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MIT License
Copyright (c) Meta Platforms, Inc. and affiliates.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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unified-ai-platform/node_modules/jest-mock/README.md generated vendored Normal file
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unified-ai-platform/node_modules/jest-mock/build/index.js generated vendored Normal file
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'use strict';
Object.defineProperty(exports, '__esModule', {
value: true
});
exports.spyOn =
exports.replaceProperty =
exports.mocked =
exports.fn =
exports.ModuleMocker =
void 0;
function _jestUtil() {
const data = require('jest-util');
_jestUtil = function () {
return data;
};
return data;
}
/**
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
/* eslint-disable local/ban-types-eventually, local/prefer-rest-params-eventually */
// TODO remove re-export in Jest 30
// TODO remove re-export in Jest 30
// TODO in Jest 30 remove `SpyInstance` in favour of `Spied`
// eslint-disable-next-line @typescript-eslint/no-empty-interface
/**
* All what the internal typings need is to be sure that we have any-function.
* `FunctionLike` type ensures that and helps to constrain the type as well.
* The default of `UnknownFunction` makes sure that `any`s do not leak to the
* user side. For instance, calling `fn()` without implementation will return
* a mock of `(...args: Array<unknown>) => unknown` type. If implementation
* is provided, its typings are inferred correctly.
*/
const MOCK_CONSTRUCTOR_NAME = 'mockConstructor';
const FUNCTION_NAME_RESERVED_PATTERN = /[\s!-/:-@[-`{-~]/;
const FUNCTION_NAME_RESERVED_REPLACE = new RegExp(
FUNCTION_NAME_RESERVED_PATTERN.source,
'g'
);
const RESERVED_KEYWORDS = new Set([
'arguments',
'await',
'break',
'case',
'catch',
'class',
'const',
'continue',
'debugger',
'default',
'delete',
'do',
'else',
'enum',
'eval',
'export',
'extends',
'false',
'finally',
'for',
'function',
'if',
'implements',
'import',
'in',
'instanceof',
'interface',
'let',
'new',
'null',
'package',
'private',
'protected',
'public',
'return',
'static',
'super',
'switch',
'this',
'throw',
'true',
'try',
'typeof',
'var',
'void',
'while',
'with',
'yield'
]);
function matchArity(fn, length) {
let mockConstructor;
switch (length) {
case 1:
mockConstructor = function (_a) {
return fn.apply(this, arguments);
};
break;
case 2:
mockConstructor = function (_a, _b) {
return fn.apply(this, arguments);
};
break;
case 3:
mockConstructor = function (_a, _b, _c) {
return fn.apply(this, arguments);
};
break;
case 4:
mockConstructor = function (_a, _b, _c, _d) {
return fn.apply(this, arguments);
};
break;
case 5:
mockConstructor = function (_a, _b, _c, _d, _e) {
return fn.apply(this, arguments);
};
break;
case 6:
mockConstructor = function (_a, _b, _c, _d, _e, _f) {
return fn.apply(this, arguments);
};
break;
case 7:
mockConstructor = function (_a, _b, _c, _d, _e, _f, _g) {
return fn.apply(this, arguments);
};
break;
case 8:
mockConstructor = function (_a, _b, _c, _d, _e, _f, _g, _h) {
return fn.apply(this, arguments);
};
break;
case 9:
mockConstructor = function (_a, _b, _c, _d, _e, _f, _g, _h, _i) {
return fn.apply(this, arguments);
};
break;
default:
mockConstructor = function () {
return fn.apply(this, arguments);
};
break;
}
return mockConstructor;
}
function getObjectType(value) {
return Object.prototype.toString.apply(value).slice(8, -1);
}
function getType(ref) {
const typeName = getObjectType(ref);
if (
typeName === 'Function' ||
typeName === 'AsyncFunction' ||
typeName === 'GeneratorFunction' ||
typeName === 'AsyncGeneratorFunction'
) {
return 'function';
} else if (Array.isArray(ref)) {
return 'array';
} else if (typeName === 'Object' || typeName === 'Module') {
return 'object';
} else if (
typeName === 'Number' ||
typeName === 'String' ||
typeName === 'Boolean' ||
typeName === 'Symbol'
) {
return 'constant';
} else if (
typeName === 'Map' ||
typeName === 'WeakMap' ||
typeName === 'Set'
) {
return 'collection';
