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feat: add reminders page, BMad skills upgrade, MCP server refactor

Browse Source 
- Add reminders page with navigation support
- Upgrade BMad builder module to skills-based architecture
- Refactor MCP server: extract tools and auth into separate modules
- Add connections cache, custom AI provider support
- Update prisma schema and generated client
- Various UI/UX improvements and i18n updates
- Add service worker for PWA support

Made-with: Cursor
This commit is contained in:
Sepehr Ramezani
2026-04-13 21:02:53 +02:00
parent 18ed116e0d
commit fa7e166f3e
3099 changed files with 397228 additions and 14584 deletions
Download Patch File Download Diff File Expand all files Collapse all files

0
mcp-server/node_modules/.bin/prisma generated vendored Normal file → Executable file
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13
mcp-server/node_modules/.package-lock.json generated vendored
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@@ -1,6 +1,6 @@
{
"name": "memento-mcp-server",
"version": "1.0.0",
"version": "3.0.0",
"lockfileVersion": 3,
"requires": true,
"packages": {
@@ -734,7 +734,6 @@
"resolved": "https://registry.npmjs.org/express/-/express-4.22.1.tgz",
"integrity": "sha512-F2X8g9P1X7uCPZMA3MVf9wcTqlyNp7IhH5qPCI0izhaOIYXaW9L535tGA3qmjRzpH+bZczqq7hVKxTR4NWnu+g==",
"license": "MIT",
"peer": true,
"dependencies": {
"accepts": "~1.3.8",
"array-flatten": "1.1.1",
@@ -853,9 +852,7 @@
"version": "2.3.3",
"resolved": "https://registry.npmjs.org/fsevents/-/fsevents-2.3.3.tgz",
"integrity": "sha512-5xoDfX+fL7faATnagmWPpbFtwh/R77WmMMqqHGS65C3vvB0YHrgF+B1YmZ3441tMj5n63k0212XNoJwzlhffQw==",
"dev": true,
"hasInstallScript": true,
"ideallyInert": true,
"license": "MIT",
"optional": true,
"os": [
@@ -1207,7 +1204,6 @@
"devOptional": true,
"hasInstallScript": true,
"license": "Apache-2.0",
"peer": true,
"dependencies": {
"@prisma/engines": "5.22.0"
},
@@ -1588,11 +1584,10 @@
"license": "ISC"
},
"node_modules/zod": {
"version": "4.3.5",
"resolved": "https://registry.npmjs.org/zod/-/zod-4.3.5.tgz",
"integrity": "sha512-k7Nwx6vuWx1IJ9Bjuf4Zt1PEllcwe7cls3VNzm4CQ1/hgtFUK2bRNG3rvnpPUhFjmqJKAKtjV576KnUkHocg/g==",
"version": "4.3.6",
"resolved": "https://registry.npmjs.org/zod/-/zod-4.3.6.tgz",
"integrity": "sha512-rftlrkhHZOcjDwkGlnUtZZkvaPHCsDATp4pGpuOOMDaTdDDXF91wuVDJoWoPsKX/3YPQ5fHuF3STjcYyKr+Qhg==",
"license": "MIT",
"peer": true,
"funding": {
"url": "https://github.com/sponsors/colinhacks"
}

8
mcp-server/node_modules/.prisma/client/edge.js generated vendored
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@@ -282,7 +282,7 @@ const config = {
"value": "prisma-client-js"
},
"output": {
"value": "D:\\dev_new_pc\\Keep\\mcp-server\\node_modules\\.prisma\\client",
"value": "/Users/sepehr/dev/Keep/mcp-server/node_modules/.prisma/client",
"fromEnvVar": null
},
"config": {
@@ -291,12 +291,12 @@ const config = {
"binaryTargets": [
{
"fromEnvVar": null,
"value": "windows",
"value": "darwin-arm64",
"native": true
}
],
"previewFeatures": [],
"sourceFilePath": "D:\\dev_new_pc\\Keep\\mcp-server\\prisma\\schema.prisma",
"sourceFilePath": "/Users/sepehr/dev/Keep/mcp-server/prisma/schema.prisma",
"isCustomOutput": true
},
"relativeEnvPaths": {
@@ -309,7 +309,7 @@ const config = {
"db"
],
"activeProvider": "sqlite",
"postinstall": false,
"postinstall": true,
"inlineDatasources": {
"db": {
"url": {

12
mcp-server/node_modules/.prisma/client/index.js generated vendored
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@@ -283,7 +283,7 @@ const config = {
"value": "prisma-client-js"
},
"output": {
"value": "D:\\dev_new_pc\\Keep\\mcp-server\\node_modules\\.prisma\\client",
"value": "/Users/sepehr/dev/Keep/mcp-server/node_modules/.prisma/client",
"fromEnvVar": null
},
"config": {
@@ -292,12 +292,12 @@ const config = {
"binaryTargets": [
{
"fromEnvVar": null,
"value": "windows",
"value": "darwin-arm64",
"native": true
}
],
"previewFeatures": [],
"sourceFilePath": "D:\\dev_new_pc\\Keep\\mcp-server\\prisma\\schema.prisma",
"sourceFilePath": "/Users/sepehr/dev/Keep/mcp-server/prisma/schema.prisma",
"isCustomOutput": true
},
"relativeEnvPaths": {
@@ -310,7 +310,7 @@ const config = {
"db"
],
"activeProvider": "sqlite",
"postinstall": false,
"postinstall": true,
"inlineDatasources": {
"db": {
"url": {
@@ -358,8 +358,8 @@ exports.PrismaClient = PrismaClient
Object.assign(exports, Prisma)
// file annotations for bundling tools to include these files
path.join(__dirname, "query_engine-windows.dll.node");
path.join(process.cwd(), "node_modules/.prisma/client/query_engine-windows.dll.node")
path.join(__dirname, "libquery_engine-darwin-arm64.dylib.node");
path.join(process.cwd(), "node_modules/.prisma/client/libquery_engine-darwin-arm64.dylib.node")
// file annotations for bundling tools to include these files
path.join(__dirname, "schema.prisma");
path.join(process.cwd(), "node_modules/.prisma/client/schema.prisma")

