diff --git "a/backend/node_modules/@prisma/client/runtime/client.d.ts" "b/backend/node_modules/@prisma/client/runtime/client.d.ts" new file mode 100644--- /dev/null +++ "b/backend/node_modules/@prisma/client/runtime/client.d.ts" @@ -0,0 +1,3982 @@ +/** + * @param this + */ +declare function $extends(this: Client, extension: ExtensionArgs | ((client: Client) => Client)): Client; + +declare type AccelerateEngineConfig = { + inlineSchema: EngineConfig['inlineSchema']; + inlineSchemaHash: EngineConfig['inlineSchemaHash']; + env: EngineConfig['env']; + generator?: { + previewFeatures: string[]; + }; + inlineDatasources: EngineConfig['inlineDatasources']; + overrideDatasources: EngineConfig['overrideDatasources']; + clientVersion: EngineConfig['clientVersion']; + engineVersion: EngineConfig['engineVersion']; + logEmitter: EngineConfig['logEmitter']; + logQueries?: EngineConfig['logQueries']; + logLevel?: EngineConfig['logLevel']; + tracingHelper: EngineConfig['tracingHelper']; + accelerateUtils?: AccelerateUtils; +}; + +/** + * A stripped down interface of `fetch` that `@prisma/extension-accelerate` + * relies on. It must be in sync with the corresponding definition in the + * Accelerate extension. + * + * This is the actual interface exposed by the extension. We can't use the + * custom fetch function provided by it as normal fetch because the API is + * different. Notably, `headers` must be an object and not a `Headers` + * instance, and `url` must be a `string` and not a `URL`. + * + * The return type is `Response` but we can't specify this in an exported type + * because it would end up referencing external types from `@types/node` or DOM + * which can fail typechecking depending on TypeScript configuration in a user's + * project. + */ +declare type AccelerateExtensionFetch = (url: string, options: { + body?: string; + method?: string; + headers: Record; +}) => Promise; + +declare type AccelerateExtensionFetchDecorator = (fetch: AccelerateExtensionFetch) => AccelerateExtensionFetch; + +declare type AccelerateUtils = EngineConfig['accelerateUtils']; + +export declare type Action = keyof typeof DMMF_2.ModelAction | 'executeRaw' | 'queryRaw' | 'runCommandRaw'; + +declare type ActiveConnectorType = Exclude; + +/** + * An interface that exposes some basic information about the + * adapter like its name and provider type. + */ +declare interface AdapterInfo { + readonly provider: Provider; + readonly adapterName: (typeof officialPrismaAdapters)[number] | (string & {}); +} + +export declare type Aggregate = '_count' | '_max' | '_min' | '_avg' | '_sum'; + +export declare type AllModelsToStringIndex, K extends PropertyKey> = Args extends { + [P in K]: { + $allModels: infer AllModels; + }; +} ? { + [P in K]: Record; +} : {}; + +declare class AnyNull extends NullTypesEnumValue { + #private; +} + +export declare type ApplyOmit = Compute<{ + [K in keyof T as OmitValue extends true ? never : K]: T[K]; +}>; + +export declare type Args = T extends { + [K: symbol]: { + types: { + operations: { + [K in F]: { + args: any; + }; + }; + }; + }; +} ? T[symbol]['types']['operations'][F]['args'] : any; + +export declare type Args_3 = Args; + +declare type ArgScalarType = 'string' | 'int' | 'bigint' | 'float' | 'decimal' | 'boolean' | 'enum' | 'uuid' | 'json' | 'datetime' | 'bytes' | 'unknown'; + +declare type ArgType = { + scalarType: ArgScalarType; + dbType?: string; + arity: Arity; +}; + +declare type Arity = 'scalar' | 'list'; + +/** + * Attributes is a map from string to attribute values. + * + * Note: only the own enumerable keys are counted as valid attribute keys. + */ +declare interface Attributes { + [attributeKey: string]: AttributeValue | undefined; +} + +/** + * Attribute values may be any non-nullish primitive value except an object. + * + * null or undefined attribute values are invalid and will result in undefined behavior. + */ +declare type AttributeValue = string | number | boolean | Array | Array | Array; + +export declare type BaseDMMF = { + readonly datamodel: Omit; +}; + +declare type BatchArgs = { + queries: BatchQuery[]; + transaction?: { + isolationLevel?: IsolationLevel_2; + }; +}; + +declare type BatchInternalParams = { + requests: RequestParams[]; + customDataProxyFetch?: AccelerateExtensionFetchDecorator; +}; + +declare type BatchQuery = { + model: string | undefined; + operation: string; + args: JsArgs | RawQueryArgs; +}; + +declare type BatchQueryEngineResult = QueryEngineResultData | Error; + +declare type BatchQueryOptionsCb = (args: BatchQueryOptionsCbArgs) => Promise; + +declare type BatchQueryOptionsCbArgs = { + args: BatchArgs; + query: (args: BatchArgs, __internalParams?: BatchInternalParams) => Promise; + __internalParams: BatchInternalParams; +}; + +declare type BatchResponse = MultiBatchResponse | CompactedBatchResponse; + +declare type BatchTransactionOptions = { + isolationLevel?: Transaction_2.IsolationLevel; +}; + +declare interface BinaryTargetsEnvValue { + fromEnvVar: string | null; + value: string; + native?: boolean; +} + +/** + * Equivalent to `Uint8Array` before TypeScript 5.7, and `Uint8Array` in TypeScript 5.7 and beyond. + */ +export declare type Bytes = ReturnType; + +export declare type Call = (F & { + params: P; +})['returns']; + +declare interface CallSite { + getLocation(): LocationInFile | null; +} + +export declare type Cast = A extends W ? A : W; + +declare type Client = ReturnType extends new () => infer T ? T : never; + +export declare type ClientArg = { + [MethodName in string]: unknown; +}; + +export declare type ClientArgs = { + client: ClientArg; +}; + +export declare type ClientBuiltInProp = keyof DynamicClientExtensionThisBuiltin; + +export declare type ClientOptionDef = undefined | { + [K in string]: any; +}; + +export declare type ClientOtherOps = { + $queryRaw(query: TemplateStringsArray | Sql, ...values: any[]): PrismaPromise; + $queryRawTyped(query: TypedSql): PrismaPromise; + $queryRawUnsafe(query: string, ...values: any[]): PrismaPromise; + $executeRaw(query: TemplateStringsArray | Sql, ...values: any[]): PrismaPromise; + $executeRawUnsafe(query: string, ...values: any[]): PrismaPromise; + $runCommandRaw(command: InputJsonObject): PrismaPromise; +}; + +declare type ColumnType = (typeof ColumnTypeEnum)[keyof typeof ColumnTypeEnum]; + +declare const ColumnTypeEnum: { + readonly Int32: 0; + readonly Int64: 1; + readonly Float: 2; + readonly Double: 3; + readonly Numeric: 4; + readonly Boolean: 5; + readonly Character: 6; + readonly Text: 7; + readonly Date: 8; + readonly Time: 9; + readonly DateTime: 10; + readonly Json: 11; + readonly Enum: 12; + readonly Bytes: 13; + readonly Set: 14; + readonly Uuid: 15; + readonly Int32Array: 64; + readonly Int64Array: 65; + readonly FloatArray: 66; + readonly DoubleArray: 67; + readonly NumericArray: 68; + readonly BooleanArray: 69; + readonly CharacterArray: 70; + readonly TextArray: 71; + readonly DateArray: 72; + readonly TimeArray: 73; + readonly DateTimeArray: 74; + readonly JsonArray: 75; + readonly EnumArray: 76; + readonly BytesArray: 77; + readonly UuidArray: 78; + readonly UnknownNumber: 128; +}; + +declare type CompactedBatchResponse = { + type: 'compacted'; + plan: QueryPlanNode; + arguments: Record[]; + nestedSelection: string[]; + keys: string[]; + expectNonEmpty: boolean; +}; + +declare type CompilerWasmLoadingConfig = { + /** + * WASM-bindgen runtime for corresponding module + */ + getRuntime: () => Promise<{ + __wbg_set_wasm(exports: unknown): void; + QueryCompiler: QueryCompilerConstructor; + }>; + /** + * Loads the raw wasm module for the wasm compiler engine. This configuration is + * generated specifically for each type of client, eg. Node.js client and Edge + * clients will have different implementations. + * @remarks this is a callback on purpose, we only load the wasm if needed. + * @remarks only used by ClientEngine + */ + getQueryCompilerWasmModule: () => Promise; +}; + +export declare type Compute = T extends Function ? T : { + [K in keyof T]: T[K]; +} & unknown; + +export declare type ComputeDeep = T extends Function ? T : { + [K in keyof T]: ComputeDeep; +} & unknown; + +declare type ComputedField = { + name: string; + needs: string[]; + compute: ResultArgsFieldCompute; +}; + +declare type ComputedFieldsMap = { + [fieldName: string]: ComputedField; +}; + +declare type ConnectionInfo = { + schemaName?: string; + maxBindValues?: number; + supportsRelationJoins: boolean; +}; + +declare type ConnectorType = 'mysql' | 'mongodb' | 'sqlite' | 'postgresql' | 'postgres' | 'prisma+postgres' | 'sqlserver' | 'cockroachdb'; + +declare interface Context { + /** + * Get a value from the context. + * + * @param key key which identifies a context value + */ + getValue(key: symbol): unknown; + /** + * Create a new context which inherits from this context and has + * the given key set to the given value. + * + * @param key context key for which to set the value + * @param value value to set for the given key + */ + setValue(key: symbol, value: unknown): Context; + /** + * Return a new context which inherits from this context but does + * not contain a value for the given key. + * + * @param key context key for which to clear a value + */ + deleteValue(key: symbol): Context; +} + +declare type Context_2 = T extends { + [K: symbol]: { + ctx: infer C; + }; +} ? C & T & { + /** + * @deprecated Use `$name` instead. + */ + name?: string; + $name?: string; + $parent?: unknown; +} : T & { + /** + * @deprecated Use `$name` instead. + */ + name?: string; + $name?: string; + $parent?: unknown; +}; + +export declare type Count = { + [K in keyof O]: Count; +} & {}; + +export declare function createParam(name: string): Param; + +declare class DataLoader { + private options; + batches: { + [key: string]: Job[]; + }; + private tickActive; + constructor(options: DataLoaderOptions); + request(request: T): Promise; + private dispatchBatches; + get [Symbol.toStringTag](): string; +} + +declare type DataLoaderOptions = { + singleLoader: (request: T) => Promise; + batchLoader: (request: T[]) => Promise; + batchBy: (request: T) => string | undefined; + batchOrder: (requestA: T, requestB: T) => number; +}; + +declare type Datamodel = ReadonlyDeep_2<{ + models: Model[]; + enums: DatamodelEnum[]; + types: Model[]; + indexes: Index[]; +}>; + +declare type DatamodelEnum = ReadonlyDeep_2<{ + name: string; + values: EnumValue[]; + dbName?: string | null; + documentation?: string; +}>; + +declare function datamodelEnumToSchemaEnum(datamodelEnum: DatamodelEnum): SchemaEnum; + +declare type DataRule = { + type: 'rowCountEq'; + args: number; +} | { + type: 'rowCountNeq'; + args: number; +} | { + type: 'affectedRowCountEq'; + args: number; +} | { + type: 'never'; +}; + +declare type Datasource = { + url?: string; +}; + +declare type Datasources = { + [name in string]: Datasource; +}; + +declare class DbNull extends NullTypesEnumValue { + #private; +} + +export declare const Debug: typeof debugCreate & { + enable(namespace: any): void; + disable(): any; + enabled(namespace: string): boolean; + log: (...args: string[]) => void; + formatters: {}; +}; + +/** + * Create a new debug instance with the given namespace. + * + * @example + * ```ts + * import Debug from '@prisma/debug' + * const debug = Debug('prisma:client') + * debug('Hello World') + * ``` + */ +declare function debugCreate(namespace: string): ((...args: any[]) => void) & { + color: string; + enabled: boolean; + namespace: string; + log: (...args: string[]) => void; + extend: () => void; +}; + +export declare function Decimal(n: Decimal.Value): Decimal; + +export declare namespace Decimal { + export type Constructor = typeof Decimal; + export type Instance = Decimal; + export type Rounding = 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8; + export type Modulo = Rounding | 9; + export type Value = string | number | Decimal; + + // http://mikemcl.github.io/decimal.js/#constructor-properties + export interface Config { + precision?: number; + rounding?: Rounding; + toExpNeg?: number; + toExpPos?: number; + minE?: number; + maxE?: number; + crypto?: boolean; + modulo?: Modulo; + defaults?: boolean; + } +} + +export declare class Decimal { + readonly d: number[]; + readonly e: number; + readonly s: number; + + constructor(n: Decimal.Value); + + absoluteValue(): Decimal; + abs(): Decimal; + + ceil(): Decimal; + + clampedTo(min: Decimal.Value, max: Decimal.Value): Decimal; + clamp(min: Decimal.Value, max: Decimal.Value): Decimal; + + comparedTo(n: Decimal.Value): number; + cmp(n: Decimal.Value): number; + + cosine(): Decimal; + cos(): Decimal; + + cubeRoot(): Decimal; + cbrt(): Decimal; + + decimalPlaces(): number; + dp(): number; + + dividedBy(n: Decimal.Value): Decimal; + div(n: Decimal.Value): Decimal; + + dividedToIntegerBy(n: Decimal.Value): Decimal; + divToInt(n: Decimal.Value): Decimal; + + equals(n: Decimal.Value): boolean; + eq(n: Decimal.Value): boolean; + + floor(): Decimal; + + greaterThan(n: Decimal.Value): boolean; + gt(n: Decimal.Value): boolean; + + greaterThanOrEqualTo(n: Decimal.Value): boolean; + gte(n: Decimal.Value): boolean; + + hyperbolicCosine(): Decimal; + cosh(): Decimal; + + hyperbolicSine(): Decimal; + sinh(): Decimal; + + hyperbolicTangent(): Decimal; + tanh(): Decimal; + + inverseCosine(): Decimal; + acos(): Decimal; + + inverseHyperbolicCosine(): Decimal; + acosh(): Decimal; + + inverseHyperbolicSine(): Decimal; + asinh(): Decimal; + + inverseHyperbolicTangent(): Decimal; + atanh(): Decimal; + + inverseSine(): Decimal; + asin(): Decimal; + + inverseTangent(): Decimal; + atan(): Decimal; + + isFinite(): boolean; + + isInteger(): boolean; + isInt(): boolean; + + isNaN(): boolean; + + isNegative(): boolean; + isNeg(): boolean; + + isPositive(): boolean; + isPos(): boolean; + + isZero(): boolean; + + lessThan(n: Decimal.Value): boolean; + lt(n: Decimal.Value): boolean; + + lessThanOrEqualTo(n: Decimal.Value): boolean; + lte(n: Decimal.Value): boolean; + + logarithm(n?: Decimal.Value): Decimal; + log(n?: Decimal.Value): Decimal; + + minus(n: Decimal.Value): Decimal; + sub(n: Decimal.Value): Decimal; + + modulo(n: Decimal.Value): Decimal; + mod(n: Decimal.Value): Decimal; + + naturalExponential(): Decimal; + exp(): Decimal; + + naturalLogarithm(): Decimal; + ln(): Decimal; + + negated(): Decimal; + neg(): Decimal; + + plus(n: Decimal.Value): Decimal; + add(n: Decimal.Value): Decimal; + + precision(includeZeros?: boolean): number; + sd(includeZeros?: boolean): number; + + round(): Decimal; + + sine() : Decimal; + sin() : Decimal; + + squareRoot(): Decimal; + sqrt(): Decimal; + + tangent() : Decimal; + tan() : Decimal; + + times(n: Decimal.Value): Decimal; + mul(n: Decimal.Value) : Decimal; + + toBinary(significantDigits?: number): string; + toBinary(significantDigits: number, rounding: Decimal.Rounding): string; + + toDecimalPlaces(decimalPlaces?: number): Decimal; + toDecimalPlaces(decimalPlaces: number, rounding: Decimal.Rounding): Decimal; + toDP(decimalPlaces?: number): Decimal; + toDP(decimalPlaces: number, rounding: Decimal.Rounding): Decimal; + + toExponential(decimalPlaces?: number): string; + toExponential(decimalPlaces: number, rounding: Decimal.Rounding): string; + + toFixed(decimalPlaces?: number): string; + toFixed(decimalPlaces: number, rounding: Decimal.Rounding): string; + + toFraction(max_denominator?: Decimal.Value): Decimal[]; + + toHexadecimal(significantDigits?: number): string; + toHexadecimal(significantDigits: number, rounding: Decimal.Rounding): string; + toHex(significantDigits?: number): string; + toHex(significantDigits: number, rounding?: Decimal.Rounding): string; + + toJSON(): string; + + toNearest(n: Decimal.Value, rounding?: Decimal.Rounding): Decimal; + + toNumber(): number; + + toOctal(significantDigits?: number): string; + toOctal(significantDigits: number, rounding: Decimal.Rounding): string; + + toPower(n: Decimal.Value): Decimal; + pow(n: Decimal.Value): Decimal; + + toPrecision(significantDigits?: number): string; + toPrecision(significantDigits: number, rounding: Decimal.Rounding): string; + + toSignificantDigits(significantDigits?: number): Decimal; + toSignificantDigits(significantDigits: number, rounding: Decimal.Rounding): Decimal; + toSD(significantDigits?: number): Decimal; + toSD(significantDigits: number, rounding: Decimal.Rounding): Decimal; + + toString(): string; + + truncated(): Decimal; + trunc(): Decimal; + + valueOf(): string; + + static abs(n: Decimal.Value): Decimal; + static acos(n: Decimal.Value): Decimal; + static acosh(n: Decimal.Value): Decimal; + static add(x: Decimal.Value, y: Decimal.Value): Decimal; + static asin(n: Decimal.Value): Decimal; + static asinh(n: Decimal.Value): Decimal; + static atan(n: Decimal.Value): Decimal; + static atanh(n: Decimal.Value): Decimal; + static atan2(y: Decimal.Value, x: Decimal.Value): Decimal; + static cbrt(n: Decimal.Value): Decimal; + static ceil(n: Decimal.Value): Decimal; + static clamp(n: Decimal.Value, min: Decimal.Value, max: Decimal.Value): Decimal; + static clone(object?: Decimal.Config): Decimal.Constructor; + static config(object: Decimal.Config): Decimal.Constructor; + static cos(n: Decimal.Value): Decimal; + static cosh(n: Decimal.Value): Decimal; + static div(x: Decimal.Value, y: Decimal.Value): Decimal; + static exp(n: Decimal.Value): Decimal; + static floor(n: Decimal.Value): Decimal; + static hypot(...n: Decimal.Value[]): Decimal; + static isDecimal(object: any): object is Decimal; + static ln(n: Decimal.Value): Decimal; + static log(n: Decimal.Value, base?: Decimal.Value): Decimal; + static log2(n: Decimal.Value): Decimal; + static log10(n: Decimal.Value): Decimal; + static max(...n: Decimal.Value[]): Decimal; + static min(...n: Decimal.Value[]): Decimal; + static mod(x: Decimal.Value, y: Decimal.Value): Decimal; + static mul(x: Decimal.Value, y: Decimal.Value): Decimal; + static noConflict(): Decimal.Constructor; // Browser only + static pow(base: Decimal.Value, exponent: Decimal.Value): Decimal; + static random(significantDigits?: number): Decimal; + static round(n: Decimal.Value): Decimal; + static set(object: Decimal.Config): Decimal.Constructor; + static sign(n: Decimal.Value): number; + static sin(n: Decimal.Value): Decimal; + static sinh(n: Decimal.Value): Decimal; + static sqrt(n: Decimal.Value): Decimal; + static sub(x: Decimal.Value, y: Decimal.Value): Decimal; + static sum(...n: Decimal.Value[]): Decimal; + static tan(n: Decimal.Value): Decimal; + static tanh(n: Decimal.Value): Decimal; + static trunc(n: Decimal.Value): Decimal; + + static readonly default?: Decimal.Constructor; + static readonly Decimal?: Decimal.Constructor; + + static readonly precision: number; + static readonly rounding: Decimal.Rounding; + static readonly toExpNeg: number; + static readonly toExpPos: number; + static readonly minE: number; + static readonly maxE: number; + static readonly crypto: boolean; + static readonly modulo: Decimal.Modulo; + + static readonly ROUND_UP: 0; + static readonly ROUND_DOWN: 1; + static readonly ROUND_CEIL: 2; + static readonly ROUND_FLOOR: 3; + static readonly ROUND_HALF_UP: 4; + static readonly ROUND_HALF_DOWN: 5; + static readonly ROUND_HALF_EVEN: 6; + static readonly ROUND_HALF_CEIL: 7; + static readonly ROUND_HALF_FLOOR: 8; + static readonly EUCLID: 9; +} + +/** + * Interface for any Decimal.js-like library + * Allows us to accept Decimal.js from different + * versions and some compatible alternatives + */ +export declare interface DecimalJsLike { + d: number[]; + e: number; + s: number; + toFixed(): string; +} + +export declare type DefaultArgs = InternalArgs<{}, {}, {}, {}>; + +export declare type DefaultSelection = Args extends { + omit: infer LocalOmit; +} ? ApplyOmit['default'], PatchFlat>>> : ApplyOmit['default'], ExtractGlobalOmit>>; + +export declare function defineDmmfProperty(target: object, runtimeDataModel: RuntimeDataModel): void; + +declare function defineExtension(ext: ExtensionArgs | ((client: Client) => Client)): (client: Client) => Client; + +declare const denylist: readonly ["$connect", "$disconnect", "$on", "$transaction", "$extends"]; + +declare type Deprecation = ReadonlyDeep_2<{ + sinceVersion: string; + reason: string; + plannedRemovalVersion?: string; +}>; + +declare type DeserializedResponse = Array>; + +export declare function deserializeJsonResponse(result: unknown): unknown; + +export declare function deserializeRawResult(response: RawResponse): DeserializedResponse; + +export declare type DevTypeMapDef = { + meta: { + modelProps: string; + }; + model: { + [Model in PropertyKey]: { + [Operation in PropertyKey]: DevTypeMapFnDef; + }; + }; + other: { + [Operation in PropertyKey]: DevTypeMapFnDef; + }; +}; + +export declare type DevTypeMapFnDef = { + args: any; + result: any; + payload: OperationPayload; +}; + +export declare namespace DMMF { + export { + datamodelEnumToSchemaEnum, + Document_2 as Document, + Mappings, + OtherOperationMappings, + DatamodelEnum, + SchemaEnum, + EnumValue, + Datamodel, + uniqueIndex, + PrimaryKey, + Model, + FieldKind, + FieldNamespace, + FieldLocation, + Field, + FieldDefault, + FieldDefaultScalar, + Index, + IndexType, + IndexField, + SortOrder, + Schema, + Query, + QueryOutput, + TypeRef, + InputTypeRef, + SchemaArg, + OutputType, + SchemaField, + OutputTypeRef, + Deprecation, + InputType, + FieldRefType, + FieldRefAllowType, + ModelMapping, + ModelAction + } +} + +declare namespace DMMF_2 { + export { + datamodelEnumToSchemaEnum, + Document_2 as Document, + Mappings, + OtherOperationMappings, + DatamodelEnum, + SchemaEnum, + EnumValue, + Datamodel, + uniqueIndex, + PrimaryKey, + Model, + FieldKind, + FieldNamespace, + FieldLocation, + Field, + FieldDefault, + FieldDefaultScalar, + Index, + IndexType, + IndexField, + SortOrder, + Schema, + Query, + QueryOutput, + TypeRef, + InputTypeRef, + SchemaArg, + OutputType, + SchemaField, + OutputTypeRef, + Deprecation, + InputType, + FieldRefType, + FieldRefAllowType, + ModelMapping, + ModelAction + } +} + +export declare function dmmfToRuntimeDataModel(dmmfDataModel: DMMF_2.Datamodel): RuntimeDataModel; + +declare type Document_2 = ReadonlyDeep_2<{ + datamodel: Datamodel; + schema: Schema; + mappings: Mappings; +}>; + +/** + * A generic driver adapter factory that allows the user to instantiate a + * driver adapter. The query and result types are specific to the adapter. + */ +declare interface DriverAdapterFactory extends AdapterInfo { + /** + * Instantiate a driver adapter. + */ + connect(): Promise>; +} + +declare type DynamicArgType = ArgType | { + arity: 'tuple'; + elements: ArgType[]; +}; + +/** Client */ +export declare type DynamicClientExtensionArgs> = { + [P in keyof C_]: unknown; +} & { + [K: symbol]: { + ctx: Optional, ITXClientDenyList> & { + $parent: Optional, ITXClientDenyList>; + }; + }; +}; + +export declare type DynamicClientExtensionThis> = { + [P in keyof ExtArgs['client']]: Return; +} & { + [P in Exclude]: DynamicModelExtensionThis, ExtArgs>; +} & { + [P in Exclude]: P extends keyof ClientOtherOps ? ClientOtherOps[P] : never; +} & { + [P in Exclude]: DynamicClientExtensionThisBuiltin[P]; +} & { + [K: symbol]: { + types: TypeMap['other']; + }; +}; + +export declare type DynamicClientExtensionThisBuiltin> = { + $extends: ExtendsHook<'extends', TypeMapCb, ExtArgs, Call>; + $transaction

[]>(arg: [...P], options?: { + isolationLevel?: TypeMap['meta']['txIsolationLevel']; + }): Promise>; + $transaction(fn: (client: Omit, ITXClientDenyList>) => Promise, options?: { + maxWait?: number; + timeout?: number; + isolationLevel?: TypeMap['meta']['txIsolationLevel']; + }): Promise; + $disconnect(): Promise; + $connect(): Promise; +}; + +/** Model */ +export declare type DynamicModelExtensionArgs> = { + [K in keyof M_]: K extends '$allModels' ? { + [P in keyof M_[K]]?: unknown; + } & { + [K: symbol]: {}; + } : K extends TypeMap['meta']['modelProps'] ? { + [P in keyof M_[K]]?: unknown; + } & { + [K: symbol]: { + ctx: DynamicModelExtensionThis, ExtArgs> & { + $parent: DynamicClientExtensionThis; + } & { + $name: ModelKey; + } & { + /** + * @deprecated Use `$name` instead. + */ + name: ModelKey; + }; + }; + } : never; +}; + +export declare type DynamicModelExtensionFluentApi = { + [K in keyof TypeMap['model'][M]['payload']['objects']]: (args?: Exact>) => PrismaPromise, [K]> | Null> & DynamicModelExtensionFluentApi>; +}; + +export declare type DynamicModelExtensionFnResult = P extends FluentOperation ? DynamicModelExtensionFluentApi & PrismaPromise | Null> : PrismaPromise>; + +export declare type DynamicModelExtensionFnResultBase = GetResult; + +export declare type DynamicModelExtensionFnResultNull

= P extends 'findUnique' | 'findFirst' ? null : never; + +export declare type DynamicModelExtensionOperationFn = {} extends TypeMap['model'][M]['operations'][P]['args'] ? (args?: Exact) => DynamicModelExtensionFnResult> : (args: Exact) => DynamicModelExtensionFnResult>; + +export declare type DynamicModelExtensionThis> = { + [P in keyof ExtArgs['model'][Uncapitalize]]: Return][P]>; +} & { + [P in Exclude]>]: DynamicModelExtensionOperationFn; +} & { + [P in Exclude<'fields', keyof ExtArgs['model'][Uncapitalize]>]: TypeMap['model'][M]['fields']; +} & { + [K: symbol]: { + types: TypeMap['model'][M]; + }; +}; + +/** Query */ +export declare type DynamicQueryExtensionArgs = { + [K in keyof Q_]: K extends '$allOperations' ? (args: { + model?: string; + operation: string; + args: any; + query: (args: any) => PrismaPromise; + }) => Promise : K extends '$allModels' ? { + [P in keyof Q_[K] | keyof TypeMap['model'][keyof TypeMap['model']]['operations'] | '$allOperations']?: P extends '$allOperations' ? DynamicQueryExtensionCb : P extends keyof TypeMap['model'][keyof TypeMap['model']]['operations'] ? DynamicQueryExtensionCb : never; + } : K extends TypeMap['meta']['modelProps'] ? { + [P in keyof Q_[K] | keyof TypeMap['model'][ModelKey]['operations'] | '$allOperations']?: P extends '$allOperations' ? DynamicQueryExtensionCb, keyof TypeMap['model'][ModelKey]['operations']> : P extends keyof TypeMap['model'][ModelKey]['operations'] ? DynamicQueryExtensionCb, P> : never; + } : K extends keyof TypeMap['other']['operations'] ? DynamicQueryExtensionCb<[TypeMap], 0, 'other', K> : never; +}; + +export declare type DynamicQueryExtensionCb = >(args: A) => Promise; + +export declare type DynamicQueryExtensionCbArgs = (_1 extends unknown ? _2 extends unknown ? { + args: DynamicQueryExtensionCbArgsArgs; + model: _0 extends 0 ? undefined : _1; + operation: _2; + query: >(args: A) => PrismaPromise; +} : never : never) & { + query: (args: DynamicQueryExtensionCbArgsArgs) => PrismaPromise; +}; + +export declare type DynamicQueryExtensionCbArgsArgs = _2 extends '$queryRaw' | '$executeRaw' ? Sql : TypeMap[_0][_1]['operations'][_2]['args']; + +/** Result */ +export declare type DynamicResultExtensionArgs = { + [K in keyof R_]: { + [P in keyof R_[K]]?: { + needs?: DynamicResultExtensionNeeds, R_[K][P]>; + compute(data: DynamicResultExtensionData, R_[K][P]>): any; + }; + }; +}; + +export declare type DynamicResultExtensionData = GetFindResult; + +export declare type DynamicResultExtensionNeeds = { + [K in