Добавлены новые разделы в README.md для работы с базой данных, включая команды и информацию о категориях. Обновлены компоненты UserSettings для улучшения обработки телефонных номеров, добавлена возможность оставлять поле WhatsApp пустым. Реализованы новые мутации для управления категориями в GraphQL, включая создание, обновление и удаление категорий с проверками на уникальность и наличие товаров.
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370
prisma/generated/client/runtime/index-browser.d.ts
vendored
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370
prisma/generated/client/runtime/index-browser.d.ts
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declare class AnyNull extends NullTypesEnumValue {
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#private;
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}
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declare type Args<T, F extends Operation> = T extends {
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[K: symbol]: {
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types: {
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operations: {
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[K in F]: {
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args: any;
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};
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};
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};
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};
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} ? T[symbol]['types']['operations'][F]['args'] : any;
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declare class DbNull extends NullTypesEnumValue {
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#private;
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}
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export declare function Decimal(n: Decimal.Value): Decimal;
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export declare namespace Decimal {
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export type Constructor = typeof Decimal;
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export type Instance = Decimal;
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export type Rounding = 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8;
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export type Modulo = Rounding | 9;
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export type Value = string | number | Decimal;
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// http://mikemcl.github.io/decimal.js/#constructor-properties
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export interface Config {
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precision?: number;
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rounding?: Rounding;
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toExpNeg?: number;
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toExpPos?: number;
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minE?: number;
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maxE?: number;
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crypto?: boolean;
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modulo?: Modulo;
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defaults?: boolean;
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}
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}
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export declare class Decimal {
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readonly d: number[];
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readonly e: number;
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readonly s: number;
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constructor(n: Decimal.Value);
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absoluteValue(): Decimal;
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abs(): Decimal;
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ceil(): Decimal;
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clampedTo(min: Decimal.Value, max: Decimal.Value): Decimal;
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clamp(min: Decimal.Value, max: Decimal.Value): Decimal;
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comparedTo(n: Decimal.Value): number;
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cmp(n: Decimal.Value): number;
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cosine(): Decimal;
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cos(): Decimal;
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cubeRoot(): Decimal;
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cbrt(): Decimal;
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decimalPlaces(): number;
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dp(): number;
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dividedBy(n: Decimal.Value): Decimal;
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div(n: Decimal.Value): Decimal;
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dividedToIntegerBy(n: Decimal.Value): Decimal;
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divToInt(n: Decimal.Value): Decimal;
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equals(n: Decimal.Value): boolean;
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eq(n: Decimal.Value): boolean;
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floor(): Decimal;
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greaterThan(n: Decimal.Value): boolean;
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gt(n: Decimal.Value): boolean;
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greaterThanOrEqualTo(n: Decimal.Value): boolean;
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gte(n: Decimal.Value): boolean;
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hyperbolicCosine(): Decimal;
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cosh(): Decimal;
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hyperbolicSine(): Decimal;
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sinh(): Decimal;
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hyperbolicTangent(): Decimal;
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tanh(): Decimal;
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inverseCosine(): Decimal;
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acos(): Decimal;
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inverseHyperbolicCosine(): Decimal;
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acosh(): Decimal;
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inverseHyperbolicSine(): Decimal;
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asinh(): Decimal;
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inverseHyperbolicTangent(): Decimal;
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atanh(): Decimal;
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inverseSine(): Decimal;
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asin(): Decimal;
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inverseTangent(): Decimal;
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atan(): Decimal;
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isFinite(): boolean;
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isInteger(): boolean;
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isInt(): boolean;
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isNaN(): boolean;
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isNegative(): boolean;
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isNeg(): boolean;
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isPositive(): boolean;
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isPos(): boolean;
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isZero(): boolean;
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lessThan(n: Decimal.Value): boolean;
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lt(n: Decimal.Value): boolean;
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lessThanOrEqualTo(n: Decimal.Value): boolean;
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lte(n: Decimal.Value): boolean;
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logarithm(n?: Decimal.Value): Decimal;
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log(n?: Decimal.Value): Decimal;
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minus(n: Decimal.Value): Decimal;
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sub(n: Decimal.Value): Decimal;
