/* !!! This is code generated by Prisma. Do not edit directly. !!! */ /* eslint-disable */ // biome-ignore-all lint: generated file // @ts-nocheck /* * WARNING: This is an internal file that is subject to change! * * 🛑 Under no circumstances should you import this file directly! 🛑 * * All exports from this file are wrapped under a `Prisma` namespace object in the client.ts file. * While this enables partial backward compatibility, it is not part of the stable public API. * * If you are looking for your Models, Enums, and Input Types, please import them from the respective * model files in the `model` directory! */ import * as runtime from '@prisma/client/runtime/client'; import type * as Prisma from '../models.ts'; import { type PrismaClient } from './class.ts'; export type * from '../models.ts'; export type DMMF = typeof runtime.DMMF; export type PrismaPromise = runtime.Types.Public.PrismaPromise; /** * Prisma Errors */ export const PrismaClientKnownRequestError = runtime.PrismaClientKnownRequestError; export type PrismaClientKnownRequestError = runtime.PrismaClientKnownRequestError; export const PrismaClientUnknownRequestError = runtime.PrismaClientUnknownRequestError; export type PrismaClientUnknownRequestError = runtime.PrismaClientUnknownRequestError; export const PrismaClientRustPanicError = runtime.PrismaClientRustPanicError; export type PrismaClientRustPanicError = runtime.PrismaClientRustPanicError; export const PrismaClientInitializationError = runtime.PrismaClientInitializationError; export type PrismaClientInitializationError = runtime.PrismaClientInitializationError; export const PrismaClientValidationError = runtime.PrismaClientValidationError; export type PrismaClientValidationError = runtime.PrismaClientValidationError; /** * Re-export of sql-template-tag */ export const sql = runtime.sqltag; export const empty = runtime.empty; export const join = runtime.join; export const raw = runtime.raw; export const Sql = runtime.Sql; export type Sql = runtime.Sql; /** * Decimal.js */ export const Decimal = runtime.Decimal; export type Decimal = runtime.Decimal; export type DecimalJsLike = runtime.DecimalJsLike; /** * Extensions */ export type Extension = runtime.Types.Extensions.UserArgs; export const getExtensionContext = runtime.Extensions.getExtensionContext; export type Args = runtime.Types.Public.Args< T, F >; export type Payload< T, F extends runtime.Operation = never, > = runtime.Types.Public.Payload; export type Result< T, A, F extends runtime.Operation, > = runtime.Types.Public.Result; export type Exact = runtime.Types.Public.Exact; export type PrismaVersion = { client: string; engine: string; }; /** * Prisma Client JS version: 7.0.0 * Query Engine version: 0c19ccc313cf9911a90d99d2ac2eb0280c76c513 */ export const prismaVersion: PrismaVersion = { client: '7.0.0', engine: '0c19ccc313cf9911a90d99d2ac2eb0280c76c513', }; /** * Utility Types */ export type Bytes = runtime.Bytes; export type JsonObject = runtime.JsonObject; export type JsonArray = runtime.JsonArray; export type JsonValue = runtime.JsonValue; export type InputJsonObject = runtime.InputJsonObject; export type InputJsonArray = runtime.InputJsonArray; export type InputJsonValue = runtime.InputJsonValue; export const NullTypes = { DbNull: runtime.NullTypes.DbNull as new ( secret: never, ) => typeof runtime.DbNull, JsonNull: runtime.NullTypes.JsonNull as new ( secret: never, ) => typeof runtime.JsonNull, AnyNull: runtime.NullTypes.AnyNull as new ( secret: never, ) => typeof runtime.AnyNull, }; /** * Helper for filtering JSON entries that have `null` on the database (empty on the db) * * @see https://www.prisma.io/docs/concepts/components/prisma-client/working-with-fields/working-with-json-fields#filtering-on-a-json-field */ export const DbNull = runtime.DbNull; /** * Helper for filtering JSON entries that have JSON `null` values (not empty on the db) * * @see https://www.prisma.io/docs/concepts/components/prisma-client/working-with-fields/working-with-json-fields#filtering-on-a-json-field */ export const JsonNull = runtime.JsonNull; /** * Helper for filtering JSON entries that are `Prisma.DbNull` or `Prisma.JsonNull` * * @see https://www.prisma.io/docs/concepts/components/prisma-client/working-with-fields/working-with-json-fields#filtering-on-a-json-field */ export const AnyNull = runtime.AnyNull; type SelectAndInclude = { select: any; include: any; }; type SelectAndOmit = { select: any; omit: any; }; /** * From T, pick a set of properties whose keys are in the union K */ type Prisma__Pick = { [P in K]: T[P]; }; export type Enumerable = T | Array; /** * Subset * @desc From `T` pick properties that exist in `U`. Simple version of Intersection */ export type Subset = { [key in keyof T]: key extends keyof U ? T[key] : never; }; /** * SelectSubset * @desc From `T` pick properties that exist in `U`. Simple version of Intersection. * Additionally, it validates, if both select and include are present. If the case, it errors. */ export type SelectSubset = { [key in keyof T]: key extends keyof U ? T[key] : never; } & (T extends SelectAndInclude ? 'Please either choose `select` or `include`.' : T extends SelectAndOmit ? 'Please either choose `select` or `omit`.' : {}); /** * Subset + Intersection * @desc From `T` pick properties that exist in `U` and intersect `K` */ export type SubsetIntersection = { [key in keyof T]: key extends keyof U ? T[key] : never; } & K; type Without = { [P in Exclude]?: never }; /** * XOR is needed to have a real mutually exclusive union type * https://stackoverflow.com/questions/42123407/does-typescript-support-mutually-exclusive-types */ export type XOR = T extends object ? U extends object ? (Without & U) | (Without & T) : U : T; /** * Is T a Record? */ type IsObject = T extends Array ? False : T extends Date ? False : T extends Uint8Array ? False : T extends BigInt ? False : T extends object ? True : False; /** * If it's T[], return T */ export type UnEnumerate = T extends Array ? U : T; /** * From ts-toolbelt */ type __Either = Omit & { // Merge all but K [P in K]: Prisma__Pick; // With K possibilities }[K]; type EitherStrict = Strict<__Either>; type EitherLoose = ComputeRaw<__Either>; type _Either = { 1: EitherStrict; 0: EitherLoose; }[strict]; export type Either< O extends object, K extends Key, strict extends Boolean = 1, > = O extends unknown ? _Either : never; export type Union = any; export type PatchUndefined = { [K in keyof O]: O[K] extends undefined ? At : O[K]; } & {}; /** Helper Types for "Merge" **/ export type IntersectOf = ( U extends unknown ? (k: U) => void : never ) extends (k: infer I) => void ? I : never; export type Overwrite = { [K in keyof O]: K extends keyof O1 ? O1[K] : O[K]; } & {}; type _Merge = IntersectOf< Overwrite< U, { [K in keyof U]-?: At; } > >; type Key = string | number | symbol; type AtStrict = O[K & keyof O]; type AtLoose = O extends unknown ? AtStrict : never; export type At = { 1: AtStrict; 0: AtLoose; }[strict]; export type ComputeRaw = A extends Function ? A : { [K in keyof A]: A[K]; } & {}; export type OptionalFlat = { [K in keyof O]?: O[K]; } & {}; type _Record = { [P in K]: T; }; // cause