the updateTime in the WriteResult. * - For deletes, the commitTime of the WriteResponse (because deletes are * not stored and have no updateTime). * * Note that these versions can be different: No-op writes will not change * the updateTime even though the commitTime advances. */ readonly version: SnapshotVersion; /** * The resulting fields returned from the backend after a mutation * containing field transforms has been committed. Contains one FieldValue * for each FieldTransform that was in the mutation. * * Will be empty if the mutation did not contain any field transforms. */ readonly transformResults: Array<Value | null>; constructor( /** * The version at which the mutation was committed: * * - For most operations, this is the updateTime in the WriteResult. * - For deletes, the commitTime of the WriteResponse (because deletes are * not stored and have no updateTime). * * Note that these versions can be different: No-op writes will not change * the updateTime even though the commitTime advances. */ version: SnapshotVersion, /** * The resulting fields returned from the backend after a mutation * containing field transforms has been committed. Contains one FieldValue * for each FieldTransform that was in the mutation. * * Will be empty if the mutation did not contain any field transforms. */ transformResults: Array<Value | null>); } declare const enum MutationType { Set = 0, Patch = 1, Delete = 2, Verify = 3 } /** * Represents a Query saved by the SDK in its local storage. */ declare interface NamedQuery { /** The name of the query. */ readonly name: string; /** The underlying query associated with `name`. */ readonly query: Query_2; /** The time at which the results for this query were read. */ readonly readTime: SnapshotVersion; } /** Properties of a NamedQuery. */ declare interface NamedQuery_2 { /** NamedQuery name */ name?: string | null; /** NamedQuery bundledQuery */ bundledQuery?: BundledQuery | null; /** NamedQuery readTime */ readTime?: Timestamp_2 | null; } /** * @beta * * Creates an expression that negates a filter condition. * * @example * ```typescript * // Find documents where the 'completed' field is NOT true * not(equal("completed", true)); * ``` * * @param booleanExpr - The filter condition to negate. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the negated filter condition. */ export declare function not(booleanExpr: BooleanExpression): BooleanExpression; /** * @beta * * Creates an expression that checks if two expressions are not equal. * * @example * ```typescript * // Check if the 'status' field is not equal to field 'finalState' * notEqual(field("status"), field("finalState")); * ``` * * @param left - The first expression to compare. * @param right - The second expression to compare. * @returns A new `Expression` representing the inequality comparison. */ export declare function notEqual(left: Expression, right: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is not equal to a constant value. * * @example * ```typescript * // Check if the 'status' field is not equal to "completed" * notEqual(field("status"), "completed"); * ``` * * @param expression - The expression to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the inequality comparison. */ export declare function notEqual(expression: Expression, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is not equal to an expression. * * @example * ```typescript * // Check if the 'status' field is not equal to the value of 'expectedStatus' * notEqual("status", field("expectedStatus")); * ``` * * @param fieldName - The field name to compare. * @param expression - The expression to compare to. * @returns A new `Expression` representing the inequality comparison. */ export declare function notEqual(fieldName: string, expression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is not equal to a constant value. * * @example * ```typescript * // Check if the 'country' field is not equal to "USA" * notEqual("country", "USA"); * ``` * * @param fieldName - The field name to compare. * @param value - The constant value to compare to. * @returns A new `Expression` representing the inequality comparison. */ export declare function notEqual(fieldName: string, value: unknown): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is not equal to any of the provided values * or expressions. * * @example * ```typescript * // Check if the 'status' field is neither "pending" nor the value of 'rejectedStatus' * notEqualAny(field("status"), ["pending", field("rejectedStatus")]); * ``` * * @param element - The expression to compare. * @param values - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'NOT IN' comparison. */ export declare function notEqualAny(element: Expression, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is not equal to any of the provided values * or expressions. * * @example * ```typescript * // Check if the 'status' field is neither "pending" nor the value of 'rejectedStatus' * notEqualAny("status", [constant("pending"), field("rejectedStatus")]); * ``` * * @param fieldName - The field name to compare. * @param values - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'NOT IN' comparison. */ export declare function notEqualAny(fieldName: string, values: Array<Expression | unknown>): BooleanExpression; /** * @beta * * Creates an expression that checks if an expression is not equal to any of the provided values * or expressions. * * @example * ```typescript * // Check if the 'status' field is neither "pending" nor the value of the field 'rejectedStatus' * notEqualAny(field("status"), ["pending", field("rejectedStatus")]); * ``` * * @param element - The expression to compare. * @param arrayExpression - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'NOT IN' comparison. */ export declare function notEqualAny(element: Expression, arrayExpression: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value is not equal to any of the values in the evaluated expression. * * @example * ```typescript * // Check if the 'status' field is not equal to any value in the field 'rejectedStatuses' * notEqualAny("status", field("rejectedStatuses")); * ``` * * @param fieldName - The field name to compare. * @param arrayExpression - The values to check against. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'NOT IN' comparison. */ export declare function notEqualAny(fieldName: string, arrayExpression: Expression): BooleanExpression; /** * @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 map implementation that uses objects as keys. Objects must have an * associated equals function and must be immutable. Entries in the map are * stored together with the key being produced from the mapKeyFn. This map * automatically handles collisions of keys. */ declare class ObjectMap<KeyType, ValueType> { private mapKeyFn; private equalsFn; /** * The inner map for a key/value pair. Due to the possibility of collisions we * keep a list of entries that we do a linear search through to find an actual * match. Note that collisions should be rare, so we still expect near * constant time lookups in practice. */ private inner; /** The number of entries stored in the map */ private innerSize; constructor(mapKeyFn: (key: KeyType) => string, equalsFn: (l: KeyType, r: KeyType) => boolean); /** Get a value for this key, or undefined if it does not exist. */ get(key: KeyType): ValueType | undefined; has(key: KeyType): boolean; /** Put this key and value in the map. */ set(key: KeyType, value: ValueType): void; /** * Remove this key from the map. Returns a boolean if anything was deleted. */ delete(key: KeyType): boolean; forEach(fn: (key: KeyType, val: ValueType) => void): void; isEmpty(): boolean; size(): number; } /** * 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<FieldPath_2, Value | null>): 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; } /** * Initializes and wires components that are needed to interface with the local * cache. Implementations override `initialize()` to provide all components. */ declare interface OfflineComponentProvider { readonly kind: Kind; persistence: Persistence; sharedClientState: SharedClientState; localStore: LocalStore; gcScheduler: Scheduler | null; indexBackfillerScheduler: Scheduler | null; synchronizeTabs: boolean; initialize(cfg: ComponentConfiguration): Promise<void>; terminate(): Promise<void>; } declare interface OfflineComponentProviderFactory { build(onlineComponents: OnlineComponentProvider): OfflineComponentProvider; } /** * @beta * Options defining how an OffsetStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(offset:1)}. */ export declare type OffsetStageOptions = StageOptions & { /** * @beta * The number of documents to skip. */ offset: number; }; /** * @beta * Utility type to create an type that only allows one * property of the Type param T to be set. * * @example * ``` * type XorY = OneOf<{ x: unknown, y: unknown }> * let a = { x: "foo" } // OK * let b = { y: "foo" } // OK * let c = { a: "foo", y: "foo" } // Not OK * ``` */ export declare type OneOf<T> = { [K in keyof T]: Pick<T, K> & { [P in Exclude<keyof T, K>]?: undefined; }; }[keyof T]; /** * Initializes and wires the components that are needed to interface with the * network. */ declare class OnlineComponentProvider { static readonly provider: OnlineComponentProviderFactory; protected localStore: LocalStore; protected sharedClientState: SharedClientState; datastore: Datastore; eventManager: EventManager; remoteStore: RemoteStore; syncEngine: SyncEngine; initialize(offlineComponentProvider: OfflineComponentProvider, cfg: ComponentConfiguration): Promise<void>; createEventManager(cfg: ComponentConfiguration): EventManager; createDatastore(cfg: ComponentConfiguration): Datastore; createRemoteStore(cfg: ComponentConfiguration): RemoteStore; createSyncEngine(cfg: ComponentConfiguration, startAsPrimary: boolean): SyncEngine; terminate(): Promise<void>; } declare interface OnlineComponentProviderFactory { build(): OnlineComponentProvider; } /** * Describes the online state of the Firestore client. Note that this does not * indicate whether or not the remote store is trying to connect or not. This is * primarily used by the View / EventManager code to change their behavior while * offline (e.g. get() calls shouldn't wait for data from the server and * snapshot events should set metadata.isFromCache=true). * * The string values should not be changed since they are persisted in * WebStorage. */ declare const enum OnlineState { /** * The Firestore client is in an unknown online state. This means the client * is either not actively trying to establish a connection or it is currently * trying to establish a connection, but it has not succeeded or failed yet. * Higher-level components should not operate in offline mode. */ Unknown = "Unknown", /** * The client is connected and the connections are healthy. This state is * reached after a successful connection and there has been at least one * successful message received from the backends. */ Online = "Online", /** * The client is either trying to establish a connection but failing, or it * has been explicitly marked offline via a call to disableNetwork(). * Higher-level components should operate in offline mode. */ Offline = "Offline" } 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" } declare interface OptionDefinition { serverName: string; nestedOptions?: OptionsDefinitions; } declare type OptionsDefinitions = Record<string, OptionDefinition>; declare class OptionsUtil { private optionDefinitions; constructor(optionDefinitions: OptionsDefinitions); private _getKnownOptions; getOptionsProto(context: ParseContext, knownOptions: Record<string, unknown>, optionsOverride?: Record<string, unknown>): ApiClientObjectMap<Value> | undefined; } /** * @beta * * Creates an expression that performs a logical 'OR' operation on multiple filter conditions. * * @example * ```typescript * // Check if the 'age' field is greater than 18 OR the 'city' field is "London" OR * // the 'status' field is "active" * const condition = or(greaterThan("age", 18), equal("city", "London"), equal("status", "active")); * ``` * * @param first - The first filter condition. * @param second - The second filter condition. * @param more - Additional filter conditions to 'OR' together. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical 'OR' operation. */ export declare function or(first: BooleanExpression, second: BooleanExpression, ...more: BooleanExpression[]): BooleanExpression; /** * 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); } declare type OrderDirection = 'DIRECTION_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING'; /** * @beta * * Represents an ordering criterion for sorting documents in a Firestore pipeline. * * You create `Ordering` instances using the `ascending` and `descending` helper functions. */ export declare class Ordering implements ProtoValueSerializable, UserData { readonly expr: Expression; readonly direction: 'ascending' | 'descending'; readonly _methodName: string | undefined; constructor(expr: Expression, direction: 'ascending' | 'descending', _methodName: string | undefined); /* Excluded from this release type: _toProto */ /* Excluded from this release type: _readUserData */ _protoValueType: 'ProtoValue'; } /** * Representation of an overlay computed by Firestore. * * Holds information about a mutation and the largest batch id in Firestore when * the mutation was created. */ declare class Overlay { readonly largestBatchId: number; readonly mutation: Mutation; constructor(largestBatchId: number, mutation: Mutation); getKey(): DocumentKey; isEqual(other: Overlay | null): boolean; toString(): string; } /** * Represents a local view (overlay) of a document, and the fields that are * locally mutated. */ declare class OverlayedDocument { readonly overlayedDocument: Document_2; /** * The fields that are locally mutated by patch mutations. * * If the overlayed document is from set or delete mutations, this is `null`. * If there is no overlay (mutation) for the document, this is an empty `FieldMask`. */ readonly mutatedFields: FieldMask | null; constructor(overlayedDocument: Document_2, /** * The fields that are locally mutated by patch mutations. * * If the overlayed document is from set or delete mutations, this is `null`. * If there is no overlay (mutation) for the document, this is an empty `FieldMask`. */ mutatedFields: FieldMask | null); } declare type OverlayedDocumentMap = DocumentKeyMap<OverlayedDocument>; declare type OverlayMap = DocumentKeyMap<Overlay>; declare interface ParseContext { readonly settings: ContextSettings; readonly databaseId: DatabaseId; readonly serializer: JsonProtoSerializer; readonly ignoreUndefinedProperties: boolean; fieldTransforms: FieldTransform[]; fieldMask: FieldPath_2[]; /** A "context" object passed around while parsing user data. */ declare class ParseContextImpl implements ParseContext { readonly settings: ContextSettings; readonly databaseId: DatabaseId; readonly serializer: JsonProtoSerializer; readonly ignoreUndefinedProperties: boolean; readonly fieldTransforms: FieldTransform[]; readonly fieldMask: FieldPath_2[]; /** * Initializes a ParseContext with the given source and path. * * @param settings - The settings for the parser. * @param databaseId - The database ID of the Firestore instance. * @param serializer - The serializer to use to generate the Value proto. * @param ignoreUndefinedProperties - Whether to ignore undefined properties * rather than throw. * @param fieldTransforms - A mutable list of field transforms encountered * while parsing the data. * @param fieldMask - A mutable list of field paths encountered while parsing * the data. * * TODO(b/34871131): We don't support array paths right now, so path can be * null to indicate the context represents any location within an array (in * which case certain features will not work and errors will be somewhat * compromised). */ constructor(settings: ContextSettings, databaseId: DatabaseId, serializer: JsonProtoSerializer, ignoreUndefinedProperties: boolean, fieldTransforms?: FieldTransform[], fieldMask?: FieldPath_2[]); get path(): FieldPath_2 | undefined; get dataSource(): UserDataSource; /** Returns a new context with the specified settings overwritten. */ contextWith(configuration: Partial<ContextSettings>): ParseContextImpl; childContextForField(field: string): ParseContextImpl; childContextForFieldPath(field: FieldPath_2): ParseContextImpl; childContextForArray(index: number): ParseContextImpl; createError(reason: string): FirestoreError; /** Returns 'true' if 'fieldPath' was traversed when creating this context. */ contains(fieldPath: FieldPath_2): boolean; private validatePath; private validatePathSegment; } /** * Similar to TypeScript's `Partial<T>`, but allows nested fields to be * omitted and FieldValues to be passed in as property values. */ export declare type PartialWithFieldValue<T> = Partial<T> | (T extends Primitive ? T : T extends {} ? { [K in keyof T]?: PartialWithFieldValue<T[K]> | FieldValue; } : never); /** * Persistence is the lowest-level shared interface to persistent storage in * Firestore. * * Persistence is used to create MutationQueue and RemoteDocumentCache * instances backed by persistence (which might be in-memory or LevelDB). * * Persistence also exposes an API to create and run PersistenceTransactions * against persistence. All read / write operations must be wrapped in a * transaction. Implementations of PersistenceTransaction / Persistence only * need to guarantee that writes made against the transaction are not made to * durable storage until the transaction resolves its PersistencePromise. * Since memory-only storage components do not alter durable storage, they are * free to ignore the transaction. * * This contract is enough to allow the LocalStore be be written * independently of whether or not the stored state actually is durably * persisted. If persistent storage is enabled, writes are grouped together to * avoid inconsistent state that could cause crashes. * * Concretely, when persistent storage is enabled, the persistent versions of * MutationQueue, RemoteDocumentCache, and others (the mutators) will * defer their writes into a transaction. Once the local store has completed * one logical operation, it commits the transaction. * * When persistent storage is disabled, the non-persistent versions of the * mutators ignore the transaction. This short-cut is allowed because * memory-only storage leaves no state so it cannot be inconsistent. * * This simplifies the implementations of the mutators and allows memory-only * implementations to supplement the persistent ones without requiring any * special dual-store implementation of Persistence. The cost is that the * LocalStore needs to be slightly careful about the order of its reads and * writes in order to avoid relying on being able to read back uncommitted * writes. */ declare interface Persistence { /** * Whether or not this persistence instance has been started. */ readonly started: boolean; readonly referenceDelegate: ReferenceDelegate; /** Starts persistence. */ start(): Promise<void>; /** * Releases any resources held during eager shutdown. */ shutdown(): Promise<void>; /** * Registers a listener that gets called when the database receives a * version change event indicating that it has deleted. * * PORTING NOTE: This is only used for Web multi-tab. */ setDatabaseDeletedListener(databaseDeletedListener: () => Promise<void>): void; /** * Adjusts the current network state in the client's metadata, potentially * affecting the primary lease. * * PORTING NOTE: This is only used for Web multi-tab. */ setNetworkEnabled(networkEnabled: boolean): void; /** * Returns GlobalCache representing a general purpose cache for global values. */ getGlobalsCache(): GlobalsCache; /** * Returns a MutationQueue representing the persisted mutations for the * given user. * * Note: The implementation is free to return the same instance every time * this is called for a given user. In particular, the memory-backed * implementation does this to emulate the persisted implementation to the * extent possible (e.g. in the case of uid switching from * sally=&gt;jack=&gt;sally, sally's mutation queue will be preserved). */ getMutationQueue(user: User, indexManager: IndexManager): MutationQueue; /** * Returns a TargetCache representing the persisted cache of targets. * * Note: The implementation is free to return the same instance every time * this is called. In particular, the memory-backed implementation does this * to emulate the persisted implementation to the extent possible. */ getTargetCache(): TargetCache; /** * Returns a RemoteDocumentCache representing the persisted cache of remote * documents. * * Note: The implementation is free to return the same instance every time * this is called. In particular, the memory-backed implementation does this * to emulate the persisted implementation to the extent possible. */ getRemoteDocumentCache(): RemoteDocumentCache; /** * Returns