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modulo(n: Decimal.Value): Decimal;
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mod(n: Decimal.Value): Decimal;
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naturalExponential(): Decimal;
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exp(): Decimal;
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naturalLogarithm(): Decimal;
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ln(): Decimal;
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negated(): Decimal;
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neg(): Decimal;
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plus(n: Decimal.Value): Decimal;
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add(n: Decimal.Value): Decimal;
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precision(includeZeros?: boolean): number;
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sd(includeZeros?: boolean): number;
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round(): Decimal;
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sine() : Decimal;
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sin() : Decimal;
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squareRoot(): Decimal;
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sqrt(): Decimal;
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tangent() : Decimal;
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tan() : Decimal;
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times(n: Decimal.Value): Decimal;
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mul(n: Decimal.Value) : Decimal;
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toBinary(significantDigits?: number): string;
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toBinary(significantDigits: number, rounding: Decimal.Rounding): string;
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toDecimalPlaces(decimalPlaces?: number): Decimal;
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toDecimalPlaces(decimalPlaces: number, rounding: Decimal.Rounding): Decimal;
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toDP(decimalPlaces?: number): Decimal;
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toDP(decimalPlaces: number, rounding: Decimal.Rounding): Decimal;
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toExponential(decimalPlaces?: number): string;
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toExponential(decimalPlaces: number, rounding: Decimal.Rounding): string;
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toFixed(decimalPlaces?: number): string;
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toFixed(decimalPlaces: number, rounding: Decimal.Rounding): string;
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toFraction(max_denominator?: Decimal.Value): Decimal[];
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toHexadecimal(significantDigits?: number): string;
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toHexadecimal(significantDigits: number, rounding: Decimal.Rounding): string;
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toHex(significantDigits?: number): string;
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toHex(significantDigits: number, rounding?: Decimal.Rounding): string;
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toJSON(): string;
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toNearest(n: Decimal.Value, rounding?: Decimal.Rounding): Decimal;
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toNumber(): number;
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toOctal(significantDigits?: number): string;
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toOctal(significantDigits: number, rounding: Decimal.Rounding): string;
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toPower(n: Decimal.Value): Decimal;
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pow(n: Decimal.Value): Decimal;
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toPrecision(significantDigits?: number): string;
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toPrecision(significantDigits: number, rounding: Decimal.Rounding): string;
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toSignificantDigits(significantDigits?: number): Decimal;
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toSignificantDigits(significantDigits: number, rounding: Decimal.Rounding): Decimal;
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toSD(significantDigits?: number): Decimal;
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toSD(significantDigits: number, rounding: Decimal.Rounding): Decimal;
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toString(): string;
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truncated(): Decimal;
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trunc(): Decimal;
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valueOf(): string;
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static abs(n: Decimal.Value): Decimal;
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static acos(n: Decimal.Value): Decimal;
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static acosh(n: Decimal.Value): Decimal;
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static add(x: Decimal.Value, y: Decimal.Value): Decimal;
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static asin(n: Decimal.Value): Decimal;
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static asinh(n: Decimal.Value): Decimal;
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static atan(n: Decimal.Value): Decimal;
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static atanh(n: Decimal.Value): Decimal;
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static atan2(y: Decimal.Value, x: Decimal.Value): Decimal;
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static cbrt(n: Decimal.Value): Decimal;
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static ceil(n: Decimal.Value): Decimal;
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static clamp(n: Decimal.Value, min: Decimal.Value, max: Decimal.Value): Decimal;
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static clone(object?: Decimal.Config): Decimal.Constructor;
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static config(object: Decimal.Config): Decimal.Constructor;
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static cos(n: Decimal.Value): Decimal;
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static cosh(n: Decimal.Value): Decimal;
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static div(x: Decimal.Value, y: Decimal.Value): Decimal;
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static exp(n: Decimal.Value): Decimal;
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static floor(n: Decimal.Value): Decimal;
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static hypot(...n: Decimal.Value[]): Decimal;
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static isDecimal(object: any): object is Decimal;
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static ln(n: Decimal.Value): Decimal;
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static log(n: Decimal.Value, base?: Decimal.Value): Decimal;
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static log2(n: Decimal.Value): Decimal;
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static log10(n: Decimal.Value): Decimal;
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static max(...n: Decimal.Value[]): Decimal;
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static min(...n: Decimal.Value[]): Decimal;
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static mod(x: Decimal.Value, y: Decimal.Value): Decimal;
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static mul(x: Decimal.Value, y: Decimal.Value): Decimal;
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static noConflict(): Decimal.Constructor; // Browser only
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static pow(base: Decimal.Value, exponent: Decimal.Value): Decimal;
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static random(significantDigits?: number): Decimal;
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static round(n: Decimal.Value): Decimal;
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static set(object: Decimal.Config): Decimal.Constructor;
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static sign(n: Decimal.Value): number;
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static sin(n: Decimal.Value): Decimal;