typescript not to expand types and preserve names type NoExpand = T extends unknown ? T : never; // this type assumes the passed object is entirely optional export type AtLeast = NoExpand< O extends unknown ? | (K extends keyof O ? { [P in K]: O[P] } & O : O) | ({ [P in keyof O as P extends K ? P : never]-?: O[P] } & O) : never >; type _Strict = U extends unknown ? U & OptionalFlat<_Record, keyof U>, never>> : never; export type Strict = ComputeRaw<_Strict>; /** End Helper Types for "Merge" **/ export type Merge = ComputeRaw<_Merge>>; export type Boolean = True | False; export type True = 1; export type False = 0; export type Not = { 0: 1; 1: 0; }[B]; export type Extends = [A1] extends [never] ? 0 // anything `never` is false : A1 extends A2 ? 1 : 0; export type Has = Not< Extends, U1> >; export type Or = { 0: { 0: 0; 1: 1; }; 1: { 0: 1; 1: 1; }; }[B1][B2]; export type Keys = U extends unknown ? keyof U : never; export type GetScalarType = O extends object ? { [P in keyof T]: P extends keyof O ? O[P] : never; } : never; type FieldPaths< T, U = Omit, > = IsObject extends True ? U : T; export type GetHavingFields = { [K in keyof T]: Or< Or, Extends<'AND', K>>, Extends<'NOT', K> > extends True ? // infer is only needed to not hit TS limit // based on the brilliant idea of Pierre-Antoine Mills // https://github.com/microsoft/TypeScript/issues/30188#issuecomment-478938437 T[K] extends infer TK ? GetHavingFields< UnEnumerate extends object ? Merge> : never > : never : {} extends FieldPaths ? never : K; }[keyof T]; /** * Convert tuple to union */ type _TupleToUnion = T extends (infer E)[] ? E : never; type TupleToUnion = _TupleToUnion; export type MaybeTupleToUnion = T extends any[] ? TupleToUnion : T; /** * Like `Pick`, but additionally can also accept an array of keys */ export type PickEnumerable< T, K extends Enumerable | keyof T, > = Prisma__Pick>; /** * Exclude all keys with underscores */ export type ExcludeUnderscoreKeys = T extends `_${string}` ? never : T; export type FieldRef = runtime.FieldRef; type FieldRefInputType = Model extends never ? never : FieldRef; export const ModelName = { Project: 'Project', User: 'User', Pipeline: 'Pipeline', Step: 'Step', Deployment: 'Deployment', } as const; export type ModelName = (typeof ModelName)[keyof typeof ModelName]; export interface TypeMapCb extends runtime.Types.Utils.Fn< { extArgs: runtime.Types.Extensions.InternalArgs }, runtime.Types.Utils.Record > { returns: TypeMap; } export type TypeMap< ExtArgs extends runtime.Types.Extensions.InternalArgs = runtime.Types.Extensions.DefaultArgs, GlobalOmitOptions = {}, > = { globalOmitOptions: { omit: GlobalOmitOptions; }; meta: { modelProps: 'project' | 'user' | 'pipeline' | 'step' | 'deployment'; txIsolationLevel: TransactionIsolationLevel; }; model: { Project: { payload: Prisma.$ProjectPayload; fields: Prisma.ProjectFieldRefs; operations: { findUnique: { args: Prisma.ProjectFindUniqueArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findUniqueOrThrow: { args: Prisma.ProjectFindUniqueOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findFirst: { args: Prisma.ProjectFindFirstArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findFirstOrThrow: { args: Prisma.ProjectFindFirstOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findMany: { args: Prisma.ProjectFindManyArgs; result: runtime.Types.Utils.PayloadToResult[]; }; create: { args: Prisma.ProjectCreateArgs; result: runtime.Types.Utils.PayloadToResult; }; createMany: { args: Prisma.ProjectCreateManyArgs; result: BatchPayload; }; createManyAndReturn: { args: Prisma.ProjectCreateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; delete: { args: Prisma.ProjectDeleteArgs; result: runtime.Types.Utils.PayloadToResult; }; update: { args: Prisma.ProjectUpdateArgs; result: runtime.Types.Utils.PayloadToResult; }; deleteMany: { args: Prisma.ProjectDeleteManyArgs; result: BatchPayload; }; updateMany: { args: Prisma.ProjectUpdateManyArgs; result: BatchPayload; }; updateManyAndReturn: { args: Prisma.ProjectUpdateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; upsert: { args: Prisma.ProjectUpsertArgs; result: runtime.Types.Utils.PayloadToResult; }; aggregate: { args: Prisma.ProjectAggregateArgs; result: runtime.Types.Utils.Optional; }; groupBy: { args: Prisma.ProjectGroupByArgs; result: runtime.Types.Utils.Optional[]; }; count: { args: Prisma.ProjectCountArgs; result: | runtime.Types.Utils.Optional | number; }; }; }; User: { payload: Prisma.$UserPayload; fields: Prisma.UserFieldRefs; operations: { findUnique: { args: Prisma.UserFindUniqueArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findUniqueOrThrow: { args: Prisma.UserFindUniqueOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findFirst: { args: Prisma.UserFindFirstArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findFirstOrThrow: { args: Prisma.UserFindFirstOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findMany: { args: Prisma.UserFindManyArgs; result: runtime.Types.Utils.PayloadToResult[]; }; create: { args: Prisma.UserCreateArgs; result: runtime.Types.Utils.PayloadToResult; }; createMany: { args: Prisma.UserCreateManyArgs; result: BatchPayload; }; createManyAndReturn: { args: Prisma.UserCreateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; delete: { args: Prisma.UserDeleteArgs; result: runtime.Types.Utils.PayloadToResult; }; update: { args: Prisma.UserUpdateArgs; result: runtime.Types.Utils.PayloadToResult; }; deleteMany: { args: Prisma.UserDeleteManyArgs; result: BatchPayload; }; updateMany: { args: Prisma.UserUpdateManyArgs; result: BatchPayload; }; updateManyAndReturn: { args: Prisma.UserUpdateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; upsert: { args: Prisma.UserUpsertArgs; result: runtime.Types.Utils.PayloadToResult; }; aggregate: { args: Prisma.UserAggregateArgs; result: runtime.Types.Utils.Optional; }; groupBy: { args: Prisma.UserGroupByArgs; result: runtime.Types.Utils.Optional[]; }; count: { args: Prisma.UserCountArgs; result: | runtime.Types.Utils.Optional | number; }; }; }; Pipeline: { payload: Prisma.$PipelinePayload; fields: Prisma.PipelineFieldRefs; operations: { findUnique: { args: Prisma.PipelineFindUniqueArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findUniqueOrThrow: { args: Prisma.PipelineFindUniqueOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findFirst: { args: Prisma.PipelineFindFirstArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findFirstOrThrow: { args: Prisma.PipelineFindFirstOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findMany: { args: Prisma.PipelineFindManyArgs; result: runtime.Types.Utils.PayloadToResult[]; }; create: { args: Prisma.PipelineCreateArgs; result: runtime.Types.Utils.PayloadToResult; }; createMany: { args: Prisma.PipelineCreateManyArgs; result: BatchPayload; }; createManyAndReturn: { args: Prisma.PipelineCreateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; delete: { args: Prisma.PipelineDeleteArgs; result: runtime.Types.Utils.PayloadToResult; }; update: { args: Prisma.PipelineUpdateArgs; result: runtime.Types.Utils.PayloadToResult; }; deleteMany: { args: Prisma.PipelineDeleteManyArgs; result: BatchPayload; }; updateMany: { args: Prisma.PipelineUpdateManyArgs; result: BatchPayload; }; updateManyAndReturn: { args: Prisma.PipelineUpdateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; upsert: { args: Prisma.PipelineUpsertArgs; result: runtime.Types.Utils.PayloadToResult; }; aggregate: { args: Prisma.PipelineAggregateArgs; result: runtime.Types.Utils.Optional; }; groupBy: { args: Prisma.PipelineGroupByArgs; result: runtime.Types.Utils.Optional[]; }; count: { args: Prisma.PipelineCountArgs; result: | runtime.Types.Utils.Optional | number; }; }; }; Step: { payload: Prisma.$StepPayload; fields: Prisma.StepFieldRefs; operations: { findUnique: { args: Prisma.StepFindUniqueArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findUniqueOrThrow: { args: Prisma.StepFindUniqueOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findFirst: { args: Prisma.StepFindFirstArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findFirstOrThrow: { args: Prisma.StepFindFirstOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findMany: { args: Prisma.StepFindManyArgs; result: runtime.Types.Utils.PayloadToResult[]; }; create: { args: Prisma.StepCreateArgs; result: runtime.Types.Utils.PayloadToResult; }; createMany: { args: Prisma.StepCreateManyArgs; result: BatchPayload; }; createManyAndReturn: { args: Prisma.StepCreateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; delete: { args: Prisma.StepDeleteArgs; result: runtime.Types.Utils.PayloadToResult; }; update: { args: Prisma.StepUpdateArgs; result: runtime.Types.Utils.PayloadToResult; }; deleteMany: { args: Prisma.StepDeleteManyArgs; result: BatchPayload; }; updateMany: { args: Prisma.StepUpdateManyArgs; result: BatchPayload; }; updateManyAndReturn: { args: Prisma.StepUpdateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; upsert: { args: Prisma.StepUpsertArgs; result: runtime.Types.Utils.PayloadToResult; }; aggregate: { args: Prisma.StepAggregateArgs; result: runtime.Types.Utils.Optional; }; groupBy: { args: Prisma.StepGroupByArgs; result: runtime.Types.Utils.Optional[]; }; count: { args: Prisma.StepCountArgs; result: | runtime.Types.Utils.Optional | number; }; }; }; Deployment: { payload: Prisma.$DeploymentPayload; fields: Prisma.DeploymentFieldRefs; operations: { findUnique: { args: Prisma.DeploymentFindUniqueArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findUniqueOrThrow: { args: Prisma.DeploymentFindUniqueOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findFirst: { args: Prisma.DeploymentFindFirstArgs; result: runtime.Types.Utils.PayloadToResult | null; }; findFirstOrThrow: { args: Prisma.DeploymentFindFirstOrThrowArgs; result: runtime.Types.Utils.PayloadToResult; }; findMany: { args: Prisma.DeploymentFindManyArgs; result: runtime.Types.Utils.PayloadToResult[]; }; create: { args: Prisma.DeploymentCreateArgs; result: runtime.Types.Utils.PayloadToResult; }; createMany: { args: Prisma.DeploymentCreateManyArgs; result: BatchPayload; }; createManyAndReturn: { args: Prisma.DeploymentCreateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; delete: { args: Prisma.DeploymentDeleteArgs; result: runtime.Types.Utils.PayloadToResult; }; update: { args: Prisma.DeploymentUpdateArgs; result: runtime.Types.Utils.PayloadToResult; }; deleteMany: { args: Prisma.DeploymentDeleteManyArgs; result: BatchPayload; }; updateMany: { args: Prisma.DeploymentUpdateManyArgs; result: BatchPayload; }; updateManyAndReturn: { args: Prisma.DeploymentUpdateManyAndReturnArgs; result: runtime.Types.Utils.PayloadToResult[]; }; upsert: { args: Prisma.DeploymentUpsertArgs; result: runtime.Types.Utils.PayloadToResult; }; aggregate: { args: Prisma.DeploymentAggregateArgs; result: runtime.Types.Utils.Optional; }; groupBy: { args: Prisma.DeploymentGroupByArgs; result: runtime.Types.Utils.Optional[]; }; count: { args: Prisma.DeploymentCountArgs; result: | runtime.Types.Utils.Optional | number; }; }; }; }; } & { other: { payload: any; operations: { $executeRaw: { args: [query: TemplateStringsArray | Sql, ...values: any[]]; result: any; }; $executeRawUnsafe: { args: [query: string, ...values: any[]]; result: any; }; $queryRaw: { args: [query: TemplateStringsArray | Sql, ...values: any[]]; result: any; }; $queryRawUnsafe: { args: [query: string, ...values: any[]]; result: any; }; }; }; }; /** * Enums */ export const TransactionIsolationLevel = runtime.makeStrictEnum({ Serializable: 'Serializable', } as const); export type TransactionIsolationLevel = (typeof TransactionIsolationLevel)[keyof typeof TransactionIsolationLevel]; export const ProjectScalarFieldEnum = { id: 'id', name: 'name', description: 'description', repository: 'repository', projectDir: 'projectDir', envPresets: 'envPresets', valid: 'valid', createdAt: 'createdAt', updatedAt: 'updatedAt', createdBy: 'createdBy', updatedBy: 'updatedBy', } as const; export type ProjectScalarFieldEnum = (typeof ProjectScalarFieldEnum)[keyof typeof ProjectScalarFieldEnum]; export const UserScalarFieldEnum = { id: 'id', username: 'username', login: 'login', email: 'email', avatar_url: 'avatar_url', active: 'active', valid: 'valid', createdAt: 'createdAt', updatedAt: 'updatedAt', createdBy: 'createdBy', updatedBy: 'updatedBy', } as const; export type UserScalarFieldEnum = (typeof UserScalarFieldEnum)[keyof typeof UserScalarFieldEnum]; export const PipelineScalarFieldEnum = { id: 'id', name: 'name', description: 'description', valid: 'valid', createdAt: 'createdAt', updatedAt: 'updatedAt', createdBy: 'createdBy', updatedBy: 'updatedBy', projectId: 'projectId', } as const; export type PipelineScalarFieldEnum = (typeof PipelineScalarFieldEnum)[keyof typeof PipelineScalarFieldEnum]; export const StepScalarFieldEnum = { id: 'id', name: 'name', order: 'order', script: 'script', valid: 'valid', createdAt: 'createdAt', updatedAt: 'updatedAt', createdBy: 'createdBy', updatedBy: 'updatedBy', pipelineId: 'pipelineId', } as const; export type StepScalarFieldEnum = (typeof StepScalarFieldEnum)[keyof typeof StepScalarFieldEnum]; export const DeploymentScalarFieldEnum = { id: 'id', branch: 'branch', envVars: 'envVars', status: 'status', commitHash: 'commitHash', commitMessage: 'commitMessage', buildLog: 'buildLog', sparseCheckoutPaths: 'sparseCheckoutPaths', startedAt: 'startedAt', finishedAt: 'finishedAt', valid: 'valid', createdAt: 'createdAt', updatedAt: 'updatedAt', createdBy: 'createdBy', updatedBy: 'updatedBy', projectId: 'projectId', pipelineId: 'pipelineId', } as const; export type DeploymentScalarFieldEnum = (typeof DeploymentScalarFieldEnum)[keyof typeof DeploymentScalarFieldEnum]; export const SortOrder = { asc: 'asc', desc: 'desc', } as const; export type SortOrder = (typeof SortOrder)[keyof typeof SortOrder]; export const NullsOrder = { first: 'first', last: 'last', } as const; export type NullsOrder = (typeof NullsOrder)[keyof typeof NullsOrder]; /** * Field references */ /** * Reference to a field of type 'Int' */ export type IntFieldRefInput<$PrismaModel> = FieldRefInputType< $PrismaModel, 'Int' >; /** * Reference to a field of type 'String' */ export type StringFieldRefInput<$PrismaModel> = FieldRefInputType< $PrismaModel, 'String' >; /** * Reference