} else if (typeName === 'RegExp') {
return 'regexp';
} else if (ref === undefined) {
return 'undefined';
} else if (ref === null) {
return 'null';
} else {
return null;
}
}
function isReadonlyProp(object, prop) {
if (
prop === 'arguments' ||
prop === 'caller' ||
prop === 'callee' ||
prop === 'name' ||
prop === 'length'
) {
const typeName = getObjectType(object);
return (
typeName === 'Function' ||
typeName === 'AsyncFunction' ||
typeName === 'GeneratorFunction' ||
typeName === 'AsyncGeneratorFunction'
);
}
if (
prop === 'source' ||
prop === 'global' ||
prop === 'ignoreCase' ||
prop === 'multiline'
) {
return getObjectType(object) === 'RegExp';
}
return false;
}
class ModuleMocker {
_environmentGlobal;
_mockState;
_mockConfigRegistry;
_spyState;
_invocationCallCounter;
/**
* @see README.md
* @param global Global object of the test environment, used to create
* mocks
*/
constructor(global) {
this._environmentGlobal = global;
this._mockState = new WeakMap();
this._mockConfigRegistry = new WeakMap();
this._spyState = new Set();
this._invocationCallCounter = 1;
}
_getSlots(object) {
if (!object) {
return [];
}
const slots = new Set();
const EnvObjectProto = this._environmentGlobal.Object.prototype;
const EnvFunctionProto = this._environmentGlobal.Function.prototype;
const EnvRegExpProto = this._environmentGlobal.RegExp.prototype;
// Also check the builtins in the current context as they leak through
// core node modules.
const ObjectProto = Object.prototype;
const FunctionProto = Function.prototype;
const RegExpProto = RegExp.prototype;
// Properties of Object.prototype, Function.prototype and RegExp.prototype
// are never reported as slots
while (
object != null &&
object !== EnvObjectProto &&
object !== EnvFunctionProto &&
object !== EnvRegExpProto &&
object !== ObjectProto &&
object !== FunctionProto &&
object !== RegExpProto
) {
const ownNames = Object.getOwnPropertyNames(object);
for (let i = 0; i < ownNames.length; i++) {
const prop = ownNames[i];
if (!isReadonlyProp(object, prop)) {
const propDesc = Object.getOwnPropertyDescriptor(object, prop);
if ((propDesc !== undefined && !propDesc.get) || object.__esModule) {
slots.add(prop);
}
}
}
object = Object.getPrototypeOf(object);
}
return Array.from(slots);
}
_ensureMockConfig(f) {
let config = this._mockConfigRegistry.get(f);
if (!config) {
config = this._defaultMockConfig();
this._mockConfigRegistry.set(f, config);
}
return config;
}
_ensureMockState(f) {
let state = this._mockState.get(f);
if (!state) {
state = this._defaultMockState();
this._mockState.set(f, state);
}
if (state.calls.length > 0) {
state.lastCall = state.calls[state.calls.length - 1];
}
return state;
}
_defaultMockConfig() {
return {
mockImpl: undefined,
mockName: 'jest.fn()',
specificMockImpls: []
};
}
_defaultMockState() {
return {
calls: [],
contexts: [],
instances: [],
invocationCallOrder: [],
results: []
};
}
_makeComponent(metadata, restore) {
if (metadata.type === 'object') {
return new this._environmentGlobal.Object();
} else if (metadata.type === 'array') {
return new this._environmentGlobal.Array();
} else if (metadata.type === 'regexp') {
return new this._environmentGlobal.RegExp('');
} else if (
metadata.type === 'constant' ||
metadata.type === 'collection' ||
metadata.type === 'null' ||
metadata.type === 'undefined'
) {
return metadata.value;
} else if (metadata.type === 'function') {
const prototype =
(metadata.members &&
metadata.members.prototype &&
metadata.members.prototype.members) ||
{};
const prototypeSlots = this._getSlots(prototype);
// eslint-disable-next-line @typescript-eslint/no-this-alias
const mocker = this;
const mockConstructor = matchArity(function (...args) {
const mockState = mocker._ensureMockState(f);
const mockConfig = mocker._ensureMockConfig(f);
mockState.instances.push(this);
mockState.contexts.push(this);
mockState.calls.push(args);
// Create and record an "incomplete" mock result immediately upon
// calling rather than waiting for the mock to return. This avoids
// issues caused by recursion where results can be recorded in the
// wrong order.