keyof S]: K extends keyof TypeMap['model'][M]['payload']['scalars'] ? S[K] : never; +} & { + [N in keyof TypeMap['model'][M]['payload']['scalars']]?: boolean; +}; + +/** + * Placeholder value for "no text". + */ +export declare const empty: Sql; + +export declare type EmptyToUnknown = T; + +declare interface Engine { + /** The name of the engine. This is meant to be consumed externally */ + readonly name: string; + onBeforeExit(callback: () => Promise): void; + start(): Promise; + stop(): Promise; + version(forceRun?: boolean): Promise | string; + request(query: JsonQuery, options: RequestOptions): Promise>; + requestBatch(queries: JsonQuery[], options: RequestBatchOptions): Promise[]>; + transaction(action: 'start', headers: Transaction_2.TransactionHeaders, options: Transaction_2.Options): Promise>; + transaction(action: 'commit', headers: Transaction_2.TransactionHeaders, info: Transaction_2.InteractiveTransactionInfo): Promise; + transaction(action: 'rollback', headers: Transaction_2.TransactionHeaders, info: Transaction_2.InteractiveTransactionInfo): Promise; + metrics(options: MetricsOptionsJson): Promise; + metrics(options: MetricsOptionsPrometheus): Promise; + applyPendingMigrations(): Promise; +} + +declare interface EngineConfig { + cwd: string; + dirname: string; + enableDebugLogs?: boolean; + allowTriggerPanic?: boolean; + prismaPath?: string; + generator?: GeneratorConfig; + /** + * @remarks this field is used internally by Policy, do not rename or remove + */ + overrideDatasources: Datasources; + showColors?: boolean; + logQueries?: boolean; + logLevel?: 'info' | 'warn'; + env: Record; + flags?: string[]; + clientVersion: string; + engineVersion: string; + previewFeatures?: string[]; + engineEndpoint?: string; + activeProvider?: string; + logEmitter: LogEmitter; + transactionOptions: Transaction_2.Options; + /** + * Instance of a Driver Adapter, e.g., like one provided by `@prisma/adapter-planetscale`. + * If set, this is only used in the library engine, and all queries would be performed through it, + * rather than Prisma's Rust drivers. + * @remarks only used by LibraryEngine.ts + */ + adapter?: SqlDriverAdapterFactory; + /** + * The contents of the schema encoded into a string + */ + inlineSchema: string; + /** + * The contents of the datasource url saved in a string + * @remarks only used by DataProxyEngine.ts + * @remarks this field is used internally by Policy, do not rename or remove + */ + inlineDatasources: GetPrismaClientConfig['inlineDatasources']; + /** + * The string hash that was produced for a given schema + * @remarks only used by DataProxyEngine.ts + */ + inlineSchemaHash: string; + /** + * The helper for interaction with OTEL tracing + * @remarks enabling is determined by the client and @prisma/instrumentation package + */ + tracingHelper: TracingHelper; + /** + * Information about whether we have not found a schema.prisma file in the + * default location, and that we fell back to finding the schema.prisma file + * in the current working directory. This usually means it has been bundled. + */ + isBundled?: boolean; + /** + * Web Assembly module loading configuration + */ + engineWasm?: EngineWasmLoadingConfig; + compilerWasm?: CompilerWasmLoadingConfig; + /** + * Allows Accelerate to use runtime utilities from the client. These are + * necessary for the AccelerateEngine to function correctly. + */ + accelerateUtils?: { + resolveDatasourceUrl: typeof resolveDatasourceUrl; + getBatchRequestPayload: typeof getBatchRequestPayload; + prismaGraphQLToJSError: typeof prismaGraphQLToJSError; + PrismaClientUnknownRequestError: typeof PrismaClientUnknownRequestError; + PrismaClientInitializationError: typeof PrismaClientInitializationError; + PrismaClientKnownRequestError: typeof PrismaClientKnownRequestError; + debug: (...args: any[]) => void; + engineVersion: string; + clientVersion: string; + }; +} + +declare type EngineEvent = E extends QueryEventType ? QueryEvent : LogEvent; + +declare type EngineEventType = QueryEventType | LogEventType; + +declare type EngineSpan = { + id: EngineSpanId; + parentId: string | null; + name: string; + startTime: HrTime; + endTime: HrTime; + kind: EngineSpanKind; + attributes?: Record; + links?: EngineSpanId[]; +}; + +declare type EngineSpanId = string; + +declare type EngineSpanKind = 'client' | 'internal'; + +declare type EngineWasmLoadingConfig = { + /** + * WASM-bindgen runtime for corresponding module + */ + getRuntime: () => Promise<{ + __wbg_set_wasm(exports: unknown): void; + QueryEngine: QueryEngineConstructor; + }>; + /** + * Loads the raw wasm module for the wasm query engine. This configuration is + * generated specifically for each type of client, eg. Node.js client and Edge + * clients will have different implementations. + * @remarks this is a callback on purpose, we only load the wasm if needed. + * @remarks only used by LibraryEngine + */ + getQueryEngineWasmModule: () => Promise; +}; + +declare type EnumValue = ReadonlyDeep_2<{ + name: string; + dbName: string | null; +}>; + +declare type EnvPaths = { + rootEnvPath: string | null; + schemaEnvPath: string | undefined; +}; + +declare interface EnvValue { + fromEnvVar: null | string; + value: null | string; +} + +export declare type Equals = (() => T extends A ? 1 : 2) extends (() => T extends B ? 1 : 2) ? 1 : 0; + +declare type Error_2 = MappedError & { + originalCode?: string; + originalMessage?: string; +}; + +declare type ErrorCapturingFunction = T extends (...args: infer A) => Promise ? (...args: A) => Promise>> : T extends (...args: infer A) => infer R ? (...args: A) => Result_4> : T; + +declare type ErrorCapturingInterface = { + [K in keyof T]: ErrorCapturingFunction; +}; + +declare interface ErrorCapturingSqlDriverAdapter extends ErrorCapturingInterface { + readonly errorRegistry: ErrorRegistry; +} + +declare type ErrorFormat = 'pretty' | 'colorless' | 'minimal'; + +declare type ErrorRecord = { + error: unknown; +}; + +declare interface ErrorRegistry { + consumeError(id: number): ErrorRecord | undefined; +} + +declare interface ErrorWithBatchIndex { + batchRequestIdx?: number; +} + +declare type EventCallback = [E] extends ['beforeExit'] ? () => Promise : [E] extends [LogLevel] ? (event: EngineEvent) => void : never; + +export declare type Exact = (A extends unknown ? (W extends A ? { + [K in keyof A]: Exact; +} : W) : never) | (A extends Narrowable ? A : never); + +/** + * Defines Exception. + * + * string or an object with one of (message or name or code) and optional stack + */ +declare type Exception = ExceptionWithCode | ExceptionWithMessage | ExceptionWithName | string; + +declare interface ExceptionWithCode { + code: string | number; + name?: string; + message?: string; + stack?: string; +} + +declare interface ExceptionWithMessage { + code?: string | number; + message: string; + name?: string; + stack?: string; +} + +declare interface ExceptionWithName { + code?: string | number; + message?: string; + name: string; + stack?: string; +} + +declare type ExtendedEventType = LogLevel | 'beforeExit'; + +declare type ExtendedSpanOptions = SpanOptions & { + /** The name of the span */ + name: string; + internal?: boolean; + /** Whether it propagates context (?=true) */ + active?: boolean; + /** The context to append the span to */ + context?: Context; +}; + +/** $extends, defineExtension */ +export declare interface ExtendsHook, TypeMap extends TypeMapDef = Call> { + extArgs: ExtArgs; + , MergedArgs extends InternalArgs = MergeExtArgs>(extension: ((client: DynamicClientExtensionThis) => { + $extends: { + extArgs: Args; + }; + }) | { + name?: string; + query?: DynamicQueryExtensionArgs; + result?: DynamicResultExtensionArgs & R; + model?: DynamicModelExtensionArgs & M; + client?: DynamicClientExtensionArgs & C; + }): { + extends: DynamicClientExtensionThis, TypeMapCb, MergedArgs>; + define: (client: any) => { + $extends: { + extArgs: Args; + }; + }; + }[Variant]; +} + +export declare type ExtensionArgs = Optional; + +declare namespace Extensions { + export { + defineExtension, + getExtensionContext + } +} +export { Extensions } + +declare namespace Extensions_2 { + export { + InternalArgs, + DefaultArgs, + GetPayloadResultExtensionKeys, + GetPayloadResultExtensionObject, + GetPayloadResult, + GetSelect, + GetOmit, + DynamicQueryExtensionArgs, + DynamicQueryExtensionCb, + DynamicQueryExtensionCbArgs, + DynamicQueryExtensionCbArgsArgs, + DynamicResultExtensionArgs, + DynamicResultExtensionNeeds, + DynamicResultExtensionData, + DynamicModelExtensionArgs, + DynamicModelExtensionThis, + DynamicModelExtensionOperationFn, + DynamicModelExtensionFnResult, + DynamicModelExtensionFnResultBase, + DynamicModelExtensionFluentApi, + DynamicModelExtensionFnResultNull, + DynamicClientExtensionArgs, + DynamicClientExtensionThis, + ClientBuiltInProp, + DynamicClientExtensionThisBuiltin, + ExtendsHook, + MergeExtArgs, + AllModelsToStringIndex, + TypeMapDef, + DevTypeMapDef, + DevTypeMapFnDef, + ClientOptionDef, + ClientOtherOps, + TypeMapCbDef, + ModelKey, + RequiredExtensionArgs as UserArgs + } +} + +export declare type ExtractGlobalOmit = Options extends { + omit: { + [K in ModelName]: infer GlobalOmit; + }; +} ? GlobalOmit : {}; + +declare type Field = ReadonlyDeep_2<{ + kind: FieldKind; + name: string; + isRequired: boolean; + isList: boolean; + isUnique: boolean; + isId: boolean; + isReadOnly: boolean; + isGenerated?: boolean; + isUpdatedAt?: boolean; + /** + * Describes the data type in the same the way it is defined in the Prisma schema: + * BigInt, Boolean, Bytes, DateTime, Decimal, Float, Int, JSON, String, $ModelName + */ + type: string; + /** + * Native database type, if specified. + * For example, `@db.VarChar(191)` is encoded as `['VarChar', ['191']]`, + * `@db.Text` is encoded as `['Text', []]`. + */ + nativeType?: [string, string[]] | null; + dbName?: string | null; + hasDefaultValue: boolean; + default?: FieldDefault | FieldDefaultScalar | FieldDefaultScalar[]; + relationFromFields?: string[]; + relationToFields?: string[]; + relationOnDelete?: string; + relationOnUpdate?: string; + relationName?: string; + documentation?: string; +}>; + +declare type FieldDefault = ReadonlyDeep_2<{ + name: string; + args: Array; +}>; + +declare type FieldDefaultScalar = string | boolean | number; + +declare type FieldInitializer = { + type: 'value'; + value: PrismaValue; +} | { + type: 'lastInsertId'; +}; + +declare type FieldKind = 'scalar' | 'object' | 'enum' | 'unsupported'; + +declare type FieldLocation = 'scalar' | 'inputObjectTypes' | 'outputObjectTypes' | 'enumTypes' | 'fieldRefTypes'; + +declare type FieldNamespace = 'model' | 'prisma'; + +declare type FieldOperation = { + type: 'set'; + value: PrismaValue; +} | { + type: 'add'; + value: PrismaValue; +} | { + type: 'subtract'; + value: PrismaValue; +} | { + type: 'multiply'; + value: PrismaValue; +} | { + type: 'divide'; + value: PrismaValue; +}; + +/** + * A reference to a specific field of a specific model + */ +export declare interface FieldRef { + readonly modelName: Model; + readonly name: string; + readonly typeName: FieldType; + readonly isList: boolean; +} + +declare type FieldRefAllowType = TypeRef<'scalar' | 'enumTypes'>; + +declare type FieldRefType = ReadonlyDeep_2<{ + name: string; + allowTypes: FieldRefAllowType[]; + fields: SchemaArg[]; +}>; + +declare type FieldScalarType = { + type: 'string' | 'int' | 'bigint' | 'float' | 'boolean' | 'json' | 'object' | 'datetime' | 'decimal' | 'unsupported'; +} | { + type: 'enum'; + name: string; +} | { + type: 'bytes'; + encoding: 'array' | 'base64' | 'hex'; +}; + +declare type FieldType = { + arity: Arity; +} & FieldScalarType; + +declare type FluentOperation = 'findUnique' | 'findUniqueOrThrow' | 'findFirst' | 'findFirstOrThrow' | 'create' | 'update' | 'upsert' | 'delete'; + +export declare interface Fn { + params: Params; + returns: Returns; +} + +declare type Fragment = { + type: 'stringChunk'; + chunk: string; +} | { + type: 'parameter'; +} | { + type: 'parameterTuple'; +} | { + type: 'parameterTupleList'; + itemPrefix: string; + itemSeparator: string; + itemSuffix: string; + groupSeparator: string; +}; + +declare interface GeneratorConfig { + name: string; + output: EnvValue | null; + isCustomOutput?: boolean; + provider: EnvValue; + config: { + /** `output` is a reserved name and will only be available directly at `generator.output` */ + output?: never; + /** `provider` is a reserved name and will only be available directly at `generator.provider` */ + provider?: never; + /** `binaryTargets` is a reserved name and will only be available directly at `generator.binaryTargets` */ + binaryTargets?: never; + /** `previewFeatures` is a reserved name and will only be available directly at `generator.previewFeatures` */ + previewFeatures?: never; + } & { + [key: string]: string | string[] | undefined; + }; + binaryTargets: BinaryTargetsEnvValue[]; + previewFeatures: string[]; + envPaths?: EnvPaths; + sourceFilePath: string; +} + +export declare type GetAggregateResult

= { + [K in keyof A as K extends Aggregate ? K : never]: K extends '_count' ? A[K] extends true ? number : Count : { + [J in keyof A[K] & string]: P['scalars'][J] | null; + }; +}; + +declare function getBatchRequestPayload(batch: JsonQuery[], transaction?: TransactionOptions_2): QueryEngineBatchRequest; + +export declare type GetBatchResult = { + count: number; +}; + +export declare type GetCountResult = A extends { + select: infer S; +} ? (S extends true ? number : Count) : number; + +declare function getExtensionContext(that: T): Context_2; + +export declare type GetFindResult