a BundleCache representing the persisted cache of loaded bundles. * * Note: The implementation is free to return the same instance every time * this is called. In particular, the memory-backed implementation does this * to emulate the persisted implementation to the extent possible. */ getBundleCache(): BundleCache; /** * Returns an IndexManager instance that manages our persisted query indexes. * * Note: The implementation is free to return the same instance every time * this is called. In particular, the memory-backed implementation does this * to emulate the persisted implementation to the extent possible. */ getIndexManager(user: User): IndexManager; /** * Returns a DocumentOverlayCache representing the documents that are mutated * locally. */ getDocumentOverlayCache(user: User): DocumentOverlayCache; /** * Performs an operation inside a persistence transaction. Any reads or writes * against persistence must be performed within a transaction. Writes will be * committed atomically once the transaction completes. * * Persistence operations are asynchronous and therefore the provided * transactionOperation must return a PersistencePromise. When it is resolved, * the transaction will be committed and the Promise returned by this method * will resolve. * * @param action - A description of the action performed by this transaction, * used for logging. * @param mode - The underlying mode of the IndexedDb transaction. Can be * 'readonly', 'readwrite' or 'readwrite-primary'. Transactions marked * 'readwrite-primary' can only be executed by the primary client. In this * mode, the transactionOperation will not be run if the primary lease cannot * be acquired and the returned promise will be rejected with a * FAILED_PRECONDITION error. * @param transactionOperation - The operation to run inside a transaction. * @returns A `Promise` that is resolved once the transaction completes. */ runTransaction<T>(action: string, mode: PersistenceTransactionMode, transactionOperation: (transaction: PersistenceTransaction) => PersistencePromise<T>): Promise<T>; } /** * PersistencePromise is essentially a re-implementation of Promise except * it has a .next() method instead of .then() and .next() and .catch() callbacks * are executed synchronously when a PersistencePromise resolves rather than * asynchronously (Promise implementations use setImmediate() or similar). * * This is necessary to interoperate with IndexedDB which will automatically * commit transactions if control is returned to the event loop without * synchronously initiating another operation on the transaction. * * NOTE: .then() and .catch() only allow a single consumer, unlike normal * Promises. */ declare class PersistencePromise<T> { private nextCallback; private catchCallback; private result; private error; private isDone; private callbackAttached; constructor(callback: (resolve: Resolver<T>, reject: Rejector) => void); catch<R>(fn: (error: Error) => R | PersistencePromise<R>): PersistencePromise<R>; next<R>(nextFn?: FulfilledHandler<T, R>, catchFn?: RejectedHandler<R>): PersistencePromise<R>; toPromise(): Promise<T>; private wrapUserFunction; private wrapSuccess; private wrapFailure; static resolve(): PersistencePromise<void>; static resolve<R>(result: R): PersistencePromise<R>; static reject<R>(error: Error): PersistencePromise<R>; static waitFor(all: { forEach: (cb: (el: PersistencePromise<any>) => void) => void; }): PersistencePromise<void>; /** * Given an array of predicate functions that asynchronously evaluate to a * boolean, implements a short-circuiting `or` between the results. Predicates * will be evaluated until one of them returns `true`, then stop. The final * result will be whether any of them returned `true`. */ static or(predicates: Array<() => PersistencePromise<boolean>>): PersistencePromise<boolean>; /** * Given an iterable, call the given function on each element in the * collection and wait for all of the resulting concurrent PersistencePromises * to resolve. */ static forEach<R, S>(collection: { forEach: (cb: (r: R, s: S) => void) => void; }, f: ((r: R, s: S) => PersistencePromise<void>) | ((r: R) => PersistencePromise<void>)): PersistencePromise<void>; static forEach<R>(collection: { forEach: (cb: (r: R) => void) => void; }, f: (r: R) => PersistencePromise<void>): PersistencePromise<void>; /** * Concurrently map all array elements through asynchronous function. */ static mapArray<T, U>(array: T[], f: (t: T) => PersistencePromise<U>): PersistencePromise<U[]>; /** * An alternative to recursive PersistencePromise calls, that avoids * potential memory problems from unbounded chains of promises. * * The `action` will be called repeatedly while `condition` is true. */ static doWhile(condition: () => boolean, action: () => PersistencePromise<void>): PersistencePromise<void>; } /** * A base class representing a persistence transaction, encapsulating both the * transaction's sequence numbers as well as a list of onCommitted listeners. * * When you call Persistence.runTransaction(), it will create a transaction and * pass it to your callback. You then pass it to any method that operates * on persistence. */ declare abstract class PersistenceTransaction { private readonly onCommittedListeners; abstract readonly currentSequenceNumber: ListenSequenceNumber; addOnCommittedListener(listener: () => void): void; raiseOnCommittedEvent(): void; } /** The different modes supported by `Persistence.runTransaction()`. */ declare type PersistenceTransactionMode = 'readonly' | 'readwrite' | 'readwrite-primary'; /** * Provides a persistent cache backed by IndexedDb to the SDK. * * To use, create an instance using the factory function {@link persistentLocalCache()}, then * set the instance to `FirestoreSettings.cache` and call `initializeFirestore` using * the settings object. */ declare type PersistentLocalCache = { kind: 'persistent'; /* Excluded from this release type: _onlineComponentProvider */ /* Excluded from this release type: _offlineComponentProvider */ }; /** * @beta */ export declare class Pipeline extends Pipeline_2 { /* Excluded from this release type: newPipeline */ } /** * @beta * * The Pipeline class provides a flexible and expressive framework for building complex data * transformation and query pipelines for Firestore. * * A pipeline takes data sources, such as Firestore collections or collection groups, and applies * a series of stages that are chained together. Each stage takes the output from the previous stage * (or the data source) and produces an output for the next stage (or as the final output of the * pipeline). * * Expressions can be used within each stage to filter and transform data through the stage. * * NOTE: The chained stages do not prescribe exactly how Firestore will execute the pipeline. * Instead, Firestore only guarantees that the result is the same as if the chained stages were * executed in order. * * Usage Examples: * * @example * ```typescript * const db: Firestore; // Assumes a valid firestore instance. * * // Example 1: Select specific fields and rename 'rating' to 'bookRating' * const results1 = await execute(db.pipeline() * .collection("books") * .select("title", "author", field("rating").as("bookRating"))); * * // Example 2: Filter documents where 'genre' is "Science Fiction" and 'published' is after 1950 * const results2 = await execute(db.pipeline() * .collection("books") * .where(and(field("genre").eq("Science Fiction"), field("published").gt(1950)))); * * // Example 3: Calculate the average rating of books published after 1980 * const results3 = await execute(db.pipeline() * .collection("books") * .where(field("published").gt(1980)) * .aggregate(avg(field("rating")).as("averageRating"))); * ``` */ declare class Pipeline_2 implements ProtoSerializable<Pipeline_3> { /* Excluded from this release type: _db */ /* Excluded from this release type: userDataReader */ /* Excluded from this release type: _userDataWriter */ /* Excluded from this release type: stages */ /* Excluded from this release type: __constructor */ /** * @beta * Adds new fields to outputs from previous stages. * * This stage allows you to compute values on-the-fly based on existing data from previous * stages or constants. You can use this to create new fields or overwrite existing ones (if there * is name overlaps). * * The added fields are defined using {@link @firebase/firestore/pipelines#Selectable}s, which can be: * * - {@link @firebase/firestore/pipelines#Field}: References an existing document field. * - {@link @firebase/firestore/pipelines#Expression}: Either a literal value (see {@link @firebase/firestore/pipelines#(constant:1)}) or a computed value * with an assigned alias using {@link @firebase/firestore/pipelines#Expression.(as:1)}. * * Example: * * @example * ```typescript * firestore.pipeline().collection("books") * .addFields( * field("rating").as("bookRating"), // Rename 'rating' to 'bookRating' * add(5, field("quantity")).as("totalCost") // Calculate 'totalCost' * ); * ``` * * @param field - The first field to add to the documents, specified as a {@link @firebase/firestore/pipelines#Selectable}. * @param additionalFields - Optional additional fields to add to the documents, specified as {@link @firebase/firestore/pipelines#Selectable}s. * @returns A new Pipeline object with this stage appended to the stage list. */ addFields(field: Selectable, ...additionalFields: Selectable[]): Pipeline_2; /** * @beta * Adds new fields to outputs from previous stages. * * This stage allows you to compute values on-the-fly based on existing data from previous * stages or constants. You can use this to create new fields or overwrite existing ones (if there * is name overlaps). * * The added fields are defined using {@link @firebase/firestore/pipelines#Selectable}s, which can be: * * - {@link @firebase/firestore/pipelines#Field}: References an existing document field. * - {@link @firebase/firestore/pipelines#Expression}: Either a literal value (see {@link @firebase/firestore/pipelines#(constant:1)}) or a computed value * with an assigned alias using {@link @firebase/firestore/pipelines#Expression.(as:1)}. * * Example: * * @example * ```typescript * firestore.pipeline().collection("books") * .addFields( * field("rating").as("bookRating"), // Rename 'rating' to 'bookRating' * add(5, field("quantity")).as("totalCost") // Calculate 'totalCost' * ); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ addFields(options: AddFieldsStageOptions): Pipeline_2; /** * @beta * Remove fields from outputs of previous stages. * * Example: * * @example * ```typescript * firestore.pipeline().collection('books') * // removes field 'rating' and 'cost' from the previous stage outputs. * .removeFields( * field('rating'), * 'cost' * ); * ``` * * @param fieldValue - The first field to remove. * @param additionalFields - Optional additional fields to remove. * @returns A new Pipeline object with this stage appended to the stage list. */ removeFields(fieldValue: Field | string, ...additionalFields: Array<Field | string>): Pipeline_2; /** * @beta * Remove fields from outputs of previous stages. * * Example: * * @example * ```typescript * firestore.pipeline().collection('books') * // removes field 'rating' and 'cost' from the previous stage outputs. * .removeFields( * field('rating'), * 'cost' * ); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ removeFields(options: RemoveFieldsStageOptions): Pipeline_2; /** * @beta * Selects or creates a set of fields from the outputs of previous stages. * * <p>The selected fields are defined using {@link @firebase/firestore/pipelines#Selectable} expressions, which can be: * * <ul> * <li>`string` : Name of an existing field</li> * <li>{@link @firebase/firestore/pipelines#Field}: References an existing field.</li> * <li>{@link @firebase/firestore/pipelines#AliasedExpression}: Represents the result of a function with an assigned alias name using * {@link @firebase/firestore/pipelines#Expression.(as:1)}</li> * </ul> * * <p>If no selections are provided, the output of this stage is empty. Use {@link * @firebase/firestore/pipelines#Pipeline.(addFields:1)} instead if only additions are * desired. * * <p>Example: * * @example * ```typescript * db.pipeline().collection("books") * .select( * "firstName", * field("lastName"), * field("address").toUppercase().as("upperAddress"), * ); * ``` * * @param selection - The first field to include in the output documents, specified as {@link * @firebase/firestore/pipelines#Selectable} expression or string value representing the field name. * @param additionalSelections - Optional additional fields to include in the output documents, specified as {@link * @firebase/firestore/pipelines#Selectable} expressions or `string` values representing field names. * @returns A new Pipeline object with this stage appended to the stage list. */ select(selection: Selectable | string, ...additionalSelections: Array<Selectable | string>): Pipeline_2; /** * @beta * Selects or creates a set of fields from the outputs of previous stages. * * <p>The selected fields are defined using {@link @firebase/firestore/pipelines#Selectable} expressions, which can be: * * <ul> * <li>`string`: Name of an existing field</li> * <li>{@link @firebase/firestore/pipelines#Field}: References an existing field.</li> * <li>{@link @firebase/firestore/pipelines#AliasedExpression}: Represents the result of a function with an assigned alias name using * {@link @firebase/firestore/pipelines#Expression.(as:1)}</li> * </ul> * * <p>If no selections are provided, the output of this stage is empty. Use {@link * @firebase/firestore/pipelines#Pipeline.(addFields:1)} instead if only additions are * desired. * * <p>Example: * * @example * ```typescript * db.pipeline().collection("books") * .select( * "firstName", * field("lastName"), * field("address").toUppercase().as("upperAddress"), * ); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ select(options: SelectStageOptions): Pipeline_2; /** * @beta * Filters the documents from previous stages to only include those matching the specified {@link * @firebase/firestore/pipelines#BooleanExpression}. * * <p>This stage allows you to apply conditions to the data, similar to a "WHERE" clause in SQL. * You can filter documents based on their field values, using implementations of {@link * @firebase/firestore/pipelines#BooleanExpression}, typically including but not limited to: * * <ul> * <li>field comparators: {@link @firebase/firestore/pipelines#Expression.(equal:1)}, {@link @firebase/firestore/pipelines#Expression.(lessThan:1)}, {@link * @firebase/firestore/pipelines#Expression.(greaterThan:1)}, etc.</li> * <li>logical operators: {@link @firebase/firestore/pipelines#Expression.(and:1)}, {@link @firebase/firestore/pipelines#Expression.(or:1)}, {@link @firebase/firestore/pipelines#Expression.(not:1)}, etc.</li> * <li>advanced functions: {@link @firebase/firestore/pipelines#Expression.(regexMatch:1)}, {@link * @firebase/firestore/pipelines#Expression.(arrayContains:1)}, etc.</li> * </ul> * * <p>Example: * * @example * ```typescript * firestore.pipeline().collection("books") * .where( * and( * gt(field("rating"), 4.0), // Filter for ratings greater than 4.0 * field("genre").eq("Science Fiction") // Equivalent to gt("genre", "Science Fiction") * ) * ); * ``` * * @param condition - The {@link @firebase/firestore/pipelines#BooleanExpression} to apply. * @returns A new Pipeline object with this stage appended to the stage list. */ where(condition: BooleanExpression): Pipeline_2; /** * @beta * Filters the documents from previous stages to only include those matching the specified {@link * @firebase/firestore/pipelines#BooleanExpression}. * * <p>This stage allows you to apply conditions to the data, similar to a "WHERE" clause in SQL. * You can filter documents based on their field values, using implementations of {@link * @firebase/firestore/pipelines#BooleanExpression}, typically including but not limited to: * * <ul> * <li>field comparators: {@link @firebase/firestore/pipelines#Expression.(eq:1)}, {@link @firebase/firestore/pipelines#Expression.(lt:1)} (less than), {@link * @firebase/firestore/pipelines#Expression.(greaterThan:1)}, etc.</li> * <li>logical operators: {@link @firebase/firestore/pipelines#Expression.(and:1)}, {@link @firebase/firestore/pipelines#Expression.(or:1)}, {@link @firebase/firestore/pipelines#Expression.(not:1)}, etc.</li> * <li>advanced functions: {@link @firebase/firestore/pipelines#Expression.(regexMatch:1)}, {@link * @firebase/firestore/pipelines#Expression.(arrayContains:1)}, etc.</li> * </ul> * * <p>Example: * * @example * ```typescript * firestore.pipeline().collection("books") * .where( * and( * gt(field("rating"), 4.0), // Filter for ratings greater than 4.0 * field("genre").eq("Science Fiction") // Equivalent to gt("genre", "Science Fiction") * ) * ); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ where(options: WhereStageOptions): Pipeline_2; /** * @beta * Skips the first `offset` number of documents from the results of previous stages. * * <p>This stage is useful for implementing pagination in your pipelines, allowing you to retrieve * results in chunks. It is typically used in conjunction with {@link @firebase/firestore/pipelines#Pipeline.limit} to control the * size of each page. * * <p>Example: * * @example * ```typescript * // Retrieve the second page of 20 results * firestore.pipeline().collection('books') * .sort(field('published').descending()) * .offset(20) // Skip the first 20 results * .limit(20); // Take the next 20 results * ``` * * @param offset - The number of documents to skip. * @returns A new Pipeline object with this stage appended to the stage list. */ offset(offset: number): Pipeline_2; /** * @beta * Skips the first `offset` number of documents from the results of previous stages. * * <p>This stage is useful for implementing pagination in your pipelines, allowing you to retrieve * results in chunks. It is typically used in conjunction with {@link @firebase/firestore/pipelines#Pipeline.limit} to control the * size of each page. * * <p>Example: * * @example * ```typescript * // Retrieve the second page of 20 results * firestore.pipeline().collection('books') * .sort(field('published').descending()) * .offset(20) // Skip the first 20 results * .limit(20); // Take the next 20 results * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ offset(options: OffsetStageOptions): Pipeline_2; /** * @beta * Limits the maximum number of documents returned by previous stages to `limit`. * * <p>This stage is particularly useful when you want to retrieve a controlled subset of data from * a potentially large result set. It's often used for: * * <ul> * <li>**Pagination:** In combination with {@link @firebase/firestore/pipelines#Pipeline.offset} to retrieve specific pages of * results.</li> * <li>**Limiting Data Retrieval:** To prevent excessive data transfer and improve performance, * especially when dealing with large collections.</li> * </ul> * * <p>Example: * * @example * ```typescript * // Limit the results to the top 10 highest-rated books * firestore.pipeline().collection('books') * .sort(field('rating').descending()) * .limit(10); * ``` * * @param limit - The maximum number of documents to return. * @returns A new Pipeline object with this stage appended to the stage list. */ limit(limit: number): Pipeline_2; /** * @beta * Limits the maximum number of documents returned by previous stages to `limit`. * * <p>This stage is particularly useful when you want to retrieve a controlled subset of data from * a potentially large result set. It's often used for: * * <ul> * <li>**Pagination:** In combination with {@link @firebase/firestore/pipelines#Pipeline.offset} to retrieve specific pages of * results.</li> * <li>**Limiting Data Retrieval:** To prevent excessive data transfer and improve performance, * especially when dealing with large collections.</li> * </ul> * * <p>Example: * * @example * ```typescript * // Limit the results to the top 10 highest-rated books * firestore.pipeline().collection('books') * .sort(field('rating').descending()) * .limit(10); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new Pipeline object with this stage appended to the stage list. */ limit(options: LimitStageOptions): Pipeline_2; /** * @beta * Returns a set of distinct values from the inputs to this stage. * * This stage runs through the results from previous stages to include only results with * unique combinations of {@link @firebase/firestore/pipelines#Expression} values ({@link @firebase/firestore/pipelines#Field}, {@link @firebase/firestore/pipelines#AliasedExpression}, etc). * * The parameters to this stage are defined using {@link @firebase/firestore/pipelines#Selectable} expressions or strings: * * - `string`: Name of an existing field * - {@link @firebase/firestore/pipelines#Field}: References an existing document field. * - {@link @firebase/firestore/pipelines#AliasedExpression}: Represents the result of a function with an assigned alias name * using {@link @firebase/firestore/pipelines#Expression.