const mockResult = {
type: 'incomplete',
value: undefined
};
mockState.results.push(mockResult);
mockState.invocationCallOrder.push(mocker._invocationCallCounter++);
// Will be set to the return value of the mock if an error is not thrown
let finalReturnValue;
// Will be set to the error that is thrown by the mock (if it throws)
let thrownError;
// Will be set to true if the mock throws an error. The presence of a
// value in `thrownError` is not a 100% reliable indicator because a
// function could throw a value of undefined.
let callDidThrowError = false;
try {
// The bulk of the implementation is wrapped in an immediately
// executed arrow function so the return value of the mock function
// can be easily captured and recorded, despite the many separate
// return points within the logic.
finalReturnValue = (() => {
if (this instanceof f) {
// This is probably being called as a constructor
prototypeSlots.forEach(slot => {
// Copy prototype methods to the instance to make
// it easier to interact with mock instance call and
// return values
if (prototype[slot].type === 'function') {
// @ts-expect-error no index signature
const protoImpl = this[slot];
// @ts-expect-error no index signature
this[slot] = mocker.generateFromMetadata(prototype[slot]);
// @ts-expect-error no index signature
this[slot]._protoImpl = protoImpl;
}
});
// Run the mock constructor implementation
const mockImpl = mockConfig.specificMockImpls.length
? mockConfig.specificMockImpls.shift()
: mockConfig.mockImpl;
return mockImpl && mockImpl.apply(this, arguments);
}
// If mockImplementationOnce()/mockImplementation() is last set,
// implementation use the mock
let specificMockImpl = mockConfig.specificMockImpls.shift();
if (specificMockImpl === undefined) {
specificMockImpl = mockConfig.mockImpl;
}
if (specificMockImpl) {
return specificMockImpl.apply(this, arguments);
}
// Otherwise use prototype implementation
if (f._protoImpl) {
return f._protoImpl.apply(this, arguments);
}
return undefined;
})();
} catch (error) {
// Store the thrown error so we can record it, then re-throw it.
thrownError = error;
callDidThrowError = true;
throw error;
} finally {
// Record the result of the function.
// NOTE: Intentionally NOT pushing/indexing into the array of mock
// results here to avoid corrupting results data if mockClear()
// is called during the execution of the mock.