= Equals extends 1 ? DefaultSelection : A extends { + select: infer S extends object; +} & Record | { + include: infer I extends object; +} & Record ? { + [K in keyof S | keyof I as (S & I)[K] extends false | undefined | Skip | null ? never : K]: (S & I)[K] extends object ? P extends SelectablePayloadFields ? O extends OperationPayload ? GetFindResult[] : never : P extends SelectablePayloadFields ? O extends OperationPayload ? GetFindResult | SelectField & null : never : K extends '_count' ? Count> : never : P extends SelectablePayloadFields ? O extends OperationPayload ? DefaultSelection[] : never : P extends SelectablePayloadFields ? O extends OperationPayload ? DefaultSelection | SelectField & null : never : P extends { + scalars: { + [k in K]: infer O; + }; + } ? O : K extends '_count' ? Count : never; +} & (A extends { + include: any; +} & Record ? DefaultSelection : unknown) : DefaultSelection; + +export declare type GetGroupByResult

= A extends { + by: string[]; +} ? Array & { + [K in A['by'][number]]: P['scalars'][K]; +}> : A extends { + by: string; +} ? Array & { + [K in A['by']]: P['scalars'][K]; +}> : {}[]; + +export declare type GetOmit = { + [K in (string extends keyof R ? never : keyof R) | BaseKeys]?: boolean | ExtraType; +}; + +export declare type GetPayloadResult, R extends InternalArgs['result'][string]> = Omit> & GetPayloadResultExtensionObject; + +export declare type GetPayloadResultExtensionKeys = KR; + +export declare type GetPayloadResultExtensionObject = { + [K in GetPayloadResultExtensionKeys]: R[K] extends () => { + compute: (...args: any) => infer C; + } ? C : never; +}; + +export declare function getPrismaClient(config: GetPrismaClientConfig): { + new (optionsArg?: PrismaClientOptions): { + _originalClient: any; + _runtimeDataModel: RuntimeDataModel; + _requestHandler: RequestHandler; + _connectionPromise?: Promise | undefined; + _disconnectionPromise?: Promise | undefined; + _engineConfig: EngineConfig; + _accelerateEngineConfig: AccelerateEngineConfig; + _clientVersion: string; + _errorFormat: ErrorFormat; + _tracingHelper: TracingHelper; + _previewFeatures: string[]; + _activeProvider: string; + _globalOmit?: GlobalOmitOptions | undefined; + _extensions: MergedExtensionsList; + /** + * @remarks This is used internally by Policy, do not rename or remove + */ + _engine: Engine; + /** + * A fully constructed/applied Client that references the parent + * PrismaClient. This is used for Client extensions only. + */ + _appliedParent: any; + _createPrismaPromise: PrismaPromiseFactory; + $on(eventType: E, callback: EventCallback): any; + $connect(): Promise; + /** + * Disconnect from the database + */ + $disconnect(): Promise; + /** + * Executes a raw query and always returns a number + */ + $executeRawInternal(transaction: PrismaPromiseTransaction | undefined, clientMethod: string, args: RawQueryArgs, middlewareArgsMapper?: MiddlewareArgsMapper): Promise; + /** + * Executes a raw query provided through a safe tag function + * @see https://github.com/prisma/prisma/issues/7142 + * + * @param query + * @param values + * @returns + */ + $executeRaw(query: TemplateStringsArray | Sql, ...values: any[]): PrismaPromise_2; + /** + * Unsafe counterpart of `$executeRaw` that is susceptible to SQL injections + * @see https://github.com/prisma/prisma/issues/7142 + * + * @param query + * @param values + * @returns + */ + $executeRawUnsafe(query: string, ...values: RawValue[]): PrismaPromise_2; + /** + * Executes a raw command only for MongoDB + * + * @param command + * @returns + */ + $runCommandRaw(command: Record): PrismaPromise_2; + /** + * Executes a raw query and returns selected data + */ + $queryRawInternal(transaction: PrismaPromiseTransaction | undefined, clientMethod: string, args: RawQueryArgs, middlewareArgsMapper?: MiddlewareArgsMapper): Promise; + /** + * Executes a raw query provided through a safe tag function + * @see https://github.com/prisma/prisma/issues/7142 + * + * @param query + * @param values + * @returns + */ + $queryRaw(query: TemplateStringsArray | Sql, ...values: any[]): PrismaPromise_2; + /** + * Counterpart to $queryRaw, that returns strongly typed results + * @param typedSql + */ + $queryRawTyped(typedSql: UnknownTypedSql): PrismaPromise_2; + /** + * Unsafe counterpart of `$queryRaw` that is susceptible to SQL injections + * @see https://github.com/prisma/prisma/issues/7142 + * + * @param query + * @param values + * @returns + */ + $queryRawUnsafe(query: string, ...values: RawValue[]): PrismaPromise_2; + /** + * Execute a batch of requests in a transaction + * @param requests + * @param options + */ + _transactionWithArray({ promises, options, }: { + promises: Array>; + options?: BatchTransactionOptions; + }): Promise; + /** + * Perform a long-running transaction + * @param callback + * @param options + * @returns + */ + _transactionWithCallback({ callback, options, }: { + callback: (client: Client) => Promise; + options?: Options; + }): Promise; + _createItxClient(transaction: PrismaPromiseInteractiveTransaction): Client; + /** + * Execute queries within a transaction + * @param input a callback or a query list + * @param options to set timeouts (callback) + * @returns + */ + $transaction(input: any, options?: any): Promise; + /** + * Runs the middlewares over params before executing a request + * @param internalParams + * @returns + */ + _request(internalParams: InternalRequestParams): Promise; + _executeRequest({ args, clientMethod, dataPath, callsite, action, model, argsMapper, transaction, unpacker, otelParentCtx, customDataProxyFetch, }: InternalRequestParams): Promise; + $metrics: MetricsClient; + /** + * Shortcut for checking a preview flag + * @param feature preview flag + * @returns + */ + _hasPreviewFlag(feature: string): boolean; + $applyPendingMigrations(): Promise; + $extends: typeof $extends; + readonly [Symbol.toStringTag]: string; + }; +}; + +/** + * Config that is stored into the generated client. When the generated client is + * loaded, this same config is passed to {@link getPrismaClient} which creates a + * closure with that config around a non-instantiated [[PrismaClient]]. + */ +export declare type GetPrismaClientConfig = { + runtimeDataModel: RuntimeDataModel; + generator?: GeneratorConfig; + relativeEnvPaths?: { + rootEnvPath?: string | null; + schemaEnvPath?: string | null; + }; + relativePath: string; + dirname: string; + clientVersion: string; + engineVersion: string; + datasourceNames: string[]; + activeProvider: ActiveConnectorType; + /** + * The contents of the schema encoded into a string + * @remarks only used for the purpose of data proxy + */ + inlineSchema: string; + /** + * A special env object just for the data proxy edge runtime. + * Allows bundlers to inject their own env variables (Vercel). + * Allows platforms to declare global variables as env (Workers). + * @remarks only used for the purpose of data proxy + */ + injectableEdgeEnv?: () => LoadedEnv; + /** + * The contents of the datasource url saved in a string. + * This can either be an env var name or connection string. + * It is needed by the client to connect to the Data Proxy. + * @remarks only used for the purpose of data proxy + */ + inlineDatasources: { + [name in string]: { + url: EnvValue; + }; + }; + /** + * The string hash that was produced for a given schema + * @remarks only used for the purpose of data proxy + */ + inlineSchemaHash: string; + /** + * A marker to indicate that the client was not generated via `prisma + * generate` but was generated via `generate --postinstall` script instead. + * @remarks used to error for Vercel/Netlify for schema caching issues + */ + postinstall?: boolean; + /** + * Information about the CI where the Prisma Client has been generated. The + * name of the CI environment is stored at generation time because CI + * information is not always available at runtime. Moreover, the edge client + * has no notion of environment variables, so this works around that. + * @remarks used to error for Vercel/Netlify for schema caching issues + */ + ciName?: string; + /** + * Information about whether we have not found a schema.prisma file in the + * default location, and that we fell back to finding the schema.prisma file + * in the current working directory. This usually means it has been bundled. + */ + isBundled?: boolean; + /** + * A boolean that is `false` when the client was generated with --no-engine. At + * runtime, this means the client will be bound to be using the Data Proxy. + */ + copyEngine?: boolean; + /** + * Optional wasm loading configuration + */ + engineWasm?: EngineWasmLoadingConfig; + compilerWasm?: CompilerWasmLoadingConfig; +}; + +export declare type GetResult = { + findUnique: GetFindResult | null; + findUniqueOrThrow: GetFindResult; + findFirst: GetFindResult | null; + findFirstOrThrow: GetFindResult; + findMany: GetFindResult[]; + create: GetFindResult; + createMany: GetBatchResult; + createManyAndReturn: GetFindResult[]; + update: GetFindResult; + updateMany: GetBatchResult; + updateManyAndReturn: GetFindResult[]; + upsert: GetFindResult; + delete: GetFindResult; + deleteMany: GetBatchResult; + aggregate: GetAggregateResult; + count: GetCountResult; + groupBy: GetGroupByResult; + $queryRaw: unknown; + $queryRawTyped: unknown; + $executeRaw: number; + $queryRawUnsafe: unknown; + $executeRawUnsafe: number; + $runCommandRaw: JsonObject; + findRaw: JsonObject; + aggregateRaw: JsonObject; +}[OperationName]; + +export declare function getRuntime(): GetRuntimeOutput; + +declare type GetRuntimeOutput = { + id: RuntimeName; + prettyName: string; + isEdge: boolean; +}; + +export declare type GetSelect, R extends InternalArgs['result'][string], KR extends keyof R = string extends keyof R ? never : keyof R> = { + [K in KR | keyof Base]?: K extends KR ? boolean : Base[K]; +}; + +declare type GlobalOmitOptions = { + [modelName: string]: { + [fieldName: string]: boolean; + }; +}; + +declare type HandleErrorParams = { + args: JsArgs; + error: any; + clientMethod: string; + callsite?: CallSite; + transaction?: PrismaPromiseTransaction; + modelName?: string; + globalOmit?: GlobalOmitOptions; +}; + +declare type HrTime = [number, number]; + +/** + * Defines High-Resolution Time. + * + * The first number, HrTime[0], is UNIX Epoch time in seconds since 00:00:00 UTC on 1 January 1970. + * The second number, HrTime[1], represents the partial second elapsed since Unix Epoch time represented by first number in nanoseconds. + * For example, 2021-01-01T12:30:10.150Z in UNIX Epoch time in milliseconds is represented as 1609504210150. + * The first number is calculated by converting and truncating the Epoch time in milliseconds to seconds: + * HrTime[0] = Math.trunc(1609504210150 / 1000) = 1609504210. + * The second number is calculated by converting the digits after the decimal point of the subtraction, (1609504210150 / 1000) - HrTime[0], to nanoseconds: + * HrTime[1] = Number((1609504210.150 - HrTime[0]).toFixed(9)) * 1e9 = 150000000. + * This is represented in HrTime format as [1609504210, 150000000]. + */ +declare type HrTime_2 = [number, number]; + +declare type Index = ReadonlyDeep_2<{ + model: string; + type: IndexType; + isDefinedOnField: boolean; + name?: string; + dbName?: string; + algorithm?: string; + clustered?: boolean; + fields: IndexField[]; +}>; + +declare type IndexField = ReadonlyDeep_2<{ + name: string; + sortOrder?: SortOrder; + length?: number; + operatorClass?: string; +}>; + +declare type IndexType = 'id' | 'normal' | 'unique' | 'fulltext'; + +declare type InMemoryOps = { + pagination: Pagination | null; + distinct: string[] | null; + reverse: boolean; + linkingFields: string[] | null; + nested: Record; +}; + +/** + * Matches a JSON array. + * Unlike \`JsonArray\`, readonly arrays are assignable to this type. + */ +export declare interface InputJsonArray extends ReadonlyArray { +} + +/** + * Matches a JSON object. + * Unlike \`JsonObject\`, this type allows undefined and read-only properties. + */ +export declare type InputJsonObject = { + readonly [Key in string]?: InputJsonValue | null; +}; + +/** + * Matches any valid value that can be used as an input for operations like + * create and update as the value of a JSON field. Unlike \`JsonValue\`, this + * type allows read-only arrays and read-only object properties and disallows + * \`null\` at the top level. + * + * \`null\` cannot be used as the value of a JSON field because its meaning + * would be ambiguous. Use \`Prisma.JsonNull\` to store the JSON null value or + * \`Prisma.DbNull\` to clear the JSON value and set the field to the database + * NULL value instead. + * + * @see https://www.prisma.io/docs/concepts/components/prisma-client/working-with-fields/working-with-json-fields#filtering-by-null-values + */ +export declare type InputJsonValue = string | number | boolean | InputJsonObject | InputJsonArray | { + toJSON(): unknown; +}; + +declare type InputType = ReadonlyDeep_2<{ + name: string; + constraints: { + maxNumFields: number | null; + minNumFields: number | null; + fields?: string[]; + }; + meta?: { + source?: string; + grouping?: string; + }; + fields: SchemaArg[]; +}>; + +declare type InputTypeRef = TypeRef<'scalar' | 'inputObjectTypes' | 'enumTypes' | 'fieldRefTypes'>; + +declare type InteractiveTransactionInfo = { + /** + * Transaction ID returned by the query engine. + */ + id: string; + /** + * Arbitrary payload the meaning of which depends on the `Engine` implementation. + * For example, `DataProxyEngine` needs to associate