730
mcp-server/node_modules/.prisma/client/runtime/index-browser.d.ts generated vendored
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@@ -1,365 +1,365 @@
declare class AnyNull extends NullTypesEnumValue {
}
declare type Args<T, F extends Operation> = T extends {
[K: symbol]: {
types: {
operations: {
[K in F]: {
args: any;
};
};
};
};
} ? T[symbol]['types']['operations'][F]['args'] : any;
declare class DbNull extends NullTypesEnumValue {
}
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;
}
declare type Exact<A, W> = (A extends unknown ? (W extends A ? {
[K in keyof A]: Exact<A[K], W[K]>;
} : W) : never) | (A extends Narrowable ? A : never);
export declare function getRuntime(): GetRuntimeOutput;
declare type GetRuntimeOutput = {
id: Runtime;
prettyName: string;
isEdge: boolean;
};
declare class JsonNull extends NullTypesEnumValue {
}
/**
* 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<T extends Record<PropertyKey, string | number>>(definition: T): T;
declare type Narrowable = string | number | bigint | boolean | [];
declare class NullTypesEnumValue extends ObjectEnumValue {
_getNamespace(): string;
}
/**
* Base class for unique values of object-valued enums.
*/
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 type Operation = 'findFirst' | 'findFirstOrThrow' | 'findUnique' | 'findUniqueOrThrow' | 'findMany' | 'create' | 'createMany' | 'createManyAndReturn' | 'update' | 'updateMany' | 'upsert' | 'delete' | 'deleteMany' | 'aggregate' | 'count' | 'groupBy' | '$queryRaw' | '$executeRaw' | '$queryRawUnsafe' | '$executeRawUnsafe' | 'findRaw' | 'aggregateRaw' | '$runCommandRaw';
declare namespace Public {
export {
validator
}
}
export { Public }
declare type Runtime = "edge-routine" | "workerd" | "deno" | "lagon" | "react-native" | "netlify" | "electron" | "node" | "bun" | "edge-light" | "fastly" | "unknown";
declare function validator<V>(): <S>(select: Exact<S, V>) => S;
declare function validator<C, M extends Exclude<keyof C, `$${string}`>, O extends keyof C[M] & Operation>(client: C, model: M, operation: O): <S>(select: Exact<S, Args<C[M], O>>) => S;
declare function validator<C, M extends Exclude<keyof C, `$${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;
export { }
declare class AnyNull extends NullTypesEnumValue {
}
declare type Args<T, F extends Operation> = T extends {
[K: symbol]: {
types: {
operations: {
[K in F]: {
args: any;
};
};
};
};
} ? T[symbol]['types']['operations'][F]['args'] : any;
declare class DbNull extends NullTypesEnumValue {
}
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;
}
declare type Exact<A, W> = (A extends unknown ? (W extends A ? {
[K in keyof A]: Exact<A[K], W[K]>;
} : W) : never) | (A extends Narrowable ? A : never);
export declare function getRuntime(): GetRuntimeOutput;
declare type GetRuntimeOutput = {
id: Runtime;
prettyName: string;
isEdge: boolean;
};
declare class JsonNull extends NullTypesEnumValue {
}
/**
* 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<T extends Record<PropertyKey, string | number>>(definition: T): T;
declare type Narrowable = string | number | bigint | boolean | [];
declare class NullTypesEnumValue extends ObjectEnumValue {
_getNamespace(): string;
}
/**
* Base class for unique values of object-valued enums.
*/
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 type Operation = 'findFirst' | 'findFirstOrThrow' | 'findUnique' | 'findUniqueOrThrow' | 'findMany' | 'create' | 'createMany' | 'createManyAndReturn' | 'update' | 'updateMany' | 'upsert' | 'delete' | 'deleteMany' | 'aggregate' | 'count' | 'groupBy' | '$queryRaw' | '$executeRaw' | '$queryRawUnsafe' | '$executeRawUnsafe' | 'findRaw' | 'aggregateRaw' | '$runCommandRaw';
declare namespace Public {
export {
validator
}
}
export { Public }
declare type Runtime = "edge-routine" | "workerd" | "deno" | "lagon" | "react-native" | "netlify" | "electron" | "node" | "bun" | "edge-light" | "fastly" | "unknown";
declare function validator<V>(): <S>(select: Exact<S, V>) => S;
declare function validator<C, M extends Exclude<keyof C, `$${string}`>, O extends keyof C[M] & Operation>(client: C, model: M, operation: O): <S>(select: Exact<S, Args<C[M], O>>) => S;
declare function validator<C, M extends Exclude<keyof C, `$${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;
export { }

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mcp-server/node_modules/.prisma/client/runtime/library.d.ts generated vendored
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