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static sinh(n: Decimal.Value): Decimal;
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static sqrt(n: Decimal.Value): Decimal;
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static sub(x: Decimal.Value, y: Decimal.Value): Decimal;
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static sum(...n: Decimal.Value[]): Decimal;
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static tan(n: Decimal.Value): Decimal;
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static tanh(n: Decimal.Value): Decimal;
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static trunc(n: Decimal.Value): Decimal;
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static readonly default?: Decimal.Constructor;
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static readonly Decimal?: Decimal.Constructor;
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static readonly precision: number;
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static readonly rounding: Decimal.Rounding;
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static readonly toExpNeg: number;
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static readonly toExpPos: number;
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static readonly minE: number;
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static readonly maxE: number;
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static readonly crypto: boolean;
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static readonly modulo: Decimal.Modulo;
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static readonly ROUND_UP: 0;
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static readonly ROUND_DOWN: 1;
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static readonly ROUND_CEIL: 2;
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static readonly ROUND_FLOOR: 3;
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static readonly ROUND_HALF_UP: 4;
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static readonly ROUND_HALF_DOWN: 5;
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static readonly ROUND_HALF_EVEN: 6;
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static readonly ROUND_HALF_CEIL: 7;
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static readonly ROUND_HALF_FLOOR: 8;
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static readonly EUCLID: 9;
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}
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declare type Exact<A, W> = (A extends unknown ? (W extends A ? {
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[K in keyof A]: Exact<A[K], W[K]>;
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} : W) : never) | (A extends Narrowable ? A : never);
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export declare function getRuntime(): GetRuntimeOutput;
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declare type GetRuntimeOutput = {
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id: RuntimeName;
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prettyName: string;
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isEdge: boolean;
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};
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declare class JsonNull extends NullTypesEnumValue {
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#private;
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}
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/**
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* Generates more strict variant of an enum which, unlike regular enum,
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* throws on non-existing property access. This can be useful in following situations:
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* - we have an API, that accepts both `undefined` and `SomeEnumType` as an input
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* - enum values are generated dynamically from DMMF.
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*
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* In that case, if using normal enums and no compile-time typechecking, using non-existing property
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* will result in `undefined` value being used, which will be accepted. Using strict enum
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* in this case will help to have a runtime exception, telling you that you are probably doing something wrong.
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*
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* Note: if you need to check for existence of a value in the enum you can still use either
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* `in` operator or `hasOwnProperty` function.
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*
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* @param definition
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* @returns
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*/
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export declare function makeStrictEnum<T extends Record<PropertyKey, string | number>>(definition: T): T;
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declare type Narrowable = string | number | bigint | boolean | [];
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declare class NullTypesEnumValue extends ObjectEnumValue {
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_getNamespace(): string;
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}
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/**
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* Base class for unique values of object-valued enums.
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*/
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declare abstract class ObjectEnumValue {
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constructor(arg?: symbol);
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abstract _getNamespace(): string;
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_getName(): string;
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toString(): string;
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}
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export declare const objectEnumValues: {
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classes: {
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DbNull: typeof DbNull;
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JsonNull: typeof JsonNull;
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AnyNull: typeof AnyNull;
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};
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instances: {
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DbNull: DbNull;
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JsonNull: JsonNull;
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AnyNull: AnyNull;
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};
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};
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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';
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declare namespace Public {
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export {
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validator
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}
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}
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export { Public }
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declare type RuntimeName = 'workerd' | 'deno' | 'netlify' | 'node' | 'bun' | 'edge-light' | '';
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declare function validator<V>(): <S>(select: Exact<S, V>) => S;
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declare function validator<C, M extends Exclude<keyof C, `$${string}`>, O extends keyof C[M] & Operation>(client: C, model: M, operation: O): <S>(select: Exact<S, Args<C[M], O>>) => S;
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declare function validator<C, M extends Exclude<keyof C, `$${string}`>, O extends keyof C[M] & Operation, P extends keyof Args<C[M], O>>(client: C, model: M, operation: O, prop: P): <S>(select: Exact<S, Args<C[M], O>[P]>) => S;
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export { }
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Reference in New Issue
Block a user