// @ts-expect-error reassigning 'incomplete'
mockResult.type = callDidThrowError ? 'throw' : 'return';
mockResult.value = callDidThrowError ? thrownError : finalReturnValue;
}
return finalReturnValue;
}, metadata.length || 0);
const f = this._createMockFunction(metadata, mockConstructor);
f._isMockFunction = true;
f.getMockImplementation = () => this._ensureMockConfig(f).mockImpl;
if (typeof restore === 'function') {
this._spyState.add(restore);
}
this._mockState.set(f, this._defaultMockState());
this._mockConfigRegistry.set(f, this._defaultMockConfig());
Object.defineProperty(f, 'mock', {
configurable: false,
enumerable: true,
get: () => this._ensureMockState(f),
set: val => this._mockState.set(f, val)
});
f.mockClear = () => {
this._mockState.delete(f);
return f;
};
f.mockReset = () => {
f.mockClear();
this._mockConfigRegistry.delete(f);
return f;
};
f.mockRestore = () => {
f.mockReset();
return restore ? restore() : undefined;
};
f.mockReturnValueOnce = value =>
// next function call will return this value or default return value
f.mockImplementationOnce(() => value);
f.mockResolvedValueOnce = value =>
f.mockImplementationOnce(() =>
this._environmentGlobal.Promise.resolve(value)
);
f.mockRejectedValueOnce = value =>
f.mockImplementationOnce(() =>
this._environmentGlobal.Promise.reject(value)
);
f.mockReturnValue = value =>
// next function call will return specified return value or this one
f.mockImplementation(() => value);
f.mockResolvedValue = value =>
f.mockImplementation(() =>
this._environmentGlobal.Promise.resolve(value)
);
f.mockRejectedValue = value =>
f.mockImplementation(() =>
this._environmentGlobal.Promise.reject(value)
);
f.mockImplementationOnce = fn => {
// next function call will use this mock implementation return value
// or default mock implementation return value
const mockConfig = this._ensureMockConfig(f);
mockConfig.specificMockImpls.push(fn);
return f;
};
f.withImplementation = withImplementation.bind(this);
function withImplementation(fn, callback) {
// Remember previous mock implementation, then set new one
const mockConfig = this._ensureMockConfig(f);
const previousImplementation = mockConfig.mockImpl;
const previousSpecificImplementations = mockConfig.specificMockImpls;
mockConfig.mockImpl = fn;
mockConfig.specificMockImpls = [];
const returnedValue = callback();
if ((0, _jestUtil().isPromise)(returnedValue)) {
return returnedValue.then(() => {
mockConfig.mockImpl = previousImplementation;
mockConfig.specificMockImpls = previousSpecificImplementations;
});
} else {
mockConfig.mockImpl = previousImplementation;
mockConfig.specificMockImpls = previousSpecificImplementations;
}
}
f.mockImplementation = fn => {
// next function call will use mock implementation return value
const mockConfig = this._ensureMockConfig(f);
mockConfig.mockImpl = fn;
return f;
};
f.mockReturnThis = () =>
f.mockImplementation(function () {
return this;
});
f.mockName = name => {
if (name) {
const mockConfig = this._ensureMockConfig(f);
mockConfig.mockName = name;
}
return f;
};
f.getMockName = () => {
const mockConfig = this._ensureMockConfig(f);
return mockConfig.mockName || 'jest.fn()';
};
if (metadata.mockImpl) {
f.mockImplementation(metadata.mockImpl);
}
return f;
} else {
const unknownType = metadata.type || 'undefined type';
throw new Error(`Unrecognized type ${unknownType}`);
}
}
_createMockFunction(metadata, mockConstructor) {
let name = metadata.name;
if (!name) {
return mockConstructor;
}
// Preserve `name` property of mocked function.
const boundFunctionPrefix = 'bound ';
let bindCall = '';
// if-do-while for perf reasons. The common case is for the if to fail.
if (name.startsWith(boundFunctionPrefix)) {
do {
name = name.substring(boundFunctionPrefix.length);
// Call bind() just to alter the function name.
bindCall = '.bind(null)';
} while (name && name.startsWith(boundFunctionPrefix));
}
// Special case functions named `mockConstructor` to guard for infinite loops
if (name === MOCK_CONSTRUCTOR_NAME) {
return mockConstructor;
}
if (
// It's a syntax error to define functions with a reserved keyword as name
RESERVED_KEYWORDS.has(name) ||
// It's also a syntax error to define functions with a name that starts with a number
/^\d/.test(name)
) {
name = `$${name}`;
}
// It's also a syntax error to define a function with a reserved character
// as part of it's name.