different API endpoints with transactions. + * In `LibraryEngine` and `BinaryEngine` it is currently not used. + */ + payload: Payload; +}; + +declare type InteractiveTransactionOptions = Transaction_2.InteractiveTransactionInfo; + +export declare type InternalArgs = { + result: { + [K in keyof R]: { + [P in keyof R[K]]: () => R[K][P]; + }; + }; + model: { + [K in keyof M]: { + [P in keyof M[K]]: () => M[K][P]; + }; + }; + query: { + [K in keyof Q]: { + [P in keyof Q[K]]: () => Q[K][P]; + }; + }; + client: { + [K in keyof C]: () => C[K]; + }; +}; + +declare type InternalRequestParams = { + /** + * The original client method being called. + * Even though the rootField / operation can be changed, + * this method stays as it is, as it's what the user's + * code looks like + */ + clientMethod: string; + /** + * Name of js model that triggered the request. Might be used + * for warnings or error messages + */ + jsModelName?: string; + callsite?: CallSite; + transaction?: PrismaPromiseTransaction; + unpacker?: Unpacker; + otelParentCtx?: Context; + /** Used to "desugar" a user input into an "expanded" one */ + argsMapper?: (args?: UserArgs_2) => UserArgs_2; + /** Used to convert args for middleware and back */ + middlewareArgsMapper?: MiddlewareArgsMapper; + /** Used for Accelerate client extension via Data Proxy */ + customDataProxyFetch?: AccelerateExtensionFetchDecorator; +} & Omit; + +declare type IsolationLevel = 'READ UNCOMMITTED' | 'READ COMMITTED' | 'REPEATABLE READ' | 'SNAPSHOT' | 'SERIALIZABLE'; + +declare type IsolationLevel_2 = 'ReadUncommitted' | 'ReadCommitted' | 'RepeatableRead' | 'Snapshot' | 'Serializable'; + +declare function isSkip(value: unknown): value is Skip; + +export declare function isTypedSql(value: unknown): value is UnknownTypedSql; + +export declare type ITXClientDenyList = (typeof denylist)[number]; + +export declare const itxClientDenyList: readonly (string | symbol)[]; + +declare interface Job { + resolve: (data: any) => void; + reject: (data: any) => void; + request: any; +} + +/** + * Create a SQL query for a list of values. + */ +export declare function join(values: readonly RawValue[], separator?: string, prefix?: string, suffix?: string): Sql; + +declare type JoinExpression = { + child: QueryPlanNode; + on: [left: string, right: string][]; + parentField: string; + isRelationUnique: boolean; +}; + +export declare type JsArgs = { + select?: Selection_2; + include?: Selection_2; + omit?: Omission; + [argName: string]: JsInputValue; +}; + +export declare type JsInputValue = null | undefined | string | number | boolean | bigint | Uint8Array | Date | DecimalJsLike | ObjectEnumValue | RawParameters | JsonConvertible | FieldRef | JsInputValue[] | Skip | { + [key: string]: JsInputValue; +}; + +declare type JsonArgumentValue = number | string | boolean | null | RawTaggedValue | JsonArgumentValue[] | { + [key: string]: JsonArgumentValue; +}; + +/** + * From https://github.com/sindresorhus/type-fest/ + * Matches a JSON array. + */ +export declare interface JsonArray extends Array { +} + +export declare type JsonBatchQuery = { + batch: JsonQuery[]; + transaction?: { + isolationLevel?: IsolationLevel_2; + }; +}; + +export declare interface JsonConvertible { + toJSON(): unknown; +} + +declare type JsonFieldSelection = { + arguments?: Record | RawTaggedValue; + selection: JsonSelectionSet; +}; + +declare class JsonNull extends NullTypesEnumValue { + #private; +} + +/** + * From https://github.com/sindresorhus/type-fest/ + * Matches a JSON object. + * This type can be useful to enforce some input to be JSON-compatible or as a super-type to be extended from. + */ +export declare type JsonObject = { + [Key in string]?: JsonValue; +}; + +export declare type JsonQuery = { + modelName?: string; + action: JsonQueryAction; + query: JsonFieldSelection; +}; + +declare type JsonQueryAction = 'findUnique' | 'findUniqueOrThrow' | 'findFirst' | 'findFirstOrThrow' | 'findMany' | 'createOne' | 'createMany' | 'createManyAndReturn' | 'updateOne' | 'updateMany' | 'updateManyAndReturn' | 'deleteOne' | 'deleteMany' | 'upsertOne' | 'aggregate' | 'groupBy' | 'executeRaw' | 'queryRaw' | 'runCommandRaw' | 'findRaw' | 'aggregateRaw'; + +declare type JsonSelectionSet = { + $scalars?: boolean; + $composites?: boolean; +} & { + [fieldName: string]: boolean | JsonFieldSelection; +}; + +/** + * From https://github.com/sindresorhus/type-fest/ + * Matches any valid JSON value. + */ +export declare type JsonValue = string | number | boolean | JsonObject | JsonArray | null; + +export declare type JsOutputValue = null | string | number | boolean | bigint | Uint8Array | Date | Decimal | JsOutputValue[] | { + [key: string]: JsOutputValue; +}; + +export declare type JsPromise = Promise & {}; + +declare type KnownErrorParams = { + code: string; + clientVersion: string; + meta?: Record; + batchRequestIdx?: number; +}; + +/** + * A pointer from the current {@link Span} to another span in the same trace or + * in a different trace. + * Few examples of Link usage. + * 1. Batch Processing: A batch of elements may contain elements associated + * with one or more traces/spans. Since there can only be one parent + * SpanContext, Link is used to keep reference to SpanContext of all + * elements in the batch. + * 2. Public Endpoint: A SpanContext in incoming client request on a public + * endpoint is untrusted from service provider perspective. In such case it + * is advisable to start a new trace with appropriate sampling decision. + * However, it is desirable to associate incoming SpanContext to new trace + * initiated on service provider side so two traces (from Client and from + * Service Provider) can be correlated. + */ +declare interface Link { + /** The {@link SpanContext} of a linked span. */ + context: SpanContext; + /** A set of {@link SpanAttributes} on the link. */ + attributes?: SpanAttributes; + /** Count of attributes of the link that were dropped due to collection limits */ + droppedAttributesCount?: number; +} + +declare type LoadedEnv = { + message?: string; + parsed: { + [x: string]: string; + }; +} | undefined; + +declare type LocationInFile = { + fileName: string; + lineNumber: number | null; + columnNumber: number | null; +}; + +declare type LogDefinition = { + level: LogLevel; + emit: 'stdout' | 'event'; +}; + +/** + * Typings for the events we emit. + * + * @remarks + * If this is updated, our edge runtime shim needs to be updated as well. + */ +declare type LogEmitter = { + on(event: E, listener: (event: EngineEvent) => void): LogEmitter; + emit(event: QueryEventType, payload: QueryEvent): boolean; + emit(event: LogEventType, payload: LogEvent): boolean; +}; + +declare type LogEvent = { + timestamp: Date; + message: string; + target: string; +}; + +declare type LogEventType = 'info' | 'warn' | 'error'; + +declare type LogLevel = 'info' | 'query' | 'warn' | 'error'; + +/** + * Generates more strict variant of an enum which, unlike regular enum, + * throws on non-existing property access. This can be useful in following situations: + * - we have an API, that accepts both `undefined` and `SomeEnumType` as an input + * - enum values are generated dynamically from DMMF. + * + * In that case, if using normal enums and no compile-time typechecking, using non-existing property + * will result in `undefined` value being used, which will be accepted. Using strict enum + * in this case will help to have a runtime exception, telling you that you are probably doing something wrong. + * + * Note: if you need to check for existence of a value in the enum you can still use either + * `in` operator or `hasOwnProperty` function. + * + * @param definition + * @returns + */ +export declare function makeStrictEnum>(definition: T): T; + +export declare function makeTypedQueryFactory(sql: string): (...values: any[]) => TypedSql; + +declare type MappedError = { + kind: 'GenericJs'; + id: number; +} | { + kind: 'UnsupportedNativeDataType'; + type: string; +} | { + kind: 'InvalidIsolationLevel'; + level: string; +} | { + kind: 'LengthMismatch'; + column?: string; +} | { + kind: 'UniqueConstraintViolation'; + constraint?: { + fields: string[]; + } | { + index: string; + } | { + foreignKey: {}; + }; +} | { + kind: 'NullConstraintViolation'; + constraint?: { + fields: string[]; + } | { + index: string; + } | { + foreignKey: {}; + }; +} | { + kind: 'ForeignKeyConstraintViolation'; + constraint?: { + fields: string[]; + } | { + index: string; + } | { + foreignKey: {}; + }; +} | { + kind: 'DatabaseNotReachable'; + host?: string; + port?: number; +} | { + kind: 'DatabaseDoesNotExist'; + db?: string; +} | { + kind: 'DatabaseAlreadyExists'; + db?: string; +} | { + kind: 'DatabaseAccessDenied'; + db?: string; +} | { + kind: 'ConnectionClosed'; +} | { + kind: 'TlsConnectionError'; + reason: string; +} | { + kind: 'AuthenticationFailed'; + user?: string; +} | { + kind: 'TransactionWriteConflict'; +} | { + kind: 'TableDoesNotExist'; + table?: string; +} | { + kind: 'ColumnNotFound'; + column?: string; +} | { + kind: 'TooManyConnections'; + cause: string; +} | { + kind: 'ValueOutOfRange'; + cause: string; +} | { + kind: 'MissingFullTextSearchIndex'; +} | { + kind: 'SocketTimeout'; +} | { + kind: 'InconsistentColumnData'; + cause: string; +} | { + kind: 'TransactionAlreadyClosed'; + cause: string; +} | { + kind: 'postgres'; + code: string; + severity: string; + message: string; + detail: string | undefined; + column: string | undefined; + hint: string | undefined; +} | { + kind: 'mysql'; + code: number; + message: string; + state: string; +} | { + kind: 'sqlite'; + /** + * Sqlite extended error code: https://www.sqlite.org/rescode.html + */ + extendedCode: number; + message: string; +} | { + kind: 'mssql'; + code: number; + message: string; +}; + +declare type Mappings = ReadonlyDeep_2<{ + modelOperations: ModelMapping[]; + otherOperations: { + read: string[]; + write: string[]; + }; +}>; + +/** + * Class that holds the list of all extensions, applied to particular instance, + * as well as resolved versions of the components that need to apply on + * different levels. Main idea of this class: avoid re-resolving as much of the + * stuff as possible when new extensions are added while also delaying the + * resolve until the point it is actually needed. For example, computed fields + * of the model won't be resolved unless the model is actually queried. Neither + * adding extensions with `client` component only cause other components to + * recompute. + */ +declare class MergedExtensionsList { + private head?; + private constructor(); + static empty(): MergedExtensionsList; + static single(extension: ExtensionArgs): MergedExtensionsList; + isEmpty(): boolean; + append(extension: ExtensionArgs): MergedExtensionsList; + getAllComputedFields(dmmfModelName: string): ComputedFieldsMap | undefined; + getAllClientExtensions(): ClientArg | undefined; + getAllModelExtensions(dmmfModelName: string): ModelArg | undefined; + getAllQueryCallbacks(jsModelName: string, operation: string): any; + getAllBatchQueryCallbacks(): BatchQueryOptionsCb[]; +} + +export declare type MergeExtArgs, Args extends Record> = ComputeDeep & AllModelsToStringIndex>; + +export declare type Metric = { + key: string; + value: T; + labels: Record; + description: string; +}; + +export declare type MetricHistogram = { + buckets: MetricHistogramBucket[]; + sum: number; + count: number; +}; + +export declare type MetricHistogramBucket = [maxValue: number, count: number]; + +export declare type Metrics = { + counters: Metric[]; + gauges: Metric[]; + histograms: Metric[]; +}; + +export declare class MetricsClient { + private _client; + constructor(client: Client); + /** + * Returns all metrics gathered up to this point in prometheus format. + * Result of this call can be exposed directly to prometheus scraping endpoint + * + * @param options + * @returns + */ + prometheus(options?: MetricsOptions): Promise; + /** + * Returns all metrics gathered up to this point in prometheus format. + * + * @param options + * @returns + */ + json(options?: MetricsOptions): Promise; +} + +declare type MetricsOptions = { + /** + * Labels to add to every metrics in key-value format + */ + globalLabels?: Record; +}; + +declare type MetricsOptionsCommon = { + globalLabels?: Record; +}; + +declare type MetricsOptionsJson = { + format: 'json'; +} & MetricsOptionsCommon; + +declare type MetricsOptionsPrometheus = { + format: 'prometheus'; +} & MetricsOptionsCommon; + +declare type MiddlewareArgsMapper = { + requestArgsToMiddlewareArgs(requestArgs: RequestArgs): MiddlewareArgs; + middlewareArgsToRequestArgs(middlewareArgs: MiddlewareArgs): RequestArgs; +}; + +declare type Model = ReadonlyDeep_2<{ + name: string; + dbName: string | null; + schema: string | null; + fields: Field[]; + uniqueFields: string[][]; + uniqueIndexes: uniqueIndex[]; + documentation?: string; + primaryKey: PrimaryKey | null; + isGenerated?: boolean; +}>; + +declare enum ModelAction { + findUnique = "findUnique", + findUniqueOrThrow = "findUniqueOrThrow", + findFirst = "findFirst", + findFirstOrThrow = "findFirstOrThrow", + findMany = "findMany", + create = "create", + createMany = "createMany", + createManyAndReturn = "createManyAndReturn", + update = "update", + updateMany = "updateMany", + updateManyAndReturn = "updateManyAndReturn", + upsert = "upsert", + delete = "delete", + deleteMany = "deleteMany", + groupBy = "groupBy", + count = "count",// TODO: count does not actually exist in DMMF + aggregate = "aggregate", + findRaw = "findRaw", + aggregateRaw = "aggregateRaw" +} + +export