(as:1)}. * * Example: * * @example * ```typescript * // Get a list of unique author names in uppercase and genre combinations. * firestore.pipeline().collection("books") * .distinct(toUppercase(field("author")).as("authorName"), field("genre"), "publishedAt") * .select("authorName"); * ``` * * @param group - The {@link @firebase/firestore/pipelines#Selectable} expression or field name to consider when determining * distinct value combinations. * @param additionalGroups - Optional additional {@link @firebase/firestore/pipelines#Selectable} expressions to consider when determining distinct * value combinations or strings representing field names. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ distinct(group: string | Selectable, ...additionalGroups: Array<string | Selectable>): Pipeline_2; /** * @beta * Returns a set of distinct values from the inputs to this stage. * * This stage runs through the results from previous stages to include only results with * unique combinations of {@link @firebase/firestore/pipelines#Expression} values ({@link @firebase/firestore/pipelines#Field}, {@link @firebase/firestore/pipelines#AliasedExpression}, etc). * * The parameters to this stage are defined using {@link @firebase/firestore/pipelines#Selectable} expressions or strings: * * - `string`: Name of an existing field * - {@link @firebase/firestore/pipelines#Field}: References an existing document field. * - {@link @firebase/firestore/pipelines#AliasedExpression}: Represents the result of a function with an assigned alias name * using {@link @firebase/firestore/pipelines#Expression.(as:1)}. * * Example: * * @example * ```typescript * // Get a list of unique author names in uppercase and genre combinations. * firestore.pipeline().collection("books") * .distinct(toUppercase(field("author")).as("authorName"), field("genre"), "publishedAt") * .select("authorName"); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ distinct(options: DistinctStageOptions): Pipeline_2; /** * @beta * Performs aggregation operations on the documents from previous stages. * * <p>This stage allows you to calculate aggregate values over a set of documents. You define the * aggregations to perform using {@link @firebase/firestore/pipelines#AliasedAggregate} expressions which are typically results of * calling {@link @firebase/firestore/pipelines#Expression.(as:1)} on {@link @firebase/firestore/pipelines#AggregateFunction} instances. * * <p>Example: * * @example * ```typescript * // Calculate the average rating and the total number of books * firestore.pipeline().collection("books") * .aggregate( * field("rating").avg().as("averageRating"), * countAll().as("totalBooks") * ); * ``` * * @param accumulator - The first {@link @firebase/firestore/pipelines#AliasedAggregate}, wrapping an {@link @firebase/firestore/pipelines#AggregateFunction} * and providing a name for the accumulated results. * @param additionalAccumulators - Optional additional {@link @firebase/firestore/pipelines#AliasedAggregate}, each wrapping an {@link @firebase/firestore/pipelines#AggregateFunction} * and providing a name for the accumulated results. * @returns A new Pipeline object with this stage appended to the stage list. */ aggregate(accumulator: AliasedAggregate, ...additionalAccumulators: AliasedAggregate[]): Pipeline_2; /** * @beta * Performs optionally grouped aggregation operations on the documents from previous stages. * * <p>This stage allows you to calculate aggregate values over a set of documents, optionally * grouped by one or more fields or functions. You can specify: * * <ul> * <li>**Grouping Fields or Functions:** One or more fields or functions to group the documents * by. For each distinct combination of values in these fields, a separate group is created. * If no grouping fields are provided, a single group containing all documents is used. Not * specifying groups is the same as putting the entire inputs into one group.</li> * <li>**Accumulators:** One or more accumulation operations to perform within each group. These * are defined using {@link @firebase/firestore/pipelines#AliasedAggregate} expressions, which are typically created by * calling {@link @firebase/firestore/pipelines#Expression.(as:1)} on {@link @firebase/firestore/pipelines#AggregateFunction} instances. Each aggregation * calculates a value (e.g., sum, average, count) based on the documents within its group.</li> * </ul> * * <p>Example: * * @example * ```typescript * // Calculate the average rating for each genre. * firestore.pipeline().collection("books") * .aggregate({ * accumulators: [avg(field("rating")).as("avg_rating")] * groups: ["genre"] * }); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage * list. */ aggregate(options: AggregateStageOptions): Pipeline_2; /** * @beta * Performs a vector proximity search on the documents from the previous stage, returning the * K-nearest documents based on the specified query `vectorValue` and `distanceMeasure`. The * returned documents will be sorted in order from nearest to furthest from the query `vectorValue`. * * <p>Example: * * ```typescript * // Find the 10 most similar books based on the book description. * const bookDescription = "Lorem ipsum..."; * const queryVector: number[] = ...; // compute embedding of `bookDescription` * * firestore.pipeline().collection("books") * .findNearest({ * field: 'embedding', * vectorValue: queryVector, * distanceMeasure: 'euclidean', * limit: 10, // optional * distanceField: 'computedDistance' // optional * }); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ findNearest(options: FindNearestStageOptions): Pipeline_2; /** * @beta * Sorts the documents from previous stages based on one or more {@link @firebase/firestore/pipelines#Ordering} criteria. * * <p>This stage allows you to order the results of your pipeline. You can specify multiple {@link * @firebase/firestore/pipelines#Ordering} instances to sort by multiple fields in ascending or descending order. If documents * have the same value for a field used for sorting, the next specified ordering will be used. If * all orderings result in equal comparison, the documents are considered equal and the order is * unspecified. * * <p>Example: * * @example * ```typescript * // Sort books by rating in descending order, and then by title in ascending order for books * // with the same rating * firestore.pipeline().collection("books") * .sort( * Ordering.of(field("rating")).descending(), * Ordering.of(field("title")) // Ascending order is the default * ); * ``` * * @param ordering - The first {@link @firebase/firestore/pipelines#Ordering} instance specifying the sorting criteria. * @param additionalOrderings - Optional additional {@link @firebase/firestore/pipelines#Ordering} instances specifying the additional sorting criteria. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ sort(ordering: Ordering, ...additionalOrderings: Ordering[]): Pipeline_2; /** * @beta * Sorts the documents from previous stages based on one or more {@link @firebase/firestore/pipelines#Ordering} criteria. * * <p>This stage allows you to order the results of your pipeline. You can specify multiple {@link * @firebase/firestore/pipelines#Ordering} instances to sort by multiple fields in ascending or descending order. If documents * have the same value for a field used for sorting, the next specified ordering will be used. If * all orderings result in equal comparison, the documents are considered equal and the order is * unspecified. * * <p>Example: * * @example * ```typescript * // Sort books by rating in descending order, and then by title in ascending order for books * // with the same rating * firestore.pipeline().collection("books") * .sort( * Ordering.of(field("rating")).descending(), * Ordering.of(field("title")) // Ascending order is the default * ); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ sort(options: SortStageOptions): Pipeline_2; /** * @beta * Fully overwrites all fields in a document with those coming from a nested map. * * <p>This stage allows you to emit a map value as a document. Each key of the map becomes a field * on the document that contains the corresponding value. * * <p>Example: * * @example * ```typescript * // Input. * // { * // 'name': 'John Doe Jr.', * // 'parents': { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * // } * * // Emit parents as document. * firestore.pipeline().collection('people').replaceWith('parents'); * * // Output * // { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * ``` * * @param fieldName - The {@link @firebase/firestore/pipelines#Field} field containing the nested map. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ replaceWith(fieldName: string): Pipeline_2; /** * @beta * Fully overwrites all fields in a document with those coming from a map. * * <p>This stage allows you to emit a map value as a document. Each key of the map becomes a field * on the document that contains the corresponding value. * * <p>Example: * * @example * ```typescript * // Input. * // { * // 'name': 'John Doe Jr.', * // 'parents': { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * // } * * // Emit parents as document. * firestore.pipeline().collection('people').replaceWith(map({ * foo: 'bar', * info: { * name: field('name') * } * })); * * // Output * // { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * ``` * * @param expr - An {@link @firebase/firestore/pipelines#Expression} that when returned evaluates to a map. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ replaceWith(expr: Expression): Pipeline_2; /** * @beta * Fully overwrites all fields in a document with those coming from a map. * * <p>This stage allows you to emit a map value as a document. Each key of the map becomes a field * on the document that contains the corresponding value. * * <p>Example: * * @example * ```typescript * // Input. * // { * // 'name': 'John Doe Jr.', * // 'parents': { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * // } * * // Emit parents as document. * firestore.pipeline().collection('people').replaceWith(map({ * foo: 'bar', * info: { * name: field('name') * } * })); * * // Output * // { * // 'father': 'John Doe Sr.', * // 'mother': 'Jane Doe' * // } * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ replaceWith(options: ReplaceWithStageOptions): Pipeline_2; /** * @beta * Performs a pseudo-random sampling of the documents from the previous stage. * * <p>This stage will filter documents pseudo-randomly. The parameter specifies how number of * documents to be returned. * * <p>Examples: * * @example * ```typescript * // Sample 25 books, if available. * firestore.pipeline().collection('books') * .sample(25); * ``` * * @param documents - The number of documents to sample. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ sample(documents: number): Pipeline_2; /** * @beta * Performs a pseudo-random sampling of the documents from the previous stage. * * <p>This stage will filter documents pseudo-randomly. The 'options' parameter specifies how * sampling will be performed. See {@link @firebase/firestore/pipelines#SampleStageOptions} for more information. * * @example * ```typescript * // Sample 10 books, if available. * firestore.pipeline().collection("books") * .sample({ documents: 10 }); * * // Sample 50% of books. * firestore.pipeline().collection("books") * .sample({ percentage: 0.5 }); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ sample(options: SampleStageOptions): Pipeline_2; /** * @beta * Performs union of all documents from two pipelines, including duplicates. * * <p>This stage will pass through documents from previous stage, and also pass through documents * from previous stage of the `other` {@link @firebase/firestore/pipelines#Pipeline} given in parameter. The order of documents * emitted from this stage is undefined. * * <p>Example: * * @example * ```typescript * // Emit documents from books collection and magazines collection. * firestore.pipeline().collection('books') * .union(firestore.pipeline().collection('magazines')); * ``` * * @param other - The other {@link @firebase/firestore/pipelines#Pipeline} that is part of union. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ union(other: Pipeline_2): Pipeline_2; /** * @beta * Performs union of all documents from two pipelines, including duplicates. * * <p>This stage will pass through documents from previous stage, and also pass through documents * from previous stage of the `other` {@link @firebase/firestore/pipelines#Pipeline} given in parameter. The order of documents * emitted from this stage is undefined. * * <p>Example: * * @example * ```typescript * // Emit documents from books collection and magazines collection. * firestore.pipeline().collection('books') * .union(firestore.pipeline().collection('magazines')); * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ union(options: UnionStageOptions): Pipeline_2; /** * @beta * Produces a document for each element in an input array. * * For each previous stage document, this stage will emit zero or more augmented documents. The * input array specified by the `selectable` parameter, will emit an augmented document for each input array element. The input array element will * augment the previous stage document by setting the `alias` field with the array element value. * * When `selectable` evaluates to a non-array value (ex: number, null, absent), then the stage becomes a no-op for * the current input document, returning it as is with the `alias` field absent. * * No documents are emitted when `selectable` evaluates to an empty array. * * Example: * * @example * ```typescript * // Input: * // { "title": "The Hitchhiker's Guide to the Galaxy", "tags": [ "comedy", "space", "adventure" ], ... } * * // Emit a book document for each tag of the book. * firestore.pipeline().collection("books") * .unnest(field("tags").as('tag'), 'tagIndex'); * * // Output: * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "comedy", "tagIndex": 0, ... } * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "space", "tagIndex": 1, ... } * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "adventure", "tagIndex": 2, ... } * ``` * * @param selectable - A selectable expression defining the field to unnest and the alias to use for each un-nested element in the output documents. * @param indexField - An optional string value specifying the field path to write the offset (starting at zero) into the array the un-nested element is from * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ unnest(selectable: Selectable, indexField?: string): Pipeline_2; /** * @beta * Produces a document for each element in an input array. * * For each previous stage document, this stage will emit zero or more augmented documents. The * input array specified by the `selectable` parameter, will emit an augmented document for each input array element. The input array element will * augment the previous stage document by setting the `alias` field with the array element value. * * When `selectable` evaluates to a non-array value (ex: number, null, absent), then the stage becomes a no-op for * the current input document, returning it as is with the `alias` field absent. * * No documents are emitted when `selectable` evaluates to an empty array. * * Example: * * @example * ```typescript * // Input: * // { "title": "The Hitchhiker's Guide to the Galaxy", "tags": [ "comedy", "space", "adventure" ], ... } * * // Emit a book document for each tag of the book. * firestore.pipeline().collection("books") * .unnest(field("tags").as('tag'), 'tagIndex'); * * // Output: * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "comedy", "tagIndex": 0, ... } * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "space", "tagIndex": 1, ... } * // { "title": "The Hitchhiker's Guide to the Galaxy", "tag": "adventure", "tagIndex": 2, ... } * ``` * * @param options - An object that specifies required and optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ unnest(options: UnnestStageOptions): Pipeline_2; /** * @beta * Adds a raw stage to the pipeline. * * <p>This method provides a flexible way to extend the pipeline's functionality by adding custom * stages. Each raw stage is defined by a unique `name` and a set of `params` that control its * behavior. * * <p>Example (Assuming there is no 'where' stage available in SDK): * * @example * ```typescript * // Assume we don't have a built-in 'where' stage * firestore.pipeline().collection('books') * .rawStage('where', [field('published').lt(1900)]) // Custom 'where' stage * .select('title', 'author'); * ``` * * @param name - The unique name of the raw stage to add. * @param params - A list of parameters to configure the raw stage's behavior. * @param options - An object of key value pairs that specifies optional parameters for the stage. * @returns A new {@link @firebase/firestore/pipelines#Pipeline} object with this stage appended to the stage list. */ rawStage(name: string, params: unknown[], options?: { [key: string]: Expression | unknown; }): Pipeline_2; /* Excluded from this release type: _toProto */ private _addStage; /* Excluded from this release type: newPipeline */ } declare type Pipeline_3 = firestoreV1ApiClientInterfaces.Pipeline; /** * @beta * Options defining Pipeline execution. */ export declare interface PipelineExecuteOptions { /** * @beta * Pipeline to be evaluated. */ pipeline: Pipeline_2; /** * @beta * Specify the index mode. */ indexMode?: 'recommended'; /** * @beta * An escape hatch to set options not known at SDK build time. These values * will be passed directly to the Firestore backend and not used by the SDK. * * The option name will be used as provided. And must match the name * format used by the backend (hint: use a snake_case_name). * * Custom option values can be any type supported * by Firestore (for example: string, boolean, number, map, …). Value types * not known to the SDK will be rejected. * * Values specified in rawOptions will take precedence over any options * with the same name set by the SDK. * * @example * Override the `example_option`: * ``` * execute({ * pipeline: myPipeline, * rawOptions: { * // Override `example_option`. This will not * // merge with the existing `example_option` object. * "example_option": { * foo: "bar" * } * } * } * ``` * * `rawOptions` supports dot notation, if you want to override * a nested option. * ``` * execute({ * pipeline: myPipeline, * rawOptions: { * // Override `example_option.foo` and do not override * // any other properties of `example_option`. * "example_option.foo": "bar" * } * } * ``` */ rawOptions?: { [name: string]: unknown; }; } /** * @beta * * A PipelineResult contains data read from a Firestore Pipeline. The data can be extracted with the * {@link @firebase/firestore/pipelines#PipelineResult.data} or {@link @firebase/firestore/pipelines#PipelineResult.(get:1)} methods. * * <p>If the PipelineResult represents a non-document result, `ref` will return a undefined * value. */ export declare class PipelineResult<AppModelType = DocumentData> { private readonly _userDataWriter; private readonly _createTime; private readonly _updateTime; /* Excluded from this release type: _ref */ /* Excluded from this release type: _fields */ /* Excluded from this release type: __constructor */ /** * @beta * The reference of the document, if it is a document; otherwise `undefined`. */ get ref(): DocumentReference | undefined; /** * @beta * The ID of the document for which this PipelineResult contains data, if it is a document; otherwise `undefined`. * * @readonly * */ get id(): string | undefined; /** * @beta * The time the document was created. Undefined if this result is not a document. * * @readonly */ get createTime(): Timestamp | undefined; /** * @beta * The time the document was last updated (at the time the snapshot was * generated). Undefined if this result is not a document. * * @readonly */ get updateTime(): Timestamp | undefined; /** * @beta * Retrieves all fields in the result as an object. * * @returns An object containing all fields in the document or * 'undefined' if the document doesn't exist. * * @example * ``` * let p = firestore.pipeline().collection('col'); * * p.execute().then(results => { * let data = results[0].data(); * console.log(`Retrieved data: ${JSON.stringify(data)}`); * }); * ``` */ data(): AppModelType; /* Excluded from this release type: _fieldsProto */ /** * @beta * Retrieves the field specified by `field`. * * @param field - The field path * (e.g. 