to a field of type 'DateTime' */ export type DateTimeFieldRefInput<$PrismaModel> = FieldRefInputType< $PrismaModel, 'DateTime' >; /** * Reference to a field of type 'Boolean' */ export type BooleanFieldRefInput<$PrismaModel> = FieldRefInputType< $PrismaModel, 'Boolean' >; /** * Reference to a field of type 'Float' */ export type FloatFieldRefInput<$PrismaModel> = FieldRefInputType< $PrismaModel, 'Float' >; /** * Batch Payload for updateMany & deleteMany & createMany */ export type BatchPayload = { count: number; }; export const defineExtension = runtime.Extensions .defineExtension as unknown as runtime.Types.Extensions.ExtendsHook< 'define', TypeMapCb, runtime.Types.Extensions.DefaultArgs >; export type DefaultPrismaClient = PrismaClient; export type ErrorFormat = 'pretty' | 'colorless' | 'minimal'; export type PrismaClientOptions = ( | { /** * Instance of a Driver Adapter, e.g., like one provided by `@prisma/adapter-pg`. */ adapter: runtime.SqlDriverAdapterFactory; accelerateUrl?: never; } | { /** * Prisma Accelerate URL allowing the client to connect through Accelerate instead of a direct database. */ accelerateUrl: string; adapter?: never; } ) & { /** * @default "colorless" */ errorFormat?: ErrorFormat; /** * @example * ``` * // Shorthand for `emit: 'stdout'` * log: ['query', 'info', 'warn', 'error'] * * // Emit as events only * log: [ * { emit: 'event', level: 'query' }, * { emit: 'event', level: 'info' }, * { emit: 'event', level: 'warn' } * { emit: 'event', level: 'error' } * ] * * / Emit as events and log to stdout * og: [ * { emit: 'stdout', level: 'query' }, * { emit: 'stdout', level: 'info' }, * { emit: 'stdout', level: 'warn' } * { emit: 'stdout', level: 'error' } * * ``` * Read more in our [docs](https://www.prisma.io/docs/reference/tools-and-interfaces/prisma-client/logging#the-log-option). */ log?: (LogLevel | LogDefinition)[]; /** * The default values for transactionOptions * maxWait ?= 2000 * timeout ?= 5000 */ transactionOptions?: { maxWait?: number; timeout?: number; isolationLevel?: TransactionIsolationLevel; }; /** * Global configuration for omitting model fields by default. * * @example * ``` * const prisma = new PrismaClient({ * omit: { * user: { * password: true * } * } * }) * ``` */ omit?: GlobalOmitConfig; }; export type GlobalOmitConfig = { project?: Prisma.ProjectOmit; user?: Prisma.UserOmit; pipeline?: Prisma.PipelineOmit; step?: Prisma.StepOmit; deployment?: Prisma.DeploymentOmit; }; /* Types for Logging */ export type LogLevel = 'info' | 'query' | 'warn' | 'error'; export type LogDefinition = { level: LogLevel; emit: 'stdout' | 'event'; }; export type CheckIsLogLevel = T extends LogLevel ? T : never; export type GetLogType = CheckIsLogLevel< T extends LogDefinition ? T['level'] : T >; export type GetEvents = T extends Array< LogLevel | LogDefinition > ? GetLogType : never; export type QueryEvent = { timestamp: Date; query: string; params: string; duration: number; target: string; }; export type LogEvent = { timestamp: Date; message: string; target: string; }; /* End Types for Logging */ export type PrismaAction = | 'findUnique' | 'findUniqueOrThrow' | 'findMany' | 'findFirst' | 'findFirstOrThrow' | 'create' | 'createMany' | 'createManyAndReturn' | 'update' | 'updateMany' | 'updateManyAndReturn' | 'upsert' | 'delete' | 'deleteMany' | 'executeRaw' | 'queryRaw' | 'aggregate' | 'count' | 'runCommandRaw' | 'findRaw' | 'groupBy'; /** * `PrismaClient` proxy available in interactive transactions. */ export type TransactionClient = Omit< DefaultPrismaClient, runtime.ITXClientDenyList >;