declare type ModelArg = { + [MethodName in string]: unknown; +}; + +export declare type ModelArgs = { + model: { + [ModelName in string]: ModelArg; + }; +}; + +export declare type ModelKey = M extends keyof TypeMap['model'] ? M : Capitalize; + +declare type ModelMapping = ReadonlyDeep_2<{ + model: string; + plural: string; + findUnique?: string | null; + findUniqueOrThrow?: string | null; + findFirst?: string | null; + findFirstOrThrow?: string | null; + findMany?: string | null; + create?: string | null; + createMany?: string | null; + createManyAndReturn?: string | null; + update?: string | null; + updateMany?: string | null; + updateManyAndReturn?: string | null; + upsert?: string | null; + delete?: string | null; + deleteMany?: string | null; + aggregate?: string | null; + groupBy?: string | null; + count?: string | null; + findRaw?: string | null; + aggregateRaw?: string | null; +}>; + +export declare type ModelQueryOptionsCb = (args: ModelQueryOptionsCbArgs) => Promise; + +export declare type ModelQueryOptionsCbArgs = { + model: string; + operation: string; + args: JsArgs; + query: (args: JsArgs) => Promise; +}; + +declare type MultiBatchResponse = { + type: 'multi'; + plans: QueryPlanNode[]; +}; + +export declare type NameArgs = { + name?: string; +}; + +export declare type Narrow = { + [K in keyof A]: A[K] extends Function ? A[K] : Narrow; +} | (A extends Narrowable ? A : never); + +export declare type Narrowable = string | number | bigint | boolean | []; + +export declare type NeverToUnknown = [T] extends [never] ? unknown : T; + +declare class NullTypesEnumValue extends ObjectEnumValue { + _getNamespace(): string; +} + +/** + * Base class for unique values of object-valued enums. + */ +export declare abstract class ObjectEnumValue { + constructor(arg?: symbol); + abstract _getNamespace(): string; + _getName(): string; + toString(): string; +} + +export declare const objectEnumValues: { + classes: { + DbNull: typeof DbNull; + JsonNull: typeof JsonNull; + AnyNull: typeof AnyNull; + }; + instances: { + DbNull: DbNull; + JsonNull: JsonNull; + AnyNull: AnyNull; + }; +}; + +declare const officialPrismaAdapters: readonly ["@prisma/adapter-planetscale", "@prisma/adapter-neon", "@prisma/adapter-libsql", "@prisma/adapter-better-sqlite3", "@prisma/adapter-d1", "@prisma/adapter-pg", "@prisma/adapter-mssql", "@prisma/adapter-mariadb"]; + +export declare type Omission = Record; + +declare type Omit_2 = { + [P in keyof T as P extends K ? never : P]: T[P]; +}; +export { Omit_2 as Omit } + +export declare type OmitValue = Key extends keyof Omit ? Omit[Key] : false; + +export declare type Operation = 'findFirst' | 'findFirstOrThrow' | 'findUnique' | 'findUniqueOrThrow' | 'findMany' | 'create' | 'createMany' | 'createManyAndReturn' | 'update' | 'updateMany' | 'updateManyAndReturn' | 'upsert' | 'delete' | 'deleteMany' | 'aggregate' | 'count' | 'groupBy' | '$queryRaw' | '$executeRaw' | '$queryRawUnsafe' | '$executeRawUnsafe' | 'findRaw' | 'aggregateRaw' | '$runCommandRaw'; + +export declare type OperationPayload = { + name: string; + scalars: { + [ScalarName in string]: unknown; + }; + objects: { + [ObjectName in string]: unknown; + }; + composites: { + [CompositeName in string]: unknown; + }; +}; + +export declare type Optional = { + [P in K & keyof O]?: O[P]; +} & { + [P in Exclude]: O[P]; +}; + +export declare type OptionalFlat = { + [K in keyof T]?: T[K]; +}; + +export declare type OptionalKeys = { + [K in keyof O]-?: {} extends Pick_2 ? K : never; +}[keyof O]; + +declare type Options = { + /** Timeout for starting the transaction */ + maxWait?: number; + /** Timeout for the transaction body */ + timeout?: number; + /** Transaction isolation level */ + isolationLevel?: IsolationLevel_2; +}; + +declare type Options_2 = { + clientVersion: string; +}; + +export declare type Or = { + 0: { + 0: 0; + 1: 1; + }; + 1: { + 0: 1; + 1: 1; + }; +}[A][B]; + +declare type OtherOperationMappings = ReadonlyDeep_2<{ + read: string[]; + write: string[]; +}>; + +declare type OutputType = ReadonlyDeep_2<{ + name: string; + fields: SchemaField[]; +}>; + +declare type OutputTypeRef = TypeRef<'scalar' | 'outputObjectTypes' | 'enumTypes'>; + +declare type Pagination = { + cursor: Record | null; + take: number | null; + skip: number | null; +}; + +export declare function Param<$Type, $Value extends string>(name: $Value): Param<$Type, $Value>; + +export declare type Param = { + readonly name: $Value; +}; + +export declare type PatchFlat = O1 & Omit_2; + +export declare type Path = O extends unknown ? P extends [infer K, ...infer R] ? K extends keyof O ? Path : Default : O : never; + +export declare type Payload = T extends { + [K: symbol]: { + types: { + payload: any; + }; + }; +} ? T[symbol]['types']['payload'] : any; + +export declare type PayloadToResult = RenameAndNestPayloadKeys

> = { + [K in keyof O]?: O[K][K] extends any[] ? PayloadToResult[] : O[K][K] extends object ? PayloadToResult : O[K][K]; +}; + +declare type Pick_2 = { + [P in keyof T as P extends K ? P : never]: T[P]; +}; +export { Pick_2 as Pick } + +declare interface PlaceholderFormat { + prefix: string; + hasNumbering: boolean; +} + +declare type PrimaryKey = ReadonlyDeep_2<{ + name: string | null; + fields: string[]; +}>; + +export declare class PrismaClientInitializationError extends Error { + clientVersion: string; + errorCode?: string; + retryable?: boolean; + constructor(message: string, clientVersion: string, errorCode?: string); + get [Symbol.toStringTag](): string; +} + +export declare class PrismaClientKnownRequestError extends Error implements ErrorWithBatchIndex { + code: string; + meta?: Record; + clientVersion: string; + batchRequestIdx?: number; + constructor(message: string, { code, clientVersion, meta, batchRequestIdx }: KnownErrorParams); + get [Symbol.toStringTag](): string; +} + +export declare type PrismaClientOptions = { + /** + * Overwrites the primary datasource url from your schema.prisma file + */ + datasourceUrl?: string; + /** + * Instance of a Driver Adapter, e.g., like one provided by `@prisma/adapter-planetscale. + */ + adapter?: SqlDriverAdapterFactory | null; + /** + * Overwrites the datasource url from your schema.prisma file + */ + datasources?: Datasources; + /** + * @default "colorless" + */ + errorFormat?: ErrorFormat; + /** + * The default values for Transaction options + * maxWait ?= 2000 + * timeout ?= 5000 + */ + transactionOptions?: Transaction_2.Options; + /** + * @example + * \`\`\` + * // Defaults to stdout + * log: ['query', 'info', 'warn'] + * + * // Emit as events + * log: [ + * { emit: 'stdout', level: 'query' }, + * { emit: 'stdout', level: 'info' }, + * { emit: 'stdout', level: 'warn' } + * ] + * \`\`\` + * Read more in our [docs](https://www.prisma.io/docs/reference/tools-and-interfaces/prisma-client/logging#the-log-option). + */ + log?: Array; + omit?: GlobalOmitOptions; + /** + * @internal + * You probably don't want to use this. \`__internal\` is used by internal tooling. + */ + __internal?: { + debug?: boolean; + engine?: { + cwd?: string; + binaryPath?: string; + endpoint?: string; + allowTriggerPanic?: boolean; + }; + /** This can be used for testing purposes */ + configOverride?: (config: GetPrismaClientConfig) => GetPrismaClientConfig; + }; +}; + +export declare class PrismaClientRustPanicError extends Error { + clientVersion: string; + constructor(message: string, clientVersion: string); + get [Symbol.toStringTag](): string; +} + +export declare class PrismaClientUnknownRequestError extends Error implements ErrorWithBatchIndex { + clientVersion: string; + batchRequestIdx?: number; + constructor(message: string, { clientVersion, batchRequestIdx }: UnknownErrorParams); + get [Symbol.toStringTag](): string; +} + +export declare class PrismaClientValidationError extends Error { + name: string; + clientVersion: string; + constructor(message: string, { clientVersion }: Options_2); + get [Symbol.toStringTag](): string; +} + +declare function prismaGraphQLToJSError({ error, user_facing_error }: RequestError, clientVersion: string, activeProvider: string): PrismaClientKnownRequestError | PrismaClientUnknownRequestError; + +declare type PrismaOperationSpec = { + args: TArgs; + action: TAction; + model: string; +}; + +export declare interface PrismaPromise extends Promise { + [Symbol.toStringTag]: 'PrismaPromise'; +} + +/** + * Prisma's `Promise` that is backwards-compatible. All additions on top of the + * original `Promise` are optional so that it can be backwards-compatible. + * @see [[createPrismaPromise]] + */ +declare interface PrismaPromise_2 = any> extends Promise { + get spec(): TSpec; + /** + * Extension of the original `.then` function + * @param onfulfilled same as regular promises + * @param onrejected same as regular promises + * @param transaction transaction options + */ + then(onfulfilled?: (value: TResult) => R1 | PromiseLike, onrejected?: (error: unknown) => R2 | PromiseLike, transaction?: PrismaPromiseTransaction): Promise; + /** + * Extension of the original `.catch` function + * @param onrejected same as regular promises + * @param transaction transaction options + */ + catch(onrejected?: ((reason: any) => R | PromiseLike) | undefined | null, transaction?: PrismaPromiseTransaction): Promise; + /** + * Extension of the original `.finally` function + * @param onfinally same as regular promises + * @param transaction transaction options + */ + finally(onfinally?: (() => void) | undefined | null, transaction?: PrismaPromiseTransaction): Promise; + /** + * Called when executing a batch of regular tx + * @param transaction transaction options for batch tx + */ + requestTransaction?(transaction: PrismaPromiseBatchTransaction): PromiseLike; +} + +declare type PrismaPromiseBatchTransaction = { + kind: 'batch'; + id: number; + isolationLevel?: IsolationLevel_2; + index: number; + lock: PromiseLike; +}; + +declare type PrismaPromiseCallback = (transaction?: PrismaPromiseTransaction) => Promise; + +/** + * Creates a [[PrismaPromise]]. It is Prisma's implementation of `Promise` which + * is essentially a proxy for `Promise`. All the transaction-compatible client + * methods return one, this allows for pre-preparing queries without executing + * them until `.then` is called. It's the foundation of Prisma's query batching. + * @param callback that will be wrapped within our promise implementation + * @see [[PrismaPromise]] + * @returns + */ +declare type PrismaPromiseFactory = >(callback: PrismaPromiseCallback, op?: T) => PrismaPromise_2; + +declare type PrismaPromiseInteractiveTransaction = { + kind: 'itx'; + id: string; + payload: PayloadType; +}; + +declare type PrismaPromiseTransaction = PrismaPromiseBatchTransaction | PrismaPromiseInteractiveTransaction; + +declare type PrismaValue = string | boolean | number | PrismaValue[] | null | Record | PrismaValuePlaceholder | PrismaValueGenerator; + +declare type PrismaValueGenerator = { + prisma__type: 'generatorCall'; + prisma__value: { + name: string; + args: PrismaValue[]; + }; +}; + +declare type PrismaValuePlaceholder = { + prisma__type: 'param'; + prisma__value: { + name: string; + type: string; + }; +}; + +export declare const PrivateResultType: unique symbol; + +declare type Provider = 'mysql' | 'postgres' | 'sqlite' | 'sqlserver'; + +declare namespace Public { + export { + validator + } +} +export { Public } + +declare namespace Public_2 { + export { + Args, + Result, + Payload, + PrismaPromise, + Operation, + Exact + } +} + +declare type Query = ReadonlyDeep_2<{ + name: string; + args: SchemaArg[]; + output: QueryOutput; +}>; + +declare interface Queryable extends AdapterInfo { + /** + * Execute a query and return its result. + */ + queryRaw(params: Query): Promise; + /** + * Execute a query and return the number of affected rows. + */ + executeRaw(params: Query): Promise; +} + +declare type QueryCompiler = { + compile(request: string): {}; + compileBatch(batchRequest: string): BatchResponse; + free(): void; +}; + +declare interface QueryCompilerConstructor { + new (options: QueryCompilerOptions): QueryCompiler; +} + +declare type QueryCompilerOptions = { + datamodel: string; + provider: Provider; + connectionInfo: ConnectionInfo; +}; + +declare type QueryEngineBatchGraphQLRequest = { + batch: QueryEngineRequest[]; + transaction?: boolean; + isolationLevel?: IsolationLevel_2; +}; + +declare type QueryEngineBatchRequest = QueryEngineBatchGraphQLRequest | JsonBatchQuery; + +declare type QueryEngineConfig = { + datamodel: string; + configDir: string; + logQueries: boolean; + ignoreEnvVarErrors: boolean; + datasourceOverrides: Record; + env: Record; + logLevel: QueryEngineLogLevel; + engineProtocol: QueryEngineProtocol; + enableTracing: boolean; +}; + +declare interface QueryEngineConstructor { + new (config: QueryEngineConfig, logger: (log: string) => void, adapter?: ErrorCapturingSqlDriverAdapter): QueryEngineInstance; +} + +declare type QueryEngineInstance = { + connect(headers: string, requestId: string): Promise; + disconnect(headers: string, requestId: string): Promise; + /** + * Frees any resources allocated by the engine's WASM instance. This method is automatically created by WASM bindgen. + * Noop for other engines. + */ + free?(): void; + /** + * @param requestStr JSON.stringified `QueryEngineRequest | QueryEngineBatchRequest` + * @param headersStr JSON.stringified `QueryEngineRequestHeaders` + */ + query(requestStr: string, headersStr: string, transactionId: string | undefined, requestId: string): Promise; + sdlSchema?