'foo' or 'foo.bar') to a specific field. * @returns The data at the specified field location or `undefined` if no * such field exists. * * @example * ``` * let p = firestore.pipeline().collection('col'); * * p.execute().then(results => { * let field = results[0].get('a.b'); * console.log(`Retrieved field value: ${field}`); * }); * ``` */ get(fieldPath: string | FieldPath | Field): any; } /** * @beta * Test equality of two PipelineResults. * @param left - First PipelineResult to compare. * @param right - Second PipelineResult to compare. */ export declare function pipelineResultEqual(left: PipelineResult, right: PipelineResult): boolean; /** * @beta * Represents the results of a Firestore pipeline execution. * * A `PipelineSnapshot` contains zero or more {@link @firebase/firestore/pipelines#PipelineResult} objects * representing the documents returned by a pipeline query. It provides methods * to iterate over the documents and access metadata about the query results. * * @example * ```typescript * const snapshot: PipelineSnapshot = await firestore * .pipeline() * .collection('myCollection') * .where(field('value').greaterThan(10)) * .execute(); * * snapshot.results.forEach(doc => { * console.log(doc.id, '=>', doc.data()); * }); * ``` */ export declare class PipelineSnapshot { private readonly _pipeline; private readonly _executionTime; private readonly _results; constructor(pipeline: Pipeline_2, results: PipelineResult[], executionTime?: Timestamp); /** * @beta An array of all the results in the `PipelineSnapshot`. */ get results(): PipelineResult[]; /** * @beta * The time at which the pipeline producing this result is executed. * * @readonly * */ get executionTime(): Timestamp; } /** * @beta * Provides the entry point for defining the data source of a Firestore {@link @firebase/firestore/pipelines#Pipeline}. * * Use the methods of this class (e.g., {@link @firebase/firestore/pipelines#PipelineSource.(collection:1)}, {@link @firebase/firestore/pipelines#PipelineSource.(collectionGroup:1)}, * {@link @firebase/firestore/pipelines#PipelineSource.(database:1)}, or {@link @firebase/firestore/pipelines#PipelineSource.(documents:1)}) to specify the initial data * for your pipeline, such as a collection, a collection group, the entire database, or a set of specific documents. */ export declare class PipelineSource<PipelineType> { private databaseId; private userDataReader; /* Excluded from this release type: _createPipeline */ /* Excluded from this release type: __constructor */ /** * @beta * Returns all documents from the entire collection. The collection can be nested. * @param collection - Name or reference to the collection that will be used as the Pipeline source. */ collection(collection: string | CollectionReference): PipelineType; /** * @beta * Returns all documents from the entire collection. The collection can be nested. * @param options - Options defining how this CollectionStage is evaluated. */ collection(options: CollectionStageOptions): PipelineType; /** * @beta * Returns all documents from a collection ID regardless of the parent. * @param collectionId - ID of the collection group to use as the Pipeline source. */ collectionGroup(collectionId: string): PipelineType; /** * @beta * Returns all documents from a collection ID regardless of the parent. * @param options - Options defining how this CollectionGroupStage is evaluated. */ collectionGroup(options: CollectionGroupStageOptions): PipelineType; /** * @beta * Returns all documents from the entire database. */ database(): PipelineType; /** * @beta * Returns all documents from the entire database. * @param options - Options defining how a DatabaseStage is evaluated. */ database(options: DatabaseStageOptions): PipelineType; /** * @beta * Set the pipeline's source to the documents specified by the given paths and DocumentReferences. * * @param docs - An array of paths and DocumentReferences specifying the individual documents that will be the source of this pipeline. * The converters for these DocumentReferences will be ignored and not have an effect on this pipeline. * * @throws `FirestoreError` Thrown if any of the provided DocumentReferences target a different project or database than the pipeline. */ documents(docs: Array<string | DocumentReference>): PipelineType; /** * @beta * Set the pipeline's source to the documents specified by the given paths and DocumentReferences. * * @param options - Options defining how this DocumentsStage is evaluated. * * @throws `FirestoreError` Thrown if any of the provided DocumentReferences target a different project or database than the pipeline. */ documents(options: DocumentsStageOptions): PipelineType; /** * @beta * Convert the given Query into an equivalent Pipeline. * * @param query - A Query to be converted into a Pipeline. * * @throws `FirestoreError` Thrown if any of the provided DocumentReferences target a different project or database than the pipeline. */ createFrom(query: Query): Pipeline_2; _validateReference(reference: CollectionReference | DocumentReference): void; } /** * @beta * Creates an expression that returns the value of the base expression raised to the power of the exponent expression. * * @example * ```typescript * // Raise the value of the 'base' field to the power of the 'exponent' field. * pow(field("base"), field("exponent")); * ``` * * @param base - The expression to raise to the power of the exponent. * @param exponent - The expression to raise the base to the power of. * @returns A new `Expression` representing the power operation. */ export declare function pow(base: Expression, exponent: Expression): FunctionExpression; /** * @beta * Creates an expression that returns the value of the base expression raised to the power of the exponent. * * @example * ```typescript * // Raise the value of the 'base' field to the power of 2. * pow(field("base"), 2); * ``` * * @param base - The expression to raise to the power of the exponent. * @param exponent - The constant value to raise the base to the power of. * @returns A new `Expression` representing the power operation. */ export declare function pow(base: Expression, exponent: number): FunctionExpression; /** * @beta * Creates an expression that returns the value of the base field raised to the power of the exponent expression. * * @example * ```typescript * // Raise the value of the 'base' field to the power of the 'exponent' field. * pow("base", field("exponent")); * ``` * * @param base - The name of the field to raise to the power of the exponent. * @param exponent - The expression to raise the base to the power of. * @returns A new `Expression` representing the power operation. */ export declare function pow(base: string, exponent: Expression): FunctionExpression; /** * @beta * Creates an expression that returns the value of the base field raised to the power of the exponent. * * @example * ```typescript * // Raise the value of the 'base' field to the power of 2. * pow("base", 2); * ``` * * @param base - The name of the field to raise to the power of the exponent. * @param exponent - The constant value to raise the base to the power of. * @returns A new `Expression` representing the power operation. */ export declare function pow(base: string, exponent: number): FunctionExpression; /** * 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; /* Excluded from this release type: PrivateSettings */ /* Excluded from this release type: Property */ declare interface ProtoSerializable<ProtoType> { _toProto(serializer: JsonProtoSerializer): ProtoType; } declare interface ProtoValueSerializable extends ProtoSerializable<Value> { _protoValueType: 'ProtoValue'; } declare interface ProviderCredentialsSettings { ['type']: 'provider'; ['client']: CredentialsProvider<User>; } /** * 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<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> { /** * If provided, the `FirestoreDataConverter` associated with this instance. */ readonly converter: FirestoreDataConverter_2<AppModelType, DbModelType> | 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_2; /** @hideconstructor protected */ constructor(firestore: Firestore_2, /** * If provided, the `FirestoreDataConverter` associated with this instance. */ converter: FirestoreDataConverter_2<AppModelType, DbModelType> | null, _query: Query_2); /** * Removes the current converter. * * @param converter - `null` removes the current converter. * @returns A `Query<DocumentData, DocumentData>` that does not use a * converter. */ withConverter(converter: null): Query<DocumentData, DocumentData>; /** * 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 of type `NewDbModelType` and your custom type `NewAppModelType`. * * @param converter - Converts objects to and from Firestore. * @returns A `Query` that uses the provided converter. */ withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter_2<NewAppModelType, NewDbModelType>): Query<NewAppModelType, NewDbModelType>; } /** * The Query interface defines all external properties of a query. * * QueryImpl implements this interface to provide memoization for `queryNormalizedOrderBy` * 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; } /** * @license * Copyright 2023 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 tracker to keep a record of important details during database local query * execution. */ declare class QueryContext { /** * Counts the number of documents passed through during local query execution. */ private _documentReadCount; get documentReadCount(): number; incrementDocumentReadCount(amount: number): void; } /** * 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(<field>)` 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<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends DocumentSnapshot_2<AppModelType, DbModelType> { /** * Retrieves all fields in the document as an `Object`. * * By default, `serverTimestamp()` values that have not yet been * set to their final value will be returned as `null`. You can override * this by passing an options object. * * @override * @param options - An options object to configure how data is retrieved from * the snapshot (for example the desired behavior for server timestamps that * have not yet been set to their final value). * @returns An `Object` containing all fields in the document. */ data(options?: SnapshotOptions): AppModelType; } /** * 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(<field>)` 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'. */ declare class QueryDocumentSnapshot_2<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends DocumentSnapshot<AppModelType, DbModelType> { /** * Retrieves all fields in the document as an `Object`. * * @override * @returns An `Object` containing all fields in the document. */ data(): AppModelType; } /** The different states of a watch target. */ declare type QueryTargetState = 'not-current' | 'current' | 'rejected'; /** * @beta * * Creates an expression that generates a random number between 0.0 and 1.0 but not including 1.0. * * @example * ```typescript * // Generate a random number between 0.0 and 1.0. * rand(); * ``` * * @returns A new `Expression` representing the rand operation. */ export declare function rand(): FunctionExpression; /** * A ReferenceDelegate instance handles all of the hooks into the document-reference lifecycle. This * includes being added to a target, being removed from a target, being subject to mutation, and * being mutated by the user. * * Different implementations may do different things with each of these events. Not every * implementation needs to do something with every lifecycle hook. * * PORTING NOTE: since sequence numbers are attached to transactions in this * client, the ReferenceDelegate does not need to deal in transactional * semantics (onTransactionStarted/Committed()), nor does it need to track and * generate sequence numbers (getCurrentSequenceNumber()). */ declare interface ReferenceDelegate { /** Notify the delegate that the given document was added to a target. */ addReference(txn: PersistenceTransaction, targetId: TargetId, doc: DocumentKey): PersistencePromise<void>; /** Notify the delegate that the given document was removed from a target. */ removeReference(txn: PersistenceTransaction, targetId: TargetId, doc: DocumentKey): PersistencePromise<void>; /** * Notify the delegate that a target was removed. The delegate may, but is not obligated to, * actually delete the target and associated data. */ removeTarget(txn: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>; /** * Notify the delegate that a document may no longer be part of any views or * have any mutations associated. */ markPotentiallyOrphaned(txn: PersistenceTransaction, doc: DocumentKey): PersistencePromise<void>; /** Notify the delegate that a limbo document was updated. */ updateLimboDocument(txn: PersistenceTransaction, doc: DocumentKey): PersistencePromise<void>; } /** * @beta * * Creates an expression that checks if a string field contains a specified regular expression as * a substring. * * @example * ```typescript * // Check if the 'description' field contains "example" (case-insensitive) * regexContains("description", "(?i)example"); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The regular expression to use for the search. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function regexContains(fieldName: string, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string field contains a specified regular expression as * a substring. * * @example * ```typescript * // Check if the 'description' field contains "example" (case-insensitive) * regexContains("description", field("pattern")); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The regular expression to use for the search. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function regexContains(fieldName: string, pattern: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression contains a specified regular * expression as a substring. * * @example * ```typescript * // Check if the 'description' field contains "example" (case-insensitive) * regexContains(field("description"), "(?i)example"); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param pattern - The regular expression to use for the search. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function regexContains(stringExpression: Expression, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression contains a specified regular * expression as a substring. * * @example * ```typescript * // Check if the 'description' field contains "example" (case-insensitive) * regexContains(field("description"), field("pattern")); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param pattern - The regular expression to use for the search. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function regexContains(stringExpression: Expression, pattern: Expression): BooleanExpression; /** * @beta * * Creates an expression that returns the first substring of a string field that matches a * specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract the domain name from an email field * regexFind("email", "@[A-Za-z0-9.-]+"); * ``` * * @param fieldName - The name of the field containing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ export declare function regexFind(fieldName: string, pattern: string): FunctionExpression; /** * @beta * * Creates an expression that returns the first substring of a string field that matches a * specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract a substring from 'email' based on a pattern stored in another field * regexFind("email", field("pattern")); * ``` * * @param fieldName - The name of the field containing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ export declare function regexFind(fieldName: string, pattern: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns the first substring of a string expression that matches * a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract the domain from a lower-cased email address * regexFind(field("email"), "@[A-Za-z0-9.-]+"); * ``` * * @param stringExpression - The expression representing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ export declare function regexFind(stringExpression: Expression, pattern: string): FunctionExpression; /** * @beta * * Creates an expression that returns the first substring of a string expression that matches * a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract a substring based on a dynamic pattern field * regexFind(field("email"), field("pattern")); * ``` * * @param stringExpression - The expression representing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression find function. */ export declare function regexFind(stringExpression: Expression, pattern: Expression): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in a string field that * match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all hashtags from a post content field * regexFindAll("content", "#[A-Za-z0-9_]+"); * ``` * * @param fieldName - The name of the field containing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#FunctionExpression} that evaluates to an array of matched substrings. */ export declare function regexFindAll(fieldName: string, pattern: string): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in a string field that * match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all matches from 'content' based on a pattern stored in another field * regexFindAll("content", field("pattern")); * ``` * * @param fieldName - The name of the field containing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#FunctionExpression} that evaluates to an array of matched substrings. */ export declare function regexFindAll(fieldName: string, pattern: Expression): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in a string expression * that match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all mentions from a lower-cased comment * regexFindAll(field("comment"), "@[A-Za-z0-9_]+"); * ``` * * @param stringExpression - The expression representing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#FunctionExpression} that evaluates to an array of matched substrings. */ export declare function regexFindAll(stringExpression: Expression, pattern: string): FunctionExpression; /** * @beta * * Creates an expression that evaluates to a list of all substrings in a string expression * that match a specified regular expression. * * This expression uses the {@link https://github.com/google/re2/wiki/Syntax | RE2} regular expression syntax. * * @example * ```typescript * // Extract all matches based on a dynamic pattern expression * regexFindAll(field("comment"), field("pattern")); * ``` * * @param stringExpression - The expression representing the string to search. * @param pattern - The regular expression to search for. * @returns A new {@link @firebase/firestore/pipelines#FunctionExpression} that evaluates to an array of matched substrings. */ export declare function regexFindAll(stringExpression: Expression, pattern: Expression): FunctionExpression; /** * @beta * * Creates an expression that checks if a string field matches a specified regular expression. * * @example * ```typescript * // Check if the 'email' field matches a valid email pattern * regexMatch("email", "[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\\.[A-Za-z]{2,}"); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The regular expression to use for the match. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression match. */ export declare function regexMatch(fieldName: string, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string field matches a specified regular expression. * * @example * ```typescript * // Check if the 'email' field matches a valid email pattern * regexMatch("email", field("pattern")); * ``` * * @param fieldName - The name of the field containing the string. * @param pattern - The regular expression to use for the match. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression match. */ export declare function regexMatch(fieldName: string, pattern: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression matches a specified regular * expression. * * @example * ```typescript * // Check if the 'email' field matches a valid email pattern * regexMatch(field("email"), "[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\\.[A-Za-z]{2,}"); * ``` * * @param stringExpression - The expression representing the string to match against. * @param pattern - The regular expression to use for the match. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression match. */ export declare function regexMatch(stringExpression: Expression, pattern: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression matches a specified regular * expression. * * @example * ```typescript * // Check if the 'email' field matches a valid email pattern * regexMatch(field("email"), field("pattern")); * ``` * * @param stringExpression - The expression representing the string to match against. * @param pattern - The regular expression to use for the match. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the regular expression match. */ export declare function regexMatch(stringExpression: Expression, pattern: Expression): BooleanExpression; declare type RejectedHandler<R> = ((reason: Error) => R | PersistencePromise<R>) | null; declare type Rejector = (error: Error) => void; /** * Represents cached documents received from the remote backend. * * The cache is keyed by DocumentKey and entries in the cache are * MutableDocuments, meaning we can cache both actual documents as well as * documents that are known to not exist. */ declare interface RemoteDocumentCache { /** Sets the index manager to use for managing the collectionGroup index. */ setIndexManager(indexManager: IndexManager): void; /** * Looks up an entry in the cache. * * @param documentKey - The key of the entry to look up.* * @returns The cached document entry. Returns an invalid document if the * document is not cached. */ getEntry(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>; /** * Looks up a set of entries in the cache. * * @param documentKeys - The keys of the entries to look up. * @returns The cached document entries indexed by key. If an entry is not * cached, the corresponding key will be mapped to an invalid document. */ getEntries(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>; /** * Returns the documents matching the given query * * @param query - The query to match documents against. * @param offset - The offset to start the scan at (exclusive). * @param context - A optional tracker to keep a record of important details * during database local query execution. * @returns The set of matching documents. */ getDocumentsMatchingQuery(transaction: PersistenceTransaction, query: Query_2, offset: IndexOffset, mutatedDocs: OverlayMap, context?: QueryContext): PersistencePromise<MutableDocumentMap>; /** * Looks up the next `limit` documents for a collection group based on the * provided offset. The ordering is based on the document's read time and key. * * @param collectionGroup - The collection group to scan. * @param offset - The offset to start the scan at (exclusive). * @param limit - The maximum number of results to return. * @returns The set of matching documents. */ getAllFromCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset, limit: number): PersistencePromise<MutableDocumentMap>; /** * Provides access to add or update the contents of the cache. The buffer * handles proper size accounting for the change. * * Multi-Tab Note: This should only be called by the primary client. * * @param options - Specify `trackRemovals` to create sentinel entries for * removed documents, which allows removals to be tracked by * `getNewDocumentChanges()`. */ newChangeBuffer(options?: { trackRemovals: boolean; }): RemoteDocumentChangeBuffer; /** * Get an estimate of the size of the document cache. Note that for eager * garbage collection, we don't track sizes so this will return 0. */ getSize(transaction: PersistenceTransaction): PersistencePromise<number>; } /** * An in-memory buffer of entries to be written to a RemoteDocumentCache. * It can be used to batch up a set of changes to be written to the cache, but * additionally supports reading entries back with the `getEntry()` method, * falling back to the underlying RemoteDocumentCache if no entry is * buffered. * * Entries added to the cache *must* be read first. This is to facilitate * calculating the size delta of the pending changes. * * PORTING NOTE: This class was implemented then removed from other platforms. * If byte-counting ends up being needed on the other platforms, consider * porting this class as part of that implementation work. */ declare abstract class RemoteDocumentChangeBuffer { protected changes: ObjectMap<DocumentKey, MutableDocument>; private changesApplied; protected abstract getFromCache(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>; protected abstract getAllFromCache(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>; protected abstract applyChanges(transaction: PersistenceTransaction): PersistencePromise<void>; /** * Buffers a `RemoteDocumentCache.addEntry()` call. * * You can only modify documents that have already been retrieved via * `getEntry()/getEntries()` (enforced via IndexedDbs `apply()`). */ addEntry(document: MutableDocument): void; /** * Buffers a `RemoteDocumentCache.removeEntry()` call. * * You can only remove documents that have already been retrieved via * `getEntry()/getEntries()` (enforced via IndexedDbs `apply()`). */ removeEntry(key: DocumentKey, readTime: SnapshotVersion): void; /** * Looks up an entry in the cache. The buffered changes will first be checked, * and if no buffered change applies, this will forward to * `RemoteDocumentCache.getEntry()`. * * @param transaction - The transaction in which to perform any persistence * operations. * @param documentKey - The key of the entry to look up. * @returns The cached document or an invalid document if we have nothing * cached. */ getEntry(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>; /** * Looks up several entries in the cache, forwarding to * `RemoteDocumentCache.getEntry()`. * * @param transaction - The transaction in which to perform any persistence * operations. * @param documentKeys - The keys of the entries to look up. * @returns A map of cached documents, indexed by key. If an entry cannot be * found, the corresponding key will be mapped to an invalid document. */ getEntries(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>; /** * Applies buffered changes to the underlying RemoteDocumentCache, using * the provided transaction. */ apply(transaction: PersistenceTransaction): PersistencePromise<void>; /** Helper to assert this.changes is not null */ protected assertNotApplied(): void; } /** * An event from the RemoteStore. It is split into targetChanges (changes to the * state or the set of documents in our watched targets) and documentUpdates * (changes to the actual documents). */ declare class RemoteEvent { /** * The snapshot version this event brings us up to, or MIN if not set. */ readonly snapshotVersion: SnapshotVersion; /** * A map from target to changes to the target. See TargetChange. */ readonly targetChanges: Map<TargetId, TargetChange>; /** * A map of targets that is known to be inconsistent, and the purpose for * re-listening. Listens for these targets should be re-established without * resume tokens. */ readonly targetMismatches: SortedMap<TargetId, TargetPurpose>; /** * A set of which documents have changed or been deleted, along with the * doc's new values (if not deleted). */ readonly documentUpdates: MutableDocumentMap; /** * A set of which document updates are due only to limbo resolution targets. */ readonly resolvedLimboDocuments: DocumentKeySet; constructor( /** * The snapshot version this event brings us up to, or MIN if not set. */ snapshotVersion: SnapshotVersion, /** * A map from target to changes to the target. See TargetChange. */ targetChanges: Map<TargetId, TargetChange>, /** * A map of targets that is known to be inconsistent, and the purpose for * re-listening. Listens for these targets should be re-established without * resume tokens. */ targetMismatches: SortedMap<TargetId, TargetPurpose>, /** * A set of which documents have changed or been deleted, along with the * doc's new values (if not deleted). */ documentUpdates: MutableDocumentMap, /** * A set of which document updates are due only to limbo resolution targets. */ resolvedLimboDocuments: DocumentKeySet); /** * HACK: Views require RemoteEvents in order to determine whether the view is * CURRENT, but secondary tabs don't receive remote events. So this method is * used to create a synthesized RemoteEvent that can be used to apply a * CURRENT status change to a View, for queries executed in a different tab. */ static createSynthesizedRemoteEventForCurrentChange(targetId: TargetId, current: boolean, resumeToken: ByteString): RemoteEvent; } /** * RemoteStore - An interface to remotely stored data, basically providing a * wrapper around the Datastore that is more reliable for the rest of the * system. * * RemoteStore is responsible for maintaining the connection to the server. * - maintaining a list of active listens. * - reconnecting when the connection is dropped. * - resuming all the active listens on reconnect. * * RemoteStore handles all incoming events from the Datastore. * - listening to the watch stream and repackaging the events as RemoteEvents * - notifying SyncEngine of any changes to the active listens. * * RemoteStore takes writes from other components and handles them reliably. * - pulling pending mutations from LocalStore and sending them to Datastore. * - retrying mutations that failed because of network problems. * - acking mutations to the SyncEngine once they are accepted or rejected. */ declare interface RemoteStore { /** * SyncEngine to notify of watch and write events. This must be set * immediately after construction. */ remoteSyncer: RemoteSyncer; } /** * An interface that describes the actions the RemoteStore needs to perform on * a cooperating synchronization engine. */ declare interface RemoteSyncer { /** * Applies one remote event to the sync engine, notifying any views of the * changes, and releasing any pending mutation batches that would become * visible because of the snapshot version the remote event contains. */ applyRemoteEvent?(remoteEvent: RemoteEvent): Promise<void>; /** * Rejects the listen for the given targetID. This can be triggered by the * backend for any active target. * * @param targetId - The targetID corresponds to one previously initiated by * the user as part of TargetData passed to listen() on RemoteStore. * @param error - A description of the condition that has forced the rejection. * Nearly always this will be an indication that the user is no longer * authorized to see the data matching the target. */ rejectListen?(targetId: TargetId, error: FirestoreError): Promise<void>; /** * Applies the result of a successful write of a mutation batch to the sync * engine, emitting snapshots in any views that the mutation applies to, and * removing the batch from the mutation queue. */ applySuccessfulWrite?(result: MutationBatchResult): Promise<void>; /** * Rejects the batch, removing the batch from the mutation queue, recomputing * the local view of any documents affected by the batch and then, emitting * snapshots with the reverted value. */ rejectFailedWrite?(batchId: BatchId, error: FirestoreError): Promise<void>; /** * Returns the set of remote document keys for the given target ID. This list * includes the documents that were assigned to the target when we received * the last snapshot. */ getRemoteKeysForTarget?(targetId: TargetId): DocumentKeySet; /** * Updates all local state to match the pending mutations for the given user. * May be called repeatedly for the same user. */ handleCredentialChange?(user: User): Promise<void>; } /** * @beta * Options defining how a RemoveFieldsStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(removeFields:1)}. */ export declare type RemoveFieldsStageOptions = StageOptions & { /** * @beta * The fields to remove from each document. */ fields: Array<Field | string>; }; /** * @beta * Options defining how a ReplaceWithStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(replaceWith:1)}. */ export declare type ReplaceWithStageOptions = StageOptions & { /** * @beta * The name of a field that contains a map or an {@link @firebase/firestore/pipelines#Expression} that * evaluates to a map. */ map: Expression | string; }; declare type Resolver<T> = (value?: T) => void; /* Excluded from this release type: ResourcePath */ /** * @beta * * Creates an expression that reverses a string. * * @example * ```typescript * // Reverse the value of the 'myString' field. * reverse(field("myString")); * ``` * * @param stringExpression - An expression evaluating to a string value, which will be reversed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ export declare function reverse(stringExpression: Expression): FunctionExpression; /** * @beta * * Creates an expression that reverses a string value in the specified field. * * @example * ```typescript * // Reverse the value of the 'myString' field. * reverse("myString"); * ``` * * @param field - The name of the field representing the string to reverse. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ export declare function reverse(field: string): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the nearest whole number. * * @example * ```typescript * // Round the value of the 'price' field. * round("price"); * ``` * * @param fieldName - The name of the field to round. * @returns A new `Expression` representing the rounded value. */ export declare function round(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the nearest whole number. * * @example * ```typescript * // Round the value of the 'price' field. * round(field("price")); * ``` * * @param expression - An expression evaluating to a numeric value, which will be rounded. * @returns A new `Expression` representing the rounded value. */ export declare function round(expression: Expression): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the specified number of decimal places. * * @example * ```typescript * // Round the value of the 'price' field to two decimal places. * round("price", 2); * ``` * * @param fieldName - The name of the field to round. * @param decimalPlaces - A constant or expression specifying the rounding precision in decimal places. * @returns A new `Expression` representing the rounded value. */ export declare function round(fieldName: string, decimalPlaces: number | Expression): FunctionExpression; /** * @beta * Creates an expression that rounds a numeric value to the specified number of decimal places. * * @example * ```typescript * // Round the value of the 'price' field to two decimal places. * round(field("price"), constant(2)); * ``` * * @param expression - An expression evaluating to a numeric value, which will be rounded. * @param decimalPlaces - A constant or expression specifying the rounding precision in decimal places. * @returns A new `Expression` representing the rounded value. */ export declare function round(expression: Expression, decimalPlaces: number | Expression): FunctionExpression; /** * @beta * Trims whitespace or a specified set of characters/bytes from the end of a string or byte array. * * @example * ```typescript * // Trim whitespace from the end of the 'userInput' field * rtrim(field("userInput")); * * // Trim quotes from the end of the 'userInput' field * rtrim(field("userInput"), '"'); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string or byte array. */ export declare function rtrim(fieldName: string, valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Trims whitespace or a specified set of characters/bytes from the end of a string or byte array. * * @example * ```typescript * // Trim whitespace from the end of the 'userInput' field * rtrim(field("userInput")); * * // Trim quotes from the end of the 'userInput' field * rtrim(field("userInput"), '"'); * ``` * * @param expression - The expression representing the string or byte array. * @param valueToTrim - Optional. A string or byte array containing the characters/bytes to trim. * If not specified, whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string or byte array. */ export declare function rtrim(expression: Expression, valueToTrim?: string | Expression | Bytes): FunctionExpression; /** * @beta * Defines the options for evaluating a sample stage within a pipeline. * This type combines common {@link @firebase/firestore/pipelines#StageOptions} with a specific configuration * where only one of the defined sampling methods can be applied. * * See {@link @firebase/firestore/pipelines#Pipeline.(sample:1)} to create a sample stage.. */ export declare type SampleStageOptions = StageOptions & OneOf<{ /** * @beta * If set, specifies the sample rate as a percentage of the * input documents. * * Cannot be set when `documents: number` is set. */ percentage: number; /** * @beta * If set, specifies the sample rate as a total number of * documents to sample from the input documents. * * Cannot be set when `percentage: number` is set. */ documents: number; }>; /** * Interface to schedule periodic tasks within SDK. */ declare interface Scheduler { readonly started: boolean; start(): void; stop(): void; } /** * @beta * * An interface that represents a selectable expression. */ export declare interface Selectable { selectable: true; /* Excluded from this release type: alias */ /* Excluded from this release type: expr */ } /** * @beta * Options defining how a SelectStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(select:1)}. */ export declare type SelectStageOptions = StageOptions & { /** * @beta * The fields to include in the output documents, specified as {@link @firebase/firestore/pipelines#Selectable} expression * or as a string value indicating the field name. */ selections: Array<Selectable | string>; }; /** Base interface for the Serializer implementation. */ declare interface Serializer { readonly useProto3Json: boolean; } declare type ServerTimestampBehavior = 'estimate' | 'previous' | 'none'; /** * 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<string | FieldPath>; }; /** * A `SharedClientState` keeps track of the global state of the mutations * and query targets for all active clients with the same persistence key (i.e. * project ID and FirebaseApp name). It relays local changes to other clients * and updates its local state as new state is observed. * * `SharedClientState` is primarily used for synchronization in Multi-Tab * environments. Each tab is responsible for registering its active query * targets and mutations. `SharedClientState` will then notify the listener * assigned to `.syncEngine` for updates to mutations and queries that * originated in other clients. * * To receive notifications, `.syncEngine` and `.onlineStateHandler` has to be * assigned before calling `start()`. */ declare interface SharedClientState { onlineStateHandler: ((onlineState: OnlineState) => void) | null; sequenceNumberHandler: ((sequenceNumber: ListenSequenceNumber) => void) | null; /** Registers the Mutation Batch ID of a newly pending mutation. */ addPendingMutation(batchId: BatchId): void; /** * Records that a pending mutation has been acknowledged or rejected. * Called by the primary client to notify secondary clients of mutation * results as they come back from the backend. */ updateMutationState(batchId: BatchId, state: 'acknowledged' | 'rejected', error?: FirestoreError): void; /** * Associates a new Query Target ID with the local Firestore client. Returns * the new query state for the query (which can be 'current' if the query is * already associated with another tab). * * If the target id is already associated with local client, the method simply * returns its `QueryTargetState`. */ addLocalQueryTarget(targetId: TargetId, addToActiveTargetIds?: boolean): QueryTargetState; /** Removes the Query Target ID association from the local client. */ removeLocalQueryTarget(targetId: TargetId): void; /** Checks whether the target is associated with the local client. */ isLocalQueryTarget(targetId: TargetId): boolean; /** * Processes an update to a query target. * * Called by the primary client to notify secondary clients of document * changes or state transitions that affect the provided query target. */ updateQueryState(targetId: TargetId, state: QueryTargetState, error?: FirestoreError): void; /** * Removes the target's metadata entry. * * Called by the primary client when all clients stopped listening to a query * target. */ clearQueryState(targetId: TargetId): void; /** * Gets the active Query Targets IDs for all active clients. * * The implementation for this may require O(n) runtime, where 'n' is the size * of the result set. */ getAllActiveQueryTargets(): SortedSet<TargetId>; /** * Checks whether the provided target ID is currently being listened to by * any of the active clients. * * The implementation may require O(n*log m) runtime, where 'n' is the number * of clients and 'm' the number of targets. */ isActiveQueryTarget(targetId: TargetId): boolean; /** * Starts the SharedClientState, reads existing client data and registers * listeners for updates to new and existing clients. */ start(): Promise<void>; /** Shuts down the `SharedClientState` and its listeners. */ shutdown(): void; /** * Changes the active user and removes all existing user-specific data. The * user change does not call back into SyncEngine (for example, no mutations * will be marked as removed). */ handleUserChange(user: User, removedBatchIds: BatchId[], addedBatchIds: BatchId[]): void; /** Changes the shared online state of all clients. */ setOnlineState(onlineState: OnlineState): void; writeSequenceNumber(sequenceNumber: ListenSequenceNumber): void; /** * Notifies other clients when remote documents have changed due to loading * a bundle. * * @param collectionGroups - The collection groups affected by this bundle. */ notifyBundleLoaded(collectionGroups: Set<string>): void; } /** * Metadata about a snapshot, describing the state of the snapshot. */ export declare class SnapshotMetadata { /** * True if the snapshot contains the result of