if (FUNCTION_NAME_RESERVED_PATTERN.test(name)) {
name = name.replace(FUNCTION_NAME_RESERVED_REPLACE, '$');
}
const body =
`return function ${name}() {` +
` return ${MOCK_CONSTRUCTOR_NAME}.apply(this,arguments);` +
`}${bindCall}`;
const createConstructor = new this._environmentGlobal.Function(
MOCK_CONSTRUCTOR_NAME,
body
);
return createConstructor(mockConstructor);
}
_generateMock(metadata, callbacks, refs) {
// metadata not compatible but it's the same type, maybe problem with
// overloading of _makeComponent and not _generateMock?
// @ts-expect-error - unsure why TSC complains here?
const mock = this._makeComponent(metadata);
if (metadata.refID != null) {
refs[metadata.refID] = mock;
}
this._getSlots(metadata.members).forEach(slot => {
const slotMetadata = (metadata.members && metadata.members[slot]) || {};
if (slotMetadata.ref != null) {
callbacks.push(
(function (ref) {
return () => (mock[slot] = refs[ref]);
})(slotMetadata.ref)
);
} else {
mock[slot] = this._generateMock(slotMetadata, callbacks, refs);
}
});
if (
metadata.type !== 'undefined' &&
metadata.type !== 'null' &&
mock.prototype &&
typeof mock.prototype === 'object'
) {
mock.prototype.constructor = mock;
}
return mock;
}
/**
* Check whether the given property of an object has been already replaced.
*/
_findReplacedProperty(object, propertyKey) {
for (const spyState of this._spyState) {
if (
'object' in spyState &&
'property' in spyState &&
spyState.object === object &&
spyState.property === propertyKey
) {
return spyState;
}
}
return;
}
/**
* @see README.md
* @param metadata Metadata for the mock in the schema returned by the
* getMetadata method of this module.
*/
generateFromMetadata(metadata) {
const callbacks = [];
const refs = {};
const mock = this._generateMock(metadata, callbacks, refs);
callbacks.forEach(setter => setter());
return mock;
}
/**
* @see README.md
* @param component The component for which to retrieve metadata.
*/
getMetadata(component, _refs) {
const refs = _refs || new Map();
const ref = refs.get(component);
if (ref != null) {
return {
ref
};
}
const type = getType(component);
if (!type) {
return null;
}
const metadata = {
type
};
if (
type === 'constant' ||
type === 'collection' ||
type === 'undefined' ||
type === 'null'
) {
metadata.value = component;
return metadata;
} else if (type === 'function') {
// @ts-expect-error component is a function so it has a name, but not
// necessarily a string: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Function/name#function_names_in_classes
const componentName = component.name;
if (typeof componentName === 'string') {
metadata.name = componentName;
}
if (this.isMockFunction(component)) {
metadata.mockImpl = component.getMockImplementation();
}
}
metadata.refID = refs.size;
refs.set(component, metadata.refID);
let members = null;
// Leave arrays alone
if (type !== 'array') {
// @ts-expect-error component is object
this._getSlots(component).forEach(slot => {
if (
type === 'function' &&
this.isMockFunction(component) &&
slot.match(/^mock/)
) {
return;
}
// @ts-expect-error no index signature
const slotMetadata = this.getMetadata(component[slot], refs);
if (slotMetadata) {
if (!members) {
members = {};
}
members[slot] = slotMetadata;
}
});
}
if (members) {
metadata.members = members;
}
return metadata;
}
isMockFunction(fn) {
return fn != null && fn._isMockFunction === true;
}
fn(implementation) {
const length = implementation ? implementation.length : 0;
const fn = this._makeComponent({
length,
type: 'function'
});
if (implementation) {
fn.mockImplementation(implementation);
}
return fn;
}
spyOn(object, methodKey, accessType) {
if (
object == null ||