(): Promise; + startTransaction(options: string, traceHeaders: string, requestId: string): Promise; + commitTransaction(id: string, traceHeaders: string, requestId: string): Promise; + rollbackTransaction(id: string, traceHeaders: string, requestId: string): Promise; + metrics?(options: string): Promise; + applyPendingMigrations?(): Promise; + trace(requestId: string): Promise; +}; + +declare type QueryEngineLogLevel = 'trace' | 'debug' | 'info' | 'warn' | 'error' | 'off'; + +declare type QueryEngineProtocol = 'graphql' | 'json'; + +declare type QueryEngineRequest = { + query: string; + variables: Object; +}; + +declare type QueryEngineResultData = { + data: T; +}; + +declare type QueryEvent = { + timestamp: Date; + query: string; + params: string; + duration: number; + target: string; +}; + +declare type QueryEventType = 'query'; + +declare type QueryIntrospectionBuiltinType = 'int' | 'bigint' | 'float' | 'double' | 'string' | 'enum' | 'bytes' | 'bool' | 'char' | 'decimal' | 'json' | 'xml' | 'uuid' | 'datetime' | 'date' | 'time' | 'int-array' | 'bigint-array' | 'float-array' | 'double-array' | 'string-array' | 'char-array' | 'bytes-array' | 'bool-array' | 'decimal-array' | 'json-array' | 'xml-array' | 'uuid-array' | 'datetime-array' | 'date-array' | 'time-array' | 'null' | 'unknown'; + +declare type QueryMiddlewareParams = { + /** The model this is executed on */ + model?: string; + /** The action that is being handled */ + action: Action; + /** TODO what is this */ + dataPath: string[]; + /** TODO what is this */ + runInTransaction: boolean; + args?: UserArgs_2; +}; + +export declare type QueryOptions = { + query: { + [ModelName in string]: { + [ModelAction in string]: ModelQueryOptionsCb; + } | QueryOptionsCb; + }; +}; + +export declare type QueryOptionsCb = (args: QueryOptionsCbArgs) => Promise; + +export declare type QueryOptionsCbArgs = { + model?: string; + operation: string; + args: JsArgs | RawQueryArgs; + query: (args: JsArgs | RawQueryArgs) => Promise; +}; + +declare type QueryOutput = ReadonlyDeep_2<{ + name: string; + isRequired: boolean; + isList: boolean; +}>; + +declare type QueryPlanBinding = { + name: string; + expr: QueryPlanNode; +}; + +declare type QueryPlanDbQuery = { + type: 'rawSql'; + sql: string; + args: PrismaValue[]; + argTypes: ArgType[]; +} | { + type: 'templateSql'; + fragments: Fragment[]; + placeholderFormat: PlaceholderFormat; + args: PrismaValue[]; + argTypes: DynamicArgType[]; + chunkable: boolean; +}; + +declare type QueryPlanNode = { + type: 'value'; + args: PrismaValue; +} | { + type: 'seq'; + args: QueryPlanNode[]; +} | { + type: 'get'; + args: { + name: string; + }; +} | { + type: 'let'; + args: { + bindings: QueryPlanBinding[]; + expr: QueryPlanNode; + }; +} | { + type: 'getFirstNonEmpty'; + args: { + names: string[]; + }; +} | { + type: 'query'; + args: QueryPlanDbQuery; +} | { + type: 'execute'; + args: QueryPlanDbQuery; +} | { + type: 'reverse'; + args: QueryPlanNode; +} | { + type: 'sum'; + args: QueryPlanNode[]; +} | { + type: 'concat'; + args: QueryPlanNode[]; +} | { + type: 'unique'; + args: QueryPlanNode; +} | { + type: 'required'; + args: QueryPlanNode; +} | { + type: 'join'; + args: { + parent: QueryPlanNode; + children: JoinExpression[]; + }; +} | { + type: 'mapField'; + args: { + field: string; + records: QueryPlanNode; + }; +} | { + type: 'transaction'; + args: QueryPlanNode; +} | { + type: 'dataMap'; + args: { + expr: QueryPlanNode; + structure: ResultNode; + enums: Record>; + }; +} | { + type: 'validate'; + args: { + expr: QueryPlanNode; + rules: DataRule[]; + } & ValidationError; +} | { + type: 'if'; + args: { + value: QueryPlanNode; + rule: DataRule; + then: QueryPlanNode; + else: QueryPlanNode; + }; +} | { + type: 'unit'; +} | { + type: 'diff'; + args: { + from: QueryPlanNode; + to: QueryPlanNode; + fields: string[]; + }; +} | { + type: 'initializeRecord'; + args: { + expr: QueryPlanNode; + fields: Record; + }; +} | { + type: 'mapRecord'; + args: { + expr: QueryPlanNode; + fields: Record; + }; +} | { + type: 'process'; + args: { + expr: QueryPlanNode; + operations: InMemoryOps; + }; +}; + +/** + * Create raw SQL statement. + */ +export declare function raw(value: string): Sql; + +export declare type RawParameters = { + __prismaRawParameters__: true; + values: string; +}; + +export declare type RawQueryArgs = Sql | UnknownTypedSql | [query: string, ...values: RawValue[]]; + +declare type RawResponse = { + columns: string[]; + types: QueryIntrospectionBuiltinType[]; + rows: unknown[][]; +}; + +declare type RawTaggedValue = { + $type: 'Raw'; + value: unknown; +}; + +/** + * Supported value or SQL instance. + */ +export declare type RawValue = Value | Sql; + +export declare type ReadonlyDeep = { + readonly [K in keyof T]: ReadonlyDeep; +}; + +declare type ReadonlyDeep_2 = { + +readonly [K in keyof O]: ReadonlyDeep_2; +}; + +declare type Record_2 = { + [P in T]: U; +}; +export { Record_2 as Record } + +export declare type RenameAndNestPayloadKeys

= { + [K in keyof P as K extends 'scalars' | 'objects' | 'composites' ? keyof P[K] : never]: P[K]; +}; + +declare type RequestBatchOptions = { + transaction?: TransactionOptions_2; + traceparent?: string; + numTry?: number; + containsWrite: boolean; + customDataProxyFetch?: AccelerateExtensionFetchDecorator; +}; + +declare interface RequestError { + error: string; + user_facing_error: { + is_panic: boolean; + message: string; + meta?: Record; + error_code?: string; + batch_request_idx?: number; + }; +} + +declare class RequestHandler { + client: Client; + dataloader: DataLoader; + private logEmitter?; + constructor(client: Client, logEmitter?: LogEmitter); + request(params: RequestParams): Promise; + mapQueryEngineResult({ dataPath, unpacker }: RequestParams, response: QueryEngineResultData): any; + /** + * Handles the error and logs it, logging the error is done synchronously waiting for the event + * handlers to finish. + */ + handleAndLogRequestError(params: HandleErrorParams): never; + handleRequestError({ error, clientMethod, callsite, transaction, args, modelName, globalOmit, }: HandleErrorParams): never; + sanitizeMessage(message: any): any; + unpack(data: unknown, dataPath: string[], unpacker?: Unpacker): any; + get [Symbol.toStringTag](): string; +} + +declare type RequestOptions = { + traceparent?: string; + numTry?: number; + interactiveTransaction?: InteractiveTransactionOptions; + isWrite: boolean; + customDataProxyFetch?: AccelerateExtensionFetchDecorator; +}; + +declare type RequestParams = { + modelName?: string; + action: Action; + protocolQuery: JsonQuery; + dataPath: string[]; + clientMethod: string; + callsite?: CallSite; + transaction?: PrismaPromiseTransaction; + extensions: MergedExtensionsList; + args?: any; + headers?: Record; + unpacker?: Unpacker; + otelParentCtx?: Context; + otelChildCtx?: Context; + globalOmit?: GlobalOmitOptions; + customDataProxyFetch?: AccelerateExtensionFetchDecorator; +}; + +declare type RequiredExtensionArgs = NameArgs & ResultArgs & ModelArgs & ClientArgs & QueryOptions; +export { RequiredExtensionArgs } +export { RequiredExtensionArgs as UserArgs } + +export declare type RequiredKeys = { + [K in keyof O]-?: {} extends Pick_2 ? never : K; +}[keyof O]; + +declare function resolveDatasourceUrl({ inlineDatasources, overrideDatasources, env, clientVersion, }: { + inlineDatasources: GetPrismaClientConfig['inlineDatasources']; + overrideDatasources: Datasources; + env: Record; + clientVersion: string; +}): string; + +export declare type Result = T extends { + [K: symbol]: { + types: { + payload: any; + }; + }; +} ? GetResult : GetResult<{ + composites: {}; + objects: {}; + scalars: {}; + name: ''; +}, {}, F>; + +export declare type Result_2 = Result; + +declare namespace Result_3 { + export { + Count, + GetFindResult, + SelectablePayloadFields, + SelectField, + DefaultSelection, + UnwrapPayload, + ApplyOmit, + OmitValue, + GetCountResult, + Aggregate, + GetAggregateResult, + GetBatchResult, + GetGroupByResult, + GetResult, + ExtractGlobalOmit + } +} + +declare type Result_4 = { + map(fn: (value: T) => U): Result_4; + flatMap(fn: (value: T) => Result_4): Result_4; +} & ({ + readonly ok: true; + readonly value: T; +} | { + readonly ok: false; + readonly error: Error_2; +}); + +export declare type ResultArg = { + [FieldName in string]: ResultFieldDefinition; +}; + +export declare type ResultArgs = { + result: { + [ModelName in string]: ResultArg; + }; +}; + +export declare type ResultArgsFieldCompute = (model: any) => unknown; + +export declare type ResultFieldDefinition = { + needs?: { + [FieldName in string]: boolean; + }; + compute: ResultArgsFieldCompute; +}; + +declare type ResultNode = { + type: 'affectedRows'; +} | { + type: 'object'; + fields: Record; + serializedName: string | null; + skipNulls: boolean; +} | { + type: 'field'; + dbName: string; + fieldType: FieldType; +}; + +export declare type Return = T extends (...args: any[]) => infer R ? R : T; + +export declare type RuntimeDataModel = { + readonly models: Record; + readonly enums: Record; + readonly types: Record; +}; + +declare type RuntimeEnum = Omit; + +declare type RuntimeModel = Omit; + +declare type RuntimeName = 'workerd' | 'deno' | 'netlify' | 'node' | 'bun' | 'edge-light' | ''; + +declare type Schema = ReadonlyDeep_2<{ + rootQueryType?: string; + rootMutationType?: string; + inputObjectTypes: { + model?: InputType[]; + prisma?: InputType[]; + }; + outputObjectTypes: { + model: OutputType[]; + prisma: OutputType[]; + }; + enumTypes: { + model?: SchemaEnum[]; + prisma: SchemaEnum[]; + }; + fieldRefTypes: { + prisma?: FieldRefType[]; + }; +}>; + +declare type SchemaArg = ReadonlyDeep_2<{ + name: string; + comment?: string; + isNullable: boolean; + isRequired: boolean; + inputTypes: InputTypeRef[]; + requiresOtherFields?: string[]; + deprecation?: Deprecation; +}>; + +declare type SchemaEnum = ReadonlyDeep_2<{ + name: string; + values: string[]; +}>; + +declare type SchemaField = ReadonlyDeep_2<{ + name: string; + isNullable?: boolean; + outputType: OutputTypeRef; + args: SchemaArg[]; + deprecation?: Deprecation; + documentation?: string; +}>; + +export declare type Select = T extends U ? T : never; + +export declare type SelectablePayloadFields = { + objects: { + [k in K]: O; + }; +} | { + composites: { + [k in K]: O; + }; +}; + +export declare type SelectField

, K extends PropertyKey> = P extends { + objects: Record; +} ? P['objects'][K] : P extends { + composites: Record; +} ? P['composites'][K] : never; + +declare type Selection_2 = Record; +export { Selection_2 as Selection } + +export declare function serializeJsonQuery({ modelName, action, args, runtimeDataModel, extensions, callsite, clientMethod, errorFormat, clientVersion, previewFeatures, globalOmit, }: SerializeParams): JsonQuery; + +declare type SerializeParams = { + runtimeDataModel: RuntimeDataModel; + modelName?: string; + action: Action; + args?: JsArgs; + extensions?: MergedExtensionsList; + callsite?: CallSite; + clientMethod: string; + clientVersion: string; + errorFormat: ErrorFormat; + previewFeatures: string[]; + globalOmit?: GlobalOmitOptions; +}; + +declare class Skip { + constructor(param?: symbol); + ifUndefined(value: T | undefined): T | Skip; +} + +export declare const skip: Skip; + +declare type SortOrder = 'asc' | 'desc'; + +/** + * An interface that represents a span. A span represents a single operation + * within a trace. Examples of span might include remote procedure calls or a + * in-process function calls to sub-components. A Trace has a single, top-level + * "root" Span that in turn may have zero or more child Spans, which in turn + * may have children. + * + * Spans are created by the {@link Tracer.startSpan} method. + */ +declare interface Span { + /** + * Returns the {@link SpanContext} object associated with this Span. + * + * Get an immutable, serializable identifier for this span that can be used + * to create new child spans. Returned SpanContext is usable even after the + * span ends. + * + * @returns the SpanContext object associated with this Span. + */ + spanContext(): SpanContext; + /** + * Sets an attribute to the span. + * + * Sets a single Attribute with the key and value passed as arguments. + * + * @param key the key for this attribute. + * @param value the value for this attribute. Setting a value null or + * undefined is invalid and will result in undefined behavior. + */ + setAttribute(key: string, value: SpanAttributeValue): this; + /** + * Sets attributes to the span. + * + * @param attributes the attributes that will be added. + * null or undefined attribute values + * are invalid and will result in undefined behavior. + */ + setAttributes(attributes: SpanAttributes): this; + /** + * Adds an event to the Span. + * + * @param name the name of the event. + * @param [attributesOrStartTime] the attributes that will be added; these are + * associated with this event. Can be also a start time + * if type is {@type TimeInput} and 3rd param is undefined + * @param [startTime] start time of the event. + */ + addEvent(name: string, attributesOrStartTime?: SpanAttributes | TimeInput, startTime?: TimeInput): this; + /** + * Adds a single link to the span. + * + * Links added after the creation will not affect the sampling decision. + * It is preferred span links be added at span creation. + * + * @param link the link to add. + */ + addLink(link: Link): this; + /** + * Adds multiple links to the span. + * + * Links added after the creation will not affect the sampling decision. + * It is preferred span links be added at span creation. + * + * @param links the links