local writes (for example * `set()` or `update()` calls) that have not yet been committed to the * backend. If your listener has opted into metadata updates (via * `SnapshotListenOptions`) you will receive another snapshot with * `hasPendingWrites` equal to false once the writes have been committed to * the backend. */ readonly hasPendingWrites: boolean; /** * True if the snapshot was created from cached data rather than guaranteed * up-to-date server data. If your listener has opted into metadata updates * (via `SnapshotListenOptions`) you will receive another snapshot with * `fromCache` set to false once the client has received up-to-date data from * the backend. */ readonly fromCache: boolean; /** @hideconstructor */ constructor(hasPendingWrites: boolean, fromCache: boolean); /** * Returns true if this `SnapshotMetadata` is equal to the provided one. * * @param other - The `SnapshotMetadata` to compare against. * @returns true if this `SnapshotMetadata` is equal to the provided one. */ isEqual(other: SnapshotMetadata): boolean; } /** * Options that configure how data is retrieved from a `DocumentSnapshot` (for * example the desired behavior for server timestamps that have not yet been set * to their final value). */ export declare interface SnapshotOptions { /** * If set, controls the return value for server timestamps that have not yet * been set to their final value. * * By specifying 'estimate', pending server timestamps return an estimate * based on the local clock. This estimate will differ from the final value * and cause these values to change once the server result becomes available. * * By specifying 'previous', pending timestamps will be ignored and return * their previous value instead. * * If omitted or set to 'none', `null` will be returned by default until the * server value becomes available. */ readonly serverTimestamps?: 'estimate' | 'previous' | 'none'; } /** * 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; } declare class SortedMap<K, V> { comparator: Comparator<K>; root: LLRBNode<K, V> | LLRBEmptyNode<K, V>; constructor(comparator: Comparator<K>, root?: LLRBNode<K, V> | LLRBEmptyNode<K, V>); insert(key: K, value: V): SortedMap<K, V>; remove(key: K): SortedMap<K, V>; get(key: K): V | null; indexOf(key: K): number; isEmpty(): boolean; get size(): number; minKey(): K | null; maxKey(): K | null; inorderTraversal<T>(action: (k: K, v: V) => T): T; forEach(fn: (k: K, v: V) => void): void; toString(): string; reverseTraversal<T>(action: (k: K, v: V) => T): T; getIterator(): SortedMapIterator<K, V>; getIteratorFrom(key: K): SortedMapIterator<K, V>; getReverseIterator(): SortedMapIterator<K, V>; getReverseIteratorFrom(key: K): SortedMapIterator<K, V>; } declare class SortedMapIterator<K, V> { private isReverse; private nodeStack; constructor(node: LLRBNode<K, V> | LLRBEmptyNode<K, V>, startKey: K | null, comparator: Comparator<K>, isReverse: boolean); getNext(): Entry<K, V>; hasNext(): boolean; peek(): Entry<K, V> | null; } /** * SortedSet is an immutable (copy-on-write) collection that holds elements * in order specified by the provided comparator. * * NOTE: if provided comparator returns 0 for two elements, we consider them to * be equal! */ declare class SortedSet<T> { private comparator; private data; constructor(comparator: (left: T, right: T) => number); has(elem: T): boolean; first(): T | null; last(): T | null; get size(): number; indexOf(elem: T): number; /** Iterates elements in order defined by "comparator" */ forEach(cb: (elem: T) => void): void; /** Iterates over `elem`s such that: range[0] &lt;= elem &lt; range[1]. */ forEachInRange(range: [T, T], cb: (elem: T) => void): void; /** * Iterates over `elem`s such that: start &lt;= elem until false is returned. */ forEachWhile(cb: (elem: T) => boolean, start?: T): void; /** Finds the least element greater than or equal to `elem`. */ firstAfterOrEqual(elem: T): T | null; getIterator(): SortedSetIterator<T>; getIteratorFrom(key: T): SortedSetIterator<T>; /** Inserts or updates an element */ add(elem: T): SortedSet<T>; /** Deletes an element */ delete(elem: T): SortedSet<T>; isEmpty(): boolean; unionWith(other: SortedSet<T>): SortedSet<T>; isEqual(other: SortedSet<T>): boolean; toArray(): T[]; toString(): string; private copy; } declare class SortedSetIterator<T> { private iter; constructor(iter: SortedMapIterator<T, boolean>); getNext(): T; hasNext(): boolean; } /** * @beta * @beta * Options defining how a SortStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(sort:1)}. */ export declare type SortStageOptions = StageOptions & { /** * @beta * Orderings specify how the input documents are sorted. * One or more ordering are required. */ orderings: Ordering[]; }; /** * @beta * Creates an expression that splits the value of a field on the provided delimiter. * * @example * ```typescript * // Split the 'scoresCsv' field on delimiter ',' * split('scoresCsv', ',') * ``` * * @param fieldName - Split the value in this field. * @param delimiter - Split on this delimiter. * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ export declare function split(fieldName: string, delimiter: string): FunctionExpression; /** * @beta * Creates an expression that splits the value of a field on the provided delimiter. * * @example * ```typescript * // Split the 'scores' field on delimiter ',' or ':' depending on the stored format * split('scores', conditional(field('format').equal('csv'), constant(','), constant(':')) * ``` * * @param fieldName - Split the value in this field. * @param delimiter - Split on this delimiter returned by evaluating this expression. * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ export declare function split(fieldName: string, delimiter: Expression): FunctionExpression; /** * @beta * Creates an expression that splits a string into an array of substrings based on the provided delimiter. * * @example * ```typescript * // Split the 'scoresCsv' field on delimiter ',' * split(field('scoresCsv'), ',') * ``` * * @param expression - Split the result of this expression. * @param delimiter - Split on this delimiter. * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ export declare function split(expression: Expression, delimiter: string): FunctionExpression; /** * @beta * Creates an expression that splits a string into an array of substrings based on the provided delimiter. * * @example * ```typescript * // Split the 'scores' field on delimiter ',' or ':' depending on the stored format * split(field('scores'), conditional(field('format').equal('csv'), constant(','), constant(':')) * ``` * * @param expression - Split the result of this expression. * @param delimiter - Split on this delimiter returned by evaluating this expression. * * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the split function. */ export declare function split(expression: Expression, delimiter: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the square root of a numeric value. * * @example * ```typescript * // Compute the square root of the 'value' field. * sqrt(field("value")); * ``` * * @param expression - An expression evaluating to a numeric value, which the square root will be computed for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the square root of the numeric value. */ export declare function sqrt(expression: Expression): FunctionExpression; /** * @beta * Creates an expression that computes the square root of a numeric value. * * @example * ```typescript * // Compute the square root of the 'value' field. * sqrt("value"); * ``` * * @param fieldName - The name of the field to compute the square root of. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the square root of the numeric value. */ export declare function sqrt(fieldName: string): FunctionExpression; /** * @beta */ declare abstract class Stage implements ProtoSerializable<Stage_2>, UserData { /* Excluded from this release type: optionsProto */ protected knownOptions: Record<string, unknown>; protected rawOptions?: Record<string, unknown>; constructor(options: StageOptions); _readUserData(context: ParseContext): void; _toProto(_: JsonProtoSerializer): Stage_2; abstract get _optionsUtil(): OptionsUtil; abstract get _name(): string; } declare type Stage_2 = firestoreV1ApiClientInterfaces.Stage; /** * @beta * Options defining how a Stage is evaluated. */ export declare interface StageOptions { /** * @beta * An escape hatch to set options not known at SDK build time. These values * will be passed directly to the Firestore backend and not used by the SDK. * * The option name will be used as provided. And must match the name * format used by the backend (hint: use a snake_case_name). * * Raw option values can be any type supported * by Firestore (for example: string, boolean, number, map, …). Value types * not known to the SDK will be rejected. * * Values specified in rawOptions will take precedence over any options * with the same name set by the SDK. * * `rawOptions` supports dot notation, if you want to override * a nested option. */ rawOptions?: { [name: string]: unknown; }; } /** * @beta * * Creates an expression that checks if a field's value starts with a given prefix. * * @example * ```typescript * // Check if the 'name' field starts with "Mr." * startsWith("name", "Mr."); * ``` * * @param fieldName - The field name to check. * @param prefix - The prefix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'starts with' comparison. */ export declare function startsWith(fieldName: string, prefix: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a field's value starts with a given prefix. * * @example * ```typescript * // Check if the 'fullName' field starts with the value of the 'firstName' field * startsWith("fullName", field("firstName")); * ``` * * @param fieldName - The field name to check. * @param prefix - The expression representing the prefix. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'starts with' comparison. */ export declare function startsWith(fieldName: string, prefix: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression starts with a given prefix. * * @example * ```typescript * // Check if the result of concatenating 'firstName' and 'lastName' fields starts with "Mr." * startsWith(field("fullName"), "Mr."); * ``` * * @param stringExpression - The expression to check. * @param prefix - The prefix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'starts with' comparison. */ export declare function startsWith(stringExpression: Expression, prefix: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression starts with a given prefix. * * @example * ```typescript * // Check if the result of concatenating 'firstName' and 'lastName' fields starts with "Mr." * startsWith(field("fullName"), field("prefix")); * ``` * * @param stringExpression - The expression to check. * @param prefix - The prefix to check for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'starts with' comparison. */ export declare function startsWith(stringExpression: Expression, prefix: Expression): BooleanExpression; /** * @beta * * Creates an expression that concatenates string functions, fields or constants together. * * @example * ```typescript * // Combine the 'firstName', " ", and 'lastName' fields into a single string * stringConcat("firstName", " ", field("lastName")); * ``` * * @param fieldName - The field name containing the initial string value. * @param secondString - An expression or string literal to concatenate. * @param otherStrings - Optional additional expressions or literals (typically strings) to concatenate. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the concatenated string. */ export declare function stringConcat(fieldName: string, secondString: Expression | string, ...otherStrings: Array<Expression | string>): FunctionExpression; /** * @beta * Creates an expression that concatenates string expressions together. * * @example * ```typescript * // Combine the 'firstName', " ", and 'lastName' fields into a single string * stringConcat(field("firstName"), " ", field("lastName")); * ``` * * @param firstString - The initial string expression to concatenate to. * @param secondString - An expression or string literal to concatenate. * @param otherStrings - Optional additional expressions or literals (typically strings) to concatenate. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the concatenated string. */ export declare function stringConcat(firstString: Expression, secondString: Expression | string, ...otherStrings: Array<Expression | string>): FunctionExpression; /** * @beta * * Creates an expression that checks if a string field contains a specified substring. * * @example * ```typescript * // Check if the 'description' field contains "example". * stringContains("description", "example"); * ``` * * @param fieldName - The name of the field containing the string. * @param substring - The substring to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function stringContains(fieldName: string, substring: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string field contains a substring specified by an expression. * * @example * ```typescript * // Check if the 'description' field contains the value of the 'keyword' field. * stringContains("description", field("keyword")); * ``` * * @param fieldName - The name of the field containing the string. * @param substring - The expression representing the substring to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function stringContains(fieldName: string, substring: Expression): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression contains a specified substring. * * @example * ```typescript * // Check if the 'description' field contains "example". * stringContains(field("description"), "example"); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param substring - The substring to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function stringContains(stringExpression: Expression, substring: string): BooleanExpression; /** * @beta * * Creates an expression that checks if a string expression contains a substring specified by another expression. * * @example * ```typescript * // Check if the 'description' field contains the value of the 'keyword' field. * stringContains(field("description"), field("keyword")); * ``` * * @param stringExpression - The expression representing the string to perform the comparison on. * @param substring - The expression representing the substring to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the 'contains' comparison. */ export declare function stringContains(stringExpression: Expression, substring: Expression): BooleanExpression; /** * @beta * Creates an expression that finds the index of the first occurrence of a substring or byte sequence. * * @example * ```typescript * // Find the index of "foo" in the 'text' field * stringIndexOf("text", "foo"); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param search - The substring or byte sequence to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the index of the first occurrence. */ export declare function stringIndexOf(fieldName: string, search: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that finds the index of the first occurrence of a substring or byte sequence. * * @example * ```typescript * // Find the index of "foo" in the 'text' field * stringIndexOf(field("text"), "foo"); * ``` * * @param expression - The expression representing the string or byte array. * @param search - The substring or byte sequence to search for. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the index of the first occurrence. */ export declare function stringIndexOf(expression: Expression, search: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that repeats a string or byte array a specified number of times. * * @example * ```typescript * // Repeat the 'label' field 3 times * stringRepeat("label", 3); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param repetitions - The number of times to repeat the string or byte array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the repeated string or byte array. */ export declare function stringRepeat(fieldName: string, repetitions: number | Expression): FunctionExpression; /** * @beta * Creates an expression that repeats a string or byte array a specified number of times. * * @example * ```typescript * // Repeat the 'label' field 3 times * stringRepeat(field("label"), 3); * ``` * * @param expression - The expression representing the string or byte array. * @param repetitions - The number of times to repeat the string or byte array. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the repeated string or byte array. */ export declare function stringRepeat(expression: Expression, repetitions: number | Expression): FunctionExpression; /** * @beta * Creates an expression that replaces all occurrences of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace all occurrences of "foo" with "bar" in the 'text' field * stringReplaceAll("text", "foo", "bar"); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the string or byte array with replacements. */ export declare function stringReplaceAll(fieldName: string, find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that replaces all occurrences of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace all occurrences of "foo" with "bar" in the 'text' field * stringReplaceAll(field("text"), "foo", "bar"); * ``` * * @param expression - The expression representing the string or byte array. * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the string or byte array with replacements. */ export declare function stringReplaceAll(expression: Expression, find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that replaces the first occurrence of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace the first occurrence of "foo" with "bar" in the 'text' field * stringReplaceOne("text", "foo", "bar"); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the string or byte array with the replacement. */ export declare function stringReplaceOne(fieldName: string, find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that replaces the first occurrence of a substring or byte sequence with a replacement. * * @example * ```typescript * // Replace the first occurrence of "foo" with "bar" in the 'text' field * stringReplaceOne(field("text"), "foo", "bar"); * ``` * * @param expression - The expression representing the string or byte array. * @param find - The substring or byte sequence to search for. * @param replacement - The replacement string or byte sequence. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the string or byte array with the replacement. */ export declare function stringReplaceOne(expression: Expression, find: string | Expression | Bytes, replacement: string | Expression | Bytes): FunctionExpression; /** * @beta * Creates an expression that reverses a string. * * @example * ```typescript * // Reverse the value of the 'myString' field. * strReverse(field("myString")); * ``` * * @param stringExpression - An expression evaluating to a string value, which will be reversed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ export declare function stringReverse(stringExpression: Expression): FunctionExpression; /** * @beta * Creates an expression that reverses a string value in the specified field. * * @example * ```typescript * // Reverse the value of the 'myString' field. * strReverse("myString"); * ``` * * @param field - The name of the field representing the string to reverse. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the reversed string. */ export declare function stringReverse(field: string): FunctionExpression; declare type StructuredQuery = firestoreV1ApiClientInterfaces.StructuredQuery; /** * @beta * * Creates an expression that returns a substring of a string or byte array. * * @param field - The name of a field containing a string or byte array to compute the substring from. * @param position - Index of the first character of the substring. * @param length - Length of the substring. */ export declare function substring(field: string, position: number, length?: number): FunctionExpression; /** * @beta * * Creates an expression that returns a substring of a string or byte array. * * @param input - An expression returning a string or byte array to compute the substring from. * @param position - Index of the first character of the substring. * @param length - Length of the substring. */ export declare function substring(input: Expression, position: number, length?: number): FunctionExpression; /** * @beta * * Creates an expression that returns a substring of a string or byte array. * * @param field - The name of a field containing a string or byte array to compute the substring from. * @param position - An expression that returns the index of the first character of the substring. * @param length - An expression that returns the length of the substring. */ export declare function substring(field: string, position: Expression, length?: Expression): FunctionExpression; /** * @beta * * Creates an expression that returns a substring of a string or byte array. * * @param input - An expression returning a string or byte array to compute the substring from. * @param position - An expression that returns the index of the first character of the substring. * @param length - An expression that returns the length of the substring. */ export declare function substring(input: Expression, position: Expression, length?: Expression): FunctionExpression; /** * @beta * * Creates an expression that subtracts two expressions. * * @example * ```typescript * // Subtract the 'discount' field from the 'price' field * subtract(field("price"), field("discount")); * ``` * * @param left - The expression to subtract from. * @param right - The expression to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the subtraction operation. */ export declare function subtract(left: Expression, right: Expression): FunctionExpression; /** * @beta * * Creates an expression that subtracts a constant value from an expression. * * @example * ```typescript * // Subtract the constant value 2 from the 'value' field * subtract(field("value"), 2); * ``` * * @param expression - The expression to subtract from. * @param value - The constant value to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the subtraction operation. */ export declare function subtract(expression: Expression, value: unknown): FunctionExpression; /** * @beta * * Creates an expression that subtracts an expression from a field's value. * * @example * ```typescript * // Subtract the 'discount' field from the 'price' field * subtract("price", field("discount")); * ``` * * @param fieldName - The field name to subtract from. * @param expression - The expression to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the subtraction operation. */ export declare function subtract(fieldName: string, expression: Expression): FunctionExpression; /** * @beta * * Creates an expression that subtracts a constant value from a field's value. * * @example * ```typescript * // Subtract 20 from the value of the 'total' field * subtract("total", 20); * ``` * * @param fieldName - The field name to subtract from. * @param value - The constant value to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the subtraction operation. */ export declare function subtract(fieldName: string, value: unknown): FunctionExpression; /** * @beta * * Creates an aggregation that calculates the sum of values from an expression across multiple * stage inputs. * * @example * ```typescript * // Calculate the total revenue from a set of orders * sum(field("orderAmount")).as("totalRevenue"); * ``` * * @param expression - The expression to sum up. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'sum' aggregation. */ export declare function sum(expression: Expression): AggregateFunction; /** * @beta * * Creates an aggregation that calculates the sum of a field's values across multiple stage * inputs. * * @example * ```typescript * // Calculate the total revenue from a set of orders * sum("orderAmount").as("totalRevenue"); * ``` * * @param fieldName - The name of the field containing numeric values to sum up. * @returns A new {@link @firebase/firestore/pipelines#AggregateFunction} representing the 'sum' aggregation. */ export declare function sum(fieldName: string): AggregateFunction; /** * @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. */ /** * SyncEngine is the central controller in the client SDK architecture. It is * the glue code between the EventManager, LocalStore, and RemoteStore. Some of * SyncEngine's responsibilities include: * 1. Coordinating client requests and remote events between the EventManager * and the local and remote data stores. * 2. Managing a View object for each query, providing the unified view between * the local and remote data stores. * 3. Notifying the RemoteStore when the LocalStore has new mutations in its * queue that need sending to the backend. * * The SyncEngine’s methods should only ever be called by methods running in the * global async queue. * * PORTING NOTE: On Web, SyncEngine does not have an explicit subscribe() * function. Instead, it directly depends on EventManager's tree-shakeable API * (via `ensureWatchStream()`). */ declare interface SyncEngine { isPrimaryClient: boolean; } /** * A Target represents the WatchTarget representation of a Query, which is used * by the LocalStore and the RemoteStore to keep track of and to execute * backend queries. While a Query can represent multiple Targets, each Targets * maps to a single WatchTarget in RemoteStore and a single TargetData entry * in persistence. */ declare interface Target { readonly path: ResourcePath; readonly collectionGroup: string | null; readonly orderBy: OrderBy[]; readonly filters: Filter[]; readonly limit: number | null; readonly startAt: Bound | null; readonly endAt: Bound | null; } /** * Represents cached targets received from the remote backend. * * The cache is keyed by `Target` and entries in the cache are `TargetData` * instances. */ declare interface TargetCache { /** * A global snapshot version representing the last consistent snapshot we * received from the backend. This is monotonically increasing and any * snapshots received from the backend prior to this version (e.g. for targets * resumed with a resume_token) should be suppressed (buffered) until the * backend has caught up to this snapshot version again. This prevents our * cache from ever going backwards in time. * * This is updated whenever our we get a TargetChange with a read_time and * empty target_ids. */ getLastRemoteSnapshotVersion(transaction: PersistenceTransaction): PersistencePromise<SnapshotVersion>; /** * @returns The highest sequence number observed, including any that might be * persisted on-disk. */ getHighestSequenceNumber(transaction: PersistenceTransaction): PersistencePromise<ListenSequenceNumber>; /** * Call provided function with each `TargetData` that we have cached. */ forEachTarget(txn: PersistenceTransaction, f: (q: TargetData) => void): PersistencePromise<void>; /** * Set the highest listen sequence number and optionally updates the * snapshot version of the last consistent snapshot received from the backend * (see getLastRemoteSnapshotVersion() for more details). * * @param highestListenSequenceNumber - The new maximum listen sequence number. * @param lastRemoteSnapshotVersion - The new snapshot version. Optional. */ setTargetsMetadata(transaction: PersistenceTransaction, highestListenSequenceNumber: number, lastRemoteSnapshotVersion?: SnapshotVersion): PersistencePromise<void>; /** * Adds an entry in the cache. * * The cache key is extracted from `targetData.target`. The key must not already * exist in the cache. * * @param targetData - A TargetData instance to put in the cache. */ addTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>; /** * Updates an entry in the cache. * * The cache key is extracted from `targetData.target`. The entry must already * exist in the cache, and it will be replaced. * @param targetData - The TargetData to be replaced into the cache. */ updateTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>; /** * Removes the cached entry for the given target data. It is an error to remove * a target data that does not exist. * * Multi-Tab Note: This operation should only be called by the primary client. */ removeTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>; /** * The number of targets currently in the cache. */ getTargetCount(transaction: PersistenceTransaction): PersistencePromise<number>; /** * Looks up a TargetData entry by target. * * @param target - The query target corresponding to the entry to look up. * @returns The cached TargetData entry, or null if the cache has no entry for * the target. */ getTargetData(transaction: PersistenceTransaction, target: Target): PersistencePromise<TargetData | null>; /** * Adds the given document keys to cached query results of the given target * ID. * * Multi-Tab Note: This operation should only be called by the primary client. */ addMatchingKeys(transaction: PersistenceTransaction, keys: DocumentKeySet, targetId: TargetId): PersistencePromise<void>; /** * Removes the given document keys from the cached query results of the * given target ID. * * Multi-Tab Note: This operation should only be called by the primary client. */ removeMatchingKeys(transaction: PersistenceTransaction, keys: DocumentKeySet, targetId: TargetId): PersistencePromise<void>; /** * Removes all the keys in the query results of the given target ID. * * Multi-Tab Note: This operation should only be called by the primary client. */ removeMatchingKeysForTargetId(transaction: PersistenceTransaction, targetId: TargetId): PersistencePromise<void>; /** * Returns the document keys that match the provided target ID. */ getMatchingKeysForTargetId(transaction: PersistenceTransaction, targetId: TargetId): PersistencePromise<DocumentKeySet>; /** * Returns a new target ID that is higher than any query in the cache. If * there are no queries in the cache, returns the first valid target ID. * Allocated target IDs are persisted and `allocateTargetId()` will never * return the same ID twice. */ allocateTargetId(transaction: PersistenceTransaction): PersistencePromise<TargetId>; containsKey(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<boolean>; } /** * A TargetChange specifies the set of changes for a specific target as part of * a RemoteEvent. These changes track which documents are added, modified or * removed, as well as the target's resume token and whether the target is * marked CURRENT. * The actual changes *to* documents are not part of the TargetChange since * documents may be part of multiple targets. */ declare class TargetChange { /** * An opaque, server-assigned token that allows watching a query to be resumed * after disconnecting without retransmitting all the data that matches the * query. The resume token essentially identifies a point in time from which * the server should resume sending results. */ readonly resumeToken: ByteString; /** * The "current" (synced) status of this target. Note that "current" * has special meaning in the RPC protocol that implies that a target is * both up-to-date and consistent with the rest of the watch stream. */ readonly current: boolean; /** * The set of documents that were newly assigned to this target as part of * this remote event. */ readonly addedDocuments: DocumentKeySet; /** * The set of documents that were already assigned to this target but received * an update during this remote event. */ readonly modifiedDocuments: DocumentKeySet; /** * The set of documents that were removed from this target as part of this * remote event. */ readonly removedDocuments: DocumentKeySet; constructor( /** * An opaque, server-assigned token that allows watching a query to be resumed * after disconnecting without retransmitting all the data that matches the * query. The resume token essentially identifies a point in time from which * the server should resume sending results. */ resumeToken: ByteString, /** * The "current" (synced) status of this target. Note that "current" * has special meaning in the RPC protocol that implies that a target is * both up-to-date and consistent with the rest of the watch stream. */ current: boolean, /** * The set of documents that were newly assigned to this target as part of * this remote event. */ addedDocuments: DocumentKeySet, /** * The set of documents that were already assigned to this target but received * an update during this remote event. */ modifiedDocuments: DocumentKeySet, /** * The set of documents that were removed from this target as part of this * remote event. */ removedDocuments: DocumentKeySet); /** * This method is used to create a synthesized TargetChanges that can be used to * apply a CURRENT status change to a View (for queries executed in a different * tab) or for new queries (to raise snapshots with correct CURRENT status). */ static createSynthesizedTargetChangeForCurrentChange(targetId: TargetId, current: boolean, resumeToken: ByteString): TargetChange; } declare type TargetChangeTargetChangeType = 'NO_CHANGE' | 'ADD' | 'REMOVE' | 'CURRENT' | 'RESET'; /** * An immutable set of metadata that the local store tracks for each target. */ declare class TargetData { /** The target being listened to. */ readonly target: Target; /** * The target ID to which the target corresponds; Assigned by the * LocalStore for user listens and by the SyncEngine for limbo watches. */ readonly targetId: TargetId; /** The purpose of the target. */ readonly purpose: TargetPurpose; /** * The sequence number of the last transaction during which this target data * was modified. */ readonly sequenceNumber: ListenSequenceNumber; /** The latest snapshot version seen for this target. */ readonly snapshotVersion: SnapshotVersion; /** * The maximum snapshot version at which the associated view * contained no limbo documents. */ readonly lastLimboFreeSnapshotVersion: SnapshotVersion; /** * An opaque, server-assigned token that allows watching a target to be * resumed after disconnecting without retransmitting all the data that * matches the target. The resume token essentially identifies a point in * time from which the server should resume sending results. */ readonly resumeToken: ByteString; /** * The number of documents that last matched the query at the resume token or * read time. Documents are counted only when making a listen request with * resume token or read time, otherwise, keep it null. */ readonly expectedCount: number | null; constructor( /** The target being listened to. */ target: Target, /** * The target ID to which the target corresponds; Assigned by the * LocalStore for user listens and by the SyncEngine for limbo watches. */ targetId: TargetId, /** The purpose of the target. */ purpose: TargetPurpose, /** * The sequence number of the last transaction during which this target data * was modified. */ sequenceNumber: ListenSequenceNumber, /** The latest snapshot version seen for this target. */ snapshotVersion?: SnapshotVersion, /** * The maximum snapshot version at which the associated view * contained no limbo documents. */ lastLimboFreeSnapshotVersion?: SnapshotVersion, /** * An opaque, server-assigned token that allows watching a target to be * resumed after disconnecting without retransmitting all the data that * matches the target. The resume token essentially identifies a point in * time from which the server should resume sending results. */ resumeToken?: ByteString, /** * The number of documents that last matched the query at the resume token or * read time. Documents are counted only when making a listen request with * resume token or read time, otherwise, keep it null. */ expectedCount?: number | null); /** Creates a new target data instance with an updated sequence number. */ withSequenceNumber(sequenceNumber: number): TargetData; /** * Creates a new target data instance with an updated resume token and * snapshot version. */ withResumeToken(resumeToken: ByteString, snapshotVersion: SnapshotVersion): TargetData; /** * Creates a new target data instance with an updated expected count. */ withExpectedCount(expectedCount: number): TargetData; /** * Creates a new target data instance with an updated last limbo free * snapshot version number. */ withLastLimboFreeSnapshotVersion(lastLimboFreeSnapshotVersion: SnapshotVersion): TargetData; } /** * A locally-assigned ID used to refer to a target being watched via the * Watch service. */ declare type TargetId = number; /** An enumeration of the different purposes we have for targets. */ declare const enum TargetPurpose { /** A regular, normal query target. */ Listen = "TargetPurposeListen", /** * The query target was used to refill a query after an existence filter * mismatch. */ ExistenceFilterMismatch = "TargetPurposeExistenceFilterMismatch", /** * The query target was used if the query is the result of a false positive in * the bloom filter. */ ExistenceFilterMismatchBloom = "TargetPurposeExistenceFilterMismatchBloom", /** The query target was used to resolve a limbo document. */ LimboResolution = "TargetPurposeLimboResolution" } /** * @beta * Specify time granularity for expressions. */ export declare type TimeGranularity = 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day' | 'week' | 'week(monday)' | 'week(tuesday)' | 'week(wednesday)' | 'week(thursday)' | 'week(friday)' | 'week(saturday)' | 'week(sunday)' | 'isoWeek' | 'month' | 'quarter' | 'year' | 'isoYear'; /** * 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" } /** * 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; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; seconds: Property<"number">; nanoseconds: Property<"number">; }; /** * Returns a JSON-serializable representation of this `Timestamp`. */ toJSON(): { seconds: number; nanoseconds: number; type: string; }; /** * Builds a `Timestamp` instance from a JSON object created by {@link Timestamp.toJSON}. */ static fromJSON(json: object): Timestamp; /** * 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; }; /** * @beta * * Creates an expression that adds a specified amount of time to a timestamp. * * @example * ```typescript * // Add some duration determined by field 'unit' and 'amount' to the 'timestamp' field. * timestampAdd(field("timestamp"), field("unit"), field("amount")); * ``` * * @param timestamp - The expression representing the timestamp. * @param unit - The expression evaluates to unit of time, must be one of 'microsecond', 'millisecond', 'second', 'minute', 'hour', 'day'. * @param amount - The expression evaluates to amount of the unit. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampAdd(timestamp: Expression, unit: Expression, amount: Expression): FunctionExpression; /** * @beta * * Creates an expression that adds a specified amount of time to a timestamp. * * @example * ```typescript * // Add 1 day to the 'timestamp' field. * timestampAdd(field("timestamp"), "day", 1); * ``` * * @param timestamp - The expression representing the timestamp. * @param unit - The unit of time to add (e.g., "day", "hour"). * @param amount - The amount of time to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampAdd(timestamp: Expression, unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * * Creates an expression that adds a specified amount of time to a timestamp represented by a field. * * @example * ```typescript * // Add 1 day to the 'timestamp' field. * timestampAdd("timestamp", "day", 1); * ``` * * @param fieldName - The name of the field representing the timestamp. * @param unit - The unit of time to add (e.g., "day", "hour"). * @param amount - The amount of time to add. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampAdd(fieldName: string, unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * * Creates an expression that subtracts a specified amount of time from a timestamp. * * @example * ```typescript * // Subtract some duration determined by field 'unit' and 'amount' from the 'timestamp' field. * timestampSubtract(field("timestamp"), field("unit"), field("amount")); * ``` * * @param timestamp - The expression representing the timestamp. * @param unit - The expression evaluates to unit of time, must be one of 'microsecond', 'millisecond', 'second', 'minute', 'hour', 'day'. * @param amount - The expression evaluates to amount of the unit. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampSubtract(timestamp: Expression, unit: Expression, amount: Expression): FunctionExpression; /** * @beta * * Creates an expression that subtracts a specified amount of time from a timestamp. * * @example * ```typescript * // Subtract 1 day from the 'timestamp' field. * timestampSubtract(field("timestamp"), "day", 1); * ``` * * @param timestamp - The expression representing the timestamp. * @param unit - The unit of time to subtract (e.g., "day", "hour"). * @param amount - The amount of time to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampSubtract(timestamp: Expression, unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * * Creates an expression that subtracts a specified amount of time from a timestamp represented by a field. * * @example * ```typescript * // Subtract 1 day from the 'timestamp' field. * timestampSubtract("timestamp", "day", 1); * ``` * * @param fieldName - The name of the field representing the timestamp. * @param unit - The unit of time to subtract (e.g., "day", "hour"). * @param amount - The amount of time to subtract. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the resulting timestamp. */ export declare function timestampSubtract(fieldName: string, unit: 'microsecond' | 'millisecond' | 'second' | 'minute' | 'hour' | 'day', amount: number): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp expression to the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to microseconds since epoch. * timestampToUnixMicros(field("timestamp")); * ``` * * @param expr - The expression representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of microseconds since epoch. */ export declare function timestampToUnixMicros(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp field to the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to microseconds since epoch. * timestampToUnixMicros("timestamp"); * ``` * * @param fieldName - The name of the field representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of microseconds since epoch. */ export declare function timestampToUnixMicros(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp expression to the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to milliseconds since epoch. * timestampToUnixMillis(field("timestamp")); * ``` * * @param expr - The expression representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of milliseconds since epoch. */ export declare function timestampToUnixMillis(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp field to the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to milliseconds since epoch. * timestampToUnixMillis("timestamp"); * ``` * * @param fieldName - The name of the field representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of milliseconds since epoch. */ export declare function timestampToUnixMillis(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp expression to the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to seconds since epoch. * timestampToUnixSeconds(field("timestamp")); * ``` * * @param expr - The expression representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of seconds since epoch. */ export declare function timestampToUnixSeconds(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that converts a timestamp field to the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC). * * @example * ```typescript * // Convert the 'timestamp' field to seconds since epoch. * timestampToUnixSeconds("timestamp"); * ``` * * @param fieldName - The name of the field representing the timestamp. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the number of seconds since epoch. */ export declare function timestampToUnixSeconds(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the beginning of the day. * field('createdAt').timestampTruncate('day') * ``` * * @param fieldName - Truncate the timestamp value contained in this field. * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ export declare function timestampTruncate(fieldName: string, granularity: TimeGranularity, timezone?: string | Expression): FunctionExpression; /** * @beta * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the granularity specified in the field 'granularity'. * field('createdAt').timestampTruncate(field('granularity')) * ``` * * @param fieldName - Truncate the timestamp value contained in this field. * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ export declare function timestampTruncate(fieldName: string, granularity: Expression, timezone?: string | Expression): FunctionExpression; /** * @beta * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the beginning of the day. * field('createdAt').timestampTruncate('day') * ``` * * @param timestampExpression - Truncate the timestamp value that is returned by this expression. * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ export declare function timestampTruncate(timestampExpression: Expression, granularity: TimeGranularity, timezone?: string | Expression): FunctionExpression; /** * @beta * Creates an expression that truncates a timestamp to a specified granularity. * * @example * ```typescript * // Truncate the 'createdAt' timestamp to the granularity specified in the field 'granularity'. * field('createdAt').timestampTruncate(field('granularity')) * ``` * * @param timestampExpression - Truncate the timestamp value that is returned by this expression. * @param granularity - The granularity to truncate to. * @param timezone - The timezone to use for truncation. Valid values are from * the TZ database (e.g., "America/Los_Angeles") or in the format "Etc/GMT-1". * @returns A new `Expression` representing the truncated timestamp. */ export declare function timestampTruncate(timestampExpression: Expression, granularity: Expression, timezone?: string | Expression): FunctionExpression; 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<string, string>; } declare type TokenType = 'OAuth' | 'FirstParty' | 'AppCheck'; /** * @beta * * Creates an expression that converts a string field to lowercase. * * @example * ```typescript * // Convert the 'name' field to lowercase * toLower("name"); * ``` * * @param fieldName - The name of the field containing the string. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the lowercase string. */ export declare function toLower(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that converts a string expression to lowercase. * * @example * ```typescript * // Convert the 'name' field to lowercase * toLower(field("name")); * ``` * * @param stringExpression - The expression representing the string to convert to lowercase. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the lowercase string. */ export declare function toLower(stringExpression: Expression): FunctionExpression; /** * @beta * * Creates an expression that converts a string field to uppercase. * * @example * ```typescript * // Convert the 'title' field to uppercase * toUpper("title"); * ``` * * @param fieldName - The name of the field containing the string. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the uppercase string. */ export declare function toUpper(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that converts a string expression to uppercase. * * @example * ```typescript * // Convert the 'title' field to uppercase * toUppercase(field("title")); * ``` * * @param stringExpression - The expression representing the string to convert to uppercase. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the uppercase string. */ export declare function toUpper(stringExpression: Expression): FunctionExpression; /** Used to represent a field transform on a mutation. */ declare class TransformOperation { private _; } /** * @beta * * Creates an expression that removes leading and trailing whitespace from a string or byte array. * * @example * ```typescript * // Trim whitespace from the 'userInput' field * trim("userInput"); * * // Trim quotes from the 'userInput' field * trim("userInput", '"'); * ``` * * @param fieldName - The name of the field containing the string or byte array. * @param valueToTrim - Optional This parameter is treated as a set of characters or bytes that will be * trimmed from the input. If not specified, then whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string. */ export declare function trim(fieldName: string, valueToTrim?: string | Expression): FunctionExpression; /** * @beta * * Creates an expression that removes leading and trailing characters from a string or byte array expression. * * @example * ```typescript * // Trim whitespace from the 'userInput' field * trim(field("userInput")); * * // Trim quotes from the 'userInput' field * trim(field("userInput"), '"'); * ``` * * @param stringExpression - The expression representing the string or byte array to trim. * @param valueToTrim - Optional This parameter is treated as a set of characters or bytes that will be * trimmed from the input. If not specified, then whitespace will be trimmed. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the trimmed string or byte array. */ export declare function trim(stringExpression: Expression, valueToTrim?: string | Expression): FunctionExpression; /** * @beta * Creates an expression that truncates the numeric value of a field to an integer. * * @example * ```typescript * // Truncate the value of the 'rating' field * trunc("rating"); * ``` * * @param fieldName - The name of the field containing the number to truncate. * @returns A new `Expression` representing the truncated value. */ export declare function trunc(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that truncates the numeric value of an expression to an integer. * * @example * ```typescript * // Truncate the value of the 'rating' field. * trunc(field("rating")); * ``` * * @param expression - An expression evaluating to a numeric value, which will be truncated. * @returns A new `Expression` representing the truncated value. */ export declare function trunc(expression: Expression): FunctionExpression; /** * @beta * Creates an expression that truncates a numeric expression to the specified number of decimal places. * * @example * ```typescript * // Truncate the value of the 'rating' field to two decimal places. * trunc("rating", 2); * ``` * * @param fieldName - The name of the field to truncate. * @param decimalPlaces - A constant or expression specifying the truncation precision in decimal places. * @returns A new `Expression` representing the truncated value. */ export declare function trunc(fieldName: string, decimalPlaces: number | Expression): FunctionExpression; /** * @beta * Creates an expression that truncates a numeric value to the specified number of decimal places. * * @example * ```typescript * // Truncate the value of the 'rating' field to two decimal places. * trunc(field("rating"), constant(2)); * ``` * * @param expression - An expression evaluating to a numeric value, which will be truncated. * @param decimalPlaces - A constant or expression specifying the truncation precision in decimal places. * @returns A new `Expression` representing the truncated value. */ export declare function trunc(expression: Expression, decimalPlaces: number | Expression): FunctionExpression; /* Excluded from this release type: TSType */ /** * @beta * * An enumeration of the different types generated by the Firestore backend. * * <ul> * <li>Numerics evaluate directly to backend representation (`int64` or `float64`), not JS `number`.</li> * <li>JavaScript `Date` and firestore `Timestamp` objects strictly evaluate to `'timestamp'`.</li> * <li>Advanced configurations parsing backend types (such as `decimal128`, `max_key` or `min_key` from BSON) are also incorporated in this union string type. Note that `decimal128` is a backend-only numeric type that the JavaScript SDK cannot create natively, but can be evaluated in pipelines.</li> * </ul> */ export declare type Type = 'null' | 'array' | 'boolean' | 'bytes' | 'timestamp' | 'geo_point' | 'number' | 'int32' | 'int64' | 'float64' | 'decimal128' | 'map' | 'reference' | 'string' | 'vector' | 'max_key' | 'min_key' | 'object_id' | 'regex' | 'request_timestamp'; /** * @beta * Creates an expression that returns the data type of the data in the specified field. * * @remarks * String inputs passed iteratively to this global function act as `field()` path lookups. * If you wish to pass a string literal value, it must be wrapped: `type(constant("my_string"))`. * * @example * ```typescript * // Get the data type of the value in field 'title' * type('title') * ``` * * @returns A new `Expression` representing the data type. */ export declare function type(fieldName: string): FunctionExpression; /** * @beta * Creates an expression that returns the data type of an expression's result. * * @example * ```typescript * // Get the data type of a conditional expression * type(conditional(exists('foo'), constant(1), constant(true))) * ``` * * @returns A new `Expression` representing the data type. */ export declare function type(expression: Expression): FunctionExpression; declare type UnaryFilterOp = 'OPERATOR_UNSPECIFIED' | 'IS_NAN' | 'IS_NULL' | 'IS_NOT_NAN' | 'IS_NOT_NULL'; /** * @beta * Options defining how a UnionStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(union:1)}. */ export declare type UnionStageOptions = StageOptions & { /** * @beta * Specifies the other Pipeline to union with. */ other: Pipeline_2; }; /** * @beta * * Creates an expression that interprets an expression as the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'microseconds' field as microseconds since epoch. * unixMicrosToTimestamp(field("microseconds")); * ``` * * @param expr - The expression representing the number of microseconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixMicrosToTimestamp(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that interprets a field's value as the number of microseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'microseconds' field as microseconds since epoch. * unixMicrosToTimestamp("microseconds"); * ``` * * @param fieldName - The name of the field representing the number of microseconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixMicrosToTimestamp(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that interprets an expression as the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'milliseconds' field as milliseconds since epoch. * unixMillisToTimestamp(field("milliseconds")); * ``` * * @param expr - The expression representing the number of milliseconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixMillisToTimestamp(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that interprets a field's value as the number of milliseconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'milliseconds' field as milliseconds since epoch. * unixMillisToTimestamp("milliseconds"); * ``` * * @param fieldName - The name of the field representing the number of milliseconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixMillisToTimestamp(fieldName: string): FunctionExpression; /** * @beta * * Creates an expression that interprets an expression as the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'seconds' field as seconds since epoch. * unixSecondsToTimestamp(field("seconds")); * ``` * * @param expr - The expression representing the number of seconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixSecondsToTimestamp(expr: Expression): FunctionExpression; /** * @beta * * Creates an expression that interprets a field's value as the number of seconds since the Unix epoch (1970-01-01 00:00:00 UTC) * and returns a timestamp. * * @example * ```typescript * // Interpret the 'seconds' field as seconds since epoch. * unixSecondsToTimestamp("seconds"); * ``` * * @param fieldName - The name of the field representing the number of seconds since epoch. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the timestamp. */ export declare function unixSecondsToTimestamp(fieldName: string): FunctionExpression; /** * @beta * Represents the specific options available for configuring an `UnnestStage` within a pipeline. */ export declare type UnnestStageOptions = StageOptions & { /** * @beta * A `Selectable` object that defines an array expression to be un-nested * and the alias for the un-nested field. */ selectable: Selectable; /** * @beta * If set, specifies the field on the output documents that will contain the * offset (starting at zero) that the element is from the original array. */ indexField?: string; }; /** * An untyped Firestore Data Converter interface that is shared between the * lite, firestore-exp and classic SDK. */ declare interface UntypedFirestoreDataConverter<AppModelType, DbModelType extends DocumentData_2 = DocumentData_2> { toFirestore(modelObject: WithFieldValue<AppModelType>): WithFieldValue<DbModelType>; toFirestore(modelObject: PartialWithFieldValue<AppModelType>, options: SetOptions_2): PartialWithFieldValue<DbModelType>; fromFirestore(snapshot: unknown, options?: unknown): AppModelType; } /** * @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 interface UserData { _readUserData(context: ParseContext): void; } /** * Helper for parsing raw user input (provided via the API) into internal model * classes. */ declare class UserDataReader { private readonly databaseId; private readonly ignoreUndefinedProperties; private readonly serializer; constructor(databaseId: DatabaseId, ignoreUndefinedProperties: boolean, serializer?: JsonProtoSerializer); /** Creates a new top-level parse context. */ createContext(dataSource: UserDataSource, methodName: string, targetDoc?: DocumentKey, hasConverter?: boolean): ParseContextImpl; } declare const enum UserDataSource { Set = 0, Update = 1, MergeSet = 2, /** * Indicates the source is a where clause, cursor bound, arrayUnion() * element, etc. Of note, isWrite(source) will return false. */ Argument = 3, /** * Indicates that the source is an Argument that may directly contain nested * arrays (e.g. the operand of an `in` query). */ ArrayArgument = 4 } declare type Value = firestoreV1ApiClientInterfaces.Value; declare type ValueNullValue = 'NULL_VALUE'; /** * @beta * * Creates an expression that calculates the length of a Firestore Vector. * * @example * ```typescript * // Get the vector length (dimension) of the field 'embedding'. * vectorLength(field("embedding")); * ``` * * @param vectorExpression - The expression representing the Firestore Vector. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the array. */ export declare function vectorLength(vectorExpression: Expression): FunctionExpression; /** * @beta * * Creates an expression that calculates the length of a Firestore Vector represented by a field. * * @example * ```typescript * // Get the vector length (dimension) of the field 'embedding'. * vectorLength("embedding"); * ``` * * @param fieldName - The name of the field representing the Firestore Vector. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the length of the array. */ export declare function vectorLength(fieldName: string): FunctionExpression; /** * Represents a vector type in Firestore documents. * Create an instance with <code>{@link vector}</code>. */ export declare class VectorValue { private readonly _values; /* Excluded from this release type: __constructor */ /** * Returns a copy of the raw number array form of the vector. */ toArray(): number[]; /** * Returns `true` if the two `VectorValue` values have the same raw number arrays, returns `false` otherwise. */ isEqual(other: VectorValue): boolean; static _jsonSchemaVersion: string; static _jsonSchema: { type: Property<"string">; vectorValues: Property<"object">; }; /** * Returns a JSON-serializable representation of this `VectorValue` instance. * * @returns a JSON representation of this object. */ toJSON(): object; /** * Builds a `VectorValue` instance from a JSON object created by {@link VectorValue.toJSON}. * * @param json - a JSON object represention of a `VectorValue` instance. * @returns an instance of {@link VectorValue} if the JSON object could be parsed. Throws a * {@link FirestoreError} if an error occurs. */ static fromJSON(json: object): VectorValue; } declare class ViewSnapshot { readonly query: Query_2; readonly docs: DocumentSet; readonly oldDocs: DocumentSet; readonly docChanges: DocumentViewChange[]; readonly mutatedKeys: DocumentKeySet; readonly fromCache: boolean; readonly syncStateChanged: boolean; readonly excludesMetadataChanges: boolean; readonly hasCachedResults: boolean; constructor(query: Query_2, docs: DocumentSet, oldDocs: DocumentSet, docChanges: DocumentViewChange[], mutatedKeys: DocumentKeySet, fromCache: boolean, syncStateChanged: boolean, excludesMetadataChanges: boolean, hasCachedResults: boolean); /** Returns a view snapshot as if all documents in the snapshot were added. */ static fromInitialDocuments(query: Query_2, documents: DocumentSet, mutatedKeys: DocumentKeySet, fromCache: boolean, hasCachedResults: boolean): ViewSnapshot; get hasPendingWrites(): boolean; isEqual(other: ViewSnapshot): boolean; } /** * @beta * Options defining how a WhereStage is evaluated. See {@link @firebase/firestore/pipelines#Pipeline.(where:1)}. */ export declare type WhereStageOptions = StageOptions & { /** * @beta * The {@link @firebase/firestore/pipelines#BooleanExpression} to apply as a filter for each input document to this stage. */ condition: BooleanExpression; }; /** * Allows FieldValues to be passed in as a property value while maintaining * type safety. */ export declare type WithFieldValue<T> = T | (T extends Primitive ? T : T extends {} ? { [K in keyof T]: WithFieldValue<T[K]> | FieldValue; } : never); /** * @beta * * Creates an expression that performs a logical 'XOR' (exclusive OR) operation on multiple BooleanExpressions. * * @example * ```typescript * // Check if only one of the conditions is true: 'age' greater than 18, 'city' is "London", * // or 'status' is "active". * const condition = xor( * greaterThan("age", 18), * equal("city", "London"), * equal("status", "active")); * ``` * * @param first - The first condition. * @param second - The second condition. * @param additionalConditions - Additional conditions to 'XOR' together. * @returns A new {@link @firebase/firestore/pipelines#Expression} representing the logical 'XOR' operation. */ export declare function xor(first: BooleanExpression, second: BooleanExpression, ...additionalConditions: BooleanExpression[]): BooleanExpression; export { }
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