to add. + */ + addLinks(links: Link[]): this; + /** + * Sets a status to the span. If used, this will override the default Span + * status. Default is {@link SpanStatusCode.UNSET}. SetStatus overrides the value + * of previous calls to SetStatus on the Span. + * + * @param status the SpanStatus to set. + */ + setStatus(status: SpanStatus): this; + /** + * Updates the Span name. + * + * This will override the name provided via {@link Tracer.startSpan}. + * + * Upon this update, any sampling behavior based on Span name will depend on + * the implementation. + * + * @param name the Span name. + */ + updateName(name: string): this; + /** + * Marks the end of Span execution. + * + * Call to End of a Span MUST not have any effects on child spans. Those may + * still be running and can be ended later. + * + * Do not return `this`. The Span generally should not be used after it + * is ended so chaining is not desired in this context. + * + * @param [endTime] the time to set as Span's end time. If not provided, + * use the current time as the span's end time. + */ + end(endTime?: TimeInput): void; + /** + * Returns the flag whether this span will be recorded. + * + * @returns true if this Span is active and recording information like events + * with the `AddEvent` operation and attributes using `setAttributes`. + */ + isRecording(): boolean; + /** + * Sets exception as a span event + * @param exception the exception the only accepted values are string or Error + * @param [time] the time to set as Span's event time. If not provided, + * use the current time. + */ + recordException(exception: Exception, time?: TimeInput): void; +} + +/** + * @deprecated please use {@link Attributes} + */ +declare type SpanAttributes = Attributes; + +/** + * @deprecated please use {@link AttributeValue} + */ +declare type SpanAttributeValue = AttributeValue; + +declare type SpanCallback = (span?: Span, context?: Context) => R; + +/** + * A SpanContext represents the portion of a {@link Span} which must be + * serialized and propagated along side of a {@link Baggage}. + */ +declare interface SpanContext { + /** + * The ID of the trace that this span belongs to. It is worldwide unique + * with practically sufficient probability by being made as 16 randomly + * generated bytes, encoded as a 32 lowercase hex characters corresponding to + * 128 bits. + */ + traceId: string; + /** + * The ID of the Span. It is globally unique with practically sufficient + * probability by being made as 8 randomly generated bytes, encoded as a 16 + * lowercase hex characters corresponding to 64 bits. + */ + spanId: string; + /** + * Only true if the SpanContext was propagated from a remote parent. + */ + isRemote?: boolean; + /** + * Trace flags to propagate. + * + * It is represented as 1 byte (bitmap). Bit to represent whether trace is + * sampled or not. When set, the least significant bit documents that the + * caller may have recorded trace data. A caller who does not record trace + * data out-of-band leaves this flag unset. + * + * see {@link TraceFlags} for valid flag values. + */ + traceFlags: number; + /** + * Tracing-system-specific info to propagate. + * + * The tracestate field value is a `list` as defined below. The `list` is a + * series of `list-members` separated by commas `,`, and a list-member is a + * key/value pair separated by an equals sign `=`. Spaces and horizontal tabs + * surrounding `list-members` are ignored. There can be a maximum of 32 + * `list-members` in a `list`. + * More Info: https://www.w3.org/TR/trace-context/#tracestate-field + * + * Examples: + * Single tracing system (generic format): + * tracestate: rojo=00f067aa0ba902b7 + * Multiple tracing systems (with different formatting): + * tracestate: rojo=00f067aa0ba902b7,congo=t61rcWkgMzE + */ + traceState?: TraceState; +} + +declare enum SpanKind { + /** Default value. Indicates that the span is used internally. */ + INTERNAL = 0, + /** + * Indicates that the span covers server-side handling of an RPC or other + * remote request. + */ + SERVER = 1, + /** + * Indicates that the span covers the client-side wrapper around an RPC or + * other remote request. + */ + CLIENT = 2, + /** + * Indicates that the span describes producer sending a message to a + * broker. Unlike client and server, there is no direct critical path latency + * relationship between producer and consumer spans. + */ + PRODUCER = 3, + /** + * Indicates that the span describes consumer receiving a message from a + * broker. Unlike client and server, there is no direct critical path latency + * relationship between producer and consumer spans. + */ + CONSUMER = 4 +} + +/** + * Options needed for span creation + */ +declare interface SpanOptions { + /** + * The SpanKind of a span + * @default {@link SpanKind.INTERNAL} + */ + kind?: SpanKind; + /** A span's attributes */ + attributes?: SpanAttributes; + /** {@link Link}s span to other spans */ + links?: Link[]; + /** A manually specified start time for the created `Span` object. */ + startTime?: TimeInput; + /** The new span should be a root span. (Ignore parent from context). */ + root?: boolean; +} + +declare interface SpanStatus { + /** The status code of this message. */ + code: SpanStatusCode; + /** A developer-facing error message. */ + message?: string; +} + +/** + * An enumeration of status codes. + */ +declare enum SpanStatusCode { + /** + * The default status. + */ + UNSET = 0, + /** + * The operation has been validated by an Application developer or + * Operator to have completed successfully. + */ + OK = 1, + /** + * The operation contains an error. + */ + ERROR = 2 +} + +/** + * A SQL instance can be nested within each other to build SQL strings. + */ +export declare class Sql { + readonly values: Value[]; + readonly strings: string[]; + constructor(rawStrings: readonly string[], rawValues: readonly RawValue[]); + get sql(): string; + get statement(): string; + get text(): string; + inspect(): { + sql: string; + statement: string; + text: string; + values: unknown[]; + }; +} + +declare interface SqlDriverAdapter extends SqlQueryable { + /** + * Execute multiple SQL statements separated by semicolon. + */ + executeScript(script: string): Promise; + /** + * Start new transaction. + */ + startTransaction(isolationLevel?: IsolationLevel): Promise; + /** + * Optional method that returns extra connection info + */ + getConnectionInfo?(): ConnectionInfo; + /** + * Dispose of the connection and release any resources. + */ + dispose(): Promise; +} + +export declare interface SqlDriverAdapterFactory extends DriverAdapterFactory { + connect(): Promise; +} + +declare type SqlQuery = { + sql: string; + args: Array; + argTypes: Array; +}; + +declare interface SqlQueryable extends Queryable { +} + +declare interface SqlResultSet { + /** + * List of column types appearing in a database query, in the same order as `columnNames`. + * They are used within the Query Engine to convert values from JS to Quaint values. + */ + columnTypes: Array; + /** + * List of column names appearing in a database query, in the same order as `columnTypes`. + */ + columnNames: Array; + /** + * List of rows retrieved from a database query. + * Each row is a list of values, whose length matches `columnNames` and `columnTypes`. + */ + rows: Array>; + /** + * The last ID of an `INSERT` statement, if any. + * This is required for `AUTO_INCREMENT` columns in databases based on MySQL and SQLite. + */ + lastInsertId?: string; +} + +/** + * Create a SQL object from a template string. + */ +export declare function sqltag(strings: readonly string[], ...values: readonly RawValue[]): Sql; + +/** + * Defines TimeInput. + * + * hrtime, epoch milliseconds, performance.now() or Date + */ +declare type TimeInput = HrTime_2 | number | Date; + +export declare type ToTuple = T extends any[] ? T : [T]; + +declare interface TraceState { + /** + * Create a new TraceState which inherits from this TraceState and has the + * given key set. + * The new entry will always be added in the front of the list of states. + * + * @param key key of the TraceState entry. + * @param value value of the TraceState entry. + */ + set(key: string, value: string): TraceState; + /** + * Return a new TraceState which inherits from this TraceState but does not + * contain the given key. + * + * @param key the key for the TraceState entry to be removed. + */ + unset(key: string): TraceState; + /** + * Returns the value to which the specified key is mapped, or `undefined` if + * this map contains no mapping for the key. + * + * @param key with which the specified value is to be associated. + * @returns the value to which the specified key is mapped, or `undefined` if + * this map contains no mapping for the key. + */ + get(key: string): string | undefined; + /** + * Serializes the TraceState to a `list` as defined below. The `list` is a + * series of `list-members` separated by commas `,`, and a list-member is a + * key/value pair separated by an equals sign `=`. Spaces and horizontal tabs + * surrounding `list-members` are ignored. There can be a maximum of 32 + * `list-members` in a `list`. + * + * @returns the serialized string. + */ + serialize(): string; +} + +declare interface TracingHelper { + isEnabled(): boolean; + getTraceParent(context?: Context): string; + dispatchEngineSpans(spans: EngineSpan[]): void; + getActiveContext(): Context | undefined; + runInChildSpan(nameOrOptions: string | ExtendedSpanOptions, callback: SpanCallback): R; +} + +declare interface Transaction extends AdapterInfo, SqlQueryable { + /** + * Transaction options. + */ + readonly options: TransactionOptions; + /** + * Commit the transaction. + */ + commit(): Promise; + /** + * Roll back the transaction. + */ + rollback(): Promise; +} + +declare namespace Transaction_2 { + export { + Options, + IsolationLevel_2 as IsolationLevel, + InteractiveTransactionInfo, + TransactionHeaders + } +} + +declare type TransactionHeaders = { + traceparent?: string; +}; + +declare type TransactionOptions = { + usePhantomQuery: boolean; +}; + +declare type TransactionOptions_2 = { + kind: 'itx'; + options: InteractiveTransactionOptions; +} | { + kind: 'batch'; + options: BatchTransactionOptions; +}; + +export declare class TypedSql { + [PrivateResultType]: Result; + constructor(sql: string, values: Values); + get sql(): string; + get values(): Values; +} + +export declare type TypeMapCbDef = Fn<{ + extArgs: InternalArgs; +}, TypeMapDef>; + +/** Shared */ +export declare type TypeMapDef = Record; + +declare type TypeRef = { + isList: boolean; + type: string; + location: AllowedLocations; + namespace?: FieldNamespace; +}; + +declare namespace Types { + export { + Result_3 as Result, + Extensions_2 as Extensions, + Utils, + Public_2 as Public, + isSkip, + Skip, + skip, + UnknownTypedSql, + OperationPayload as Payload + } +} +export { Types } + +declare type uniqueIndex = ReadonlyDeep_2<{ + name: string; + fields: string[]; +}>; + +declare type UnknownErrorParams = { + clientVersion: string; + batchRequestIdx?: number; +}; + +export declare type UnknownTypedSql = TypedSql; + +declare type Unpacker = (data: any) => any; + +export declare type UnwrapPayload

= {} extends P ? unknown : { + [K in keyof P]: P[K] extends { + scalars: infer S; + composites: infer C; + }[] ? Array> : P[K] extends { + scalars: infer S; + composites: infer C; + } | null ? S & UnwrapPayload | Select : never; +}; + +export declare type UnwrapPromise

= P extends Promise ? R : P; + +export declare type UnwrapTuple = { + [K in keyof Tuple]: K extends `${number}` ? Tuple[K] extends PrismaPromise ? X : UnwrapPromise : UnwrapPromise; +}; + +/** + * Input that flows from the user into the Client. + */ +declare type UserArgs_2 = any; + +declare namespace Utils { + export { + EmptyToUnknown, + NeverToUnknown, + PatchFlat, + Omit_2 as Omit, + Pick_2 as Pick, + ComputeDeep, + Compute, + OptionalFlat, + ReadonlyDeep, + Narrowable, + Narrow, + Exact, + Cast, + Record_2 as Record, + UnwrapPromise, + UnwrapTuple, + Path, + Fn, + Call, + RequiredKeys, + OptionalKeys, + Optional, + Return, + ToTuple, + RenameAndNestPayloadKeys, + PayloadToResult, + Select, + Equals, + Or, + JsPromise + } +} + +declare type ValidationError = { + error_identifier: 'RELATION_VIOLATION'; + context: { + relation: string; + modelA: string; + modelB: string; + }; +} | { + error_identifier: 'MISSING_RELATED_RECORD'; + context: { + model: string; + relation: string; + relationType: string; + operation: string; + neededFor?: string; + }; +} | { + error_identifier: 'MISSING_RECORD'; + context: { + operation: string; + }; +} | { + error_identifier: 'INCOMPLETE_CONNECT_INPUT'; + context: { + expectedRows: number; + }; +} | { + error_identifier: 'INCOMPLETE_CONNECT_OUTPUT'; + context: { + expectedRows: number; + relation: string; + relationType: string; + }; +} | { + error_identifier: 'RECORDS_NOT_CONNECTED'; + context: { + relation: string; + parent: string; + child: string; + }; +}; + +declare function validator(): (select: Exact) => S; + +declare function validator, O extends keyof C[M] & Operation>(client: C, model: M, operation: O): (select: Exact>) => S; + +declare function validator, O extends keyof C[M] & Operation, P extends keyof Args>(client: C, model: M, operation: O, prop: P): (select: Exact[P]>) => S; + +/** + * Values supported by SQL engine. + */ +export declare type Value = unknown; + +export declare function warnEnvConflicts(envPaths: any): void; + +export declare const warnOnce: (key: string, message: string, ...args: unknown[]) => void; + +export { }