(typeof object !== 'object' && typeof object !== 'function')
) {
throw new Error(
`Cannot use spyOn on a primitive value; ${this._typeOf(object)} given`
);
}
if (methodKey == null) {
throw new Error('No property name supplied');
}
if (accessType) {
return this._spyOnProperty(object, methodKey, accessType);
}
const original = object[methodKey];
if (!original) {
throw new Error(
`Property \`${String(
methodKey
)}\` does not exist in the provided object`
);
}
if (!this.isMockFunction(original)) {
if (typeof original !== 'function') {
throw new Error(
`Cannot spy on the \`${String(
methodKey
)}\` property because it is not a function; ${this._typeOf(
original
)} given instead.${
typeof original !== 'object'
? ` If you are trying to mock a property, use \`jest.replaceProperty(object, '${String(
methodKey
)}', value)\` instead.`
: ''
}`
);
}
const isMethodOwner = Object.prototype.hasOwnProperty.call(
object,
methodKey
);
let descriptor = Object.getOwnPropertyDescriptor(object, methodKey);
let proto = Object.getPrototypeOf(object);
while (!descriptor && proto !== null) {
descriptor = Object.getOwnPropertyDescriptor(proto, methodKey);
proto = Object.getPrototypeOf(proto);
}
let mock;
if (descriptor && descriptor.get) {
const originalGet = descriptor.get;
mock = this._makeComponent(
{
type: 'function'
},
() => {
descriptor.get = originalGet;
Object.defineProperty(object, methodKey, descriptor);
}
);
descriptor.get = () => mock;
Object.defineProperty(object, methodKey, descriptor);
} else {
mock = this._makeComponent(
{
type: 'function'
},
() => {
if (isMethodOwner) {
object[methodKey] = original;
} else {
delete object[methodKey];
}
}
);
// @ts-expect-error overriding original method with a Mock
object[methodKey] = mock;
}
mock.mockImplementation(function () {
return original.apply(this, arguments);
});
}
return object[methodKey];
}
_spyOnProperty(object, propertyKey, accessType) {
let descriptor = Object.getOwnPropertyDescriptor(object, propertyKey);
let proto = Object.getPrototypeOf(object);
while (!descriptor && proto !== null) {
descriptor = Object.getOwnPropertyDescriptor(proto, propertyKey);
proto = Object.getPrototypeOf(proto);
}
if (!descriptor) {
throw new Error(
`Property \`${String(
propertyKey
)}\` does not exist in the provided object`
);
}
if (!descriptor.configurable) {
throw new Error(
`Property \`${String(propertyKey)}\` is not declared configurable`
);
}
if (!descriptor[accessType]) {
throw new Error(
`Property \`${String(
propertyKey
)}\` does not have access type ${accessType}`
);
}
const original = descriptor[accessType];
if (!this.isMockFunction(original)) {
if (typeof original !== 'function') {
throw new Error(
`Cannot spy on the ${String(
propertyKey
)} property because it is not a function; ${this._typeOf(
original
)} given instead.${
typeof original !== 'object'
? ` If you are trying to mock a property, use \`jest.replaceProperty(object, '${String(
propertyKey
)}', value)\` instead.`
: ''
}`
);
}
descriptor[accessType] = this._makeComponent(
{
type: 'function'
},
() => {
// @ts-expect-error: mock is assignable
descriptor[accessType] = original;
Object.defineProperty(object, propertyKey, descriptor);
}
);
descriptor[accessType].mockImplementation(function () {
// @ts-expect-error - wrong context
return original.apply(this, arguments);
});
}
Object.defineProperty(object, propertyKey, descriptor);
return descriptor[accessType];
}
replaceProperty(object, propertyKey, value) {
if (
object == null ||
(typeof object !== 'object' && typeof object !== 'function')
) {
throw new Error(
`Cannot use replaceProperty on a primitive value; ${this._typeOf(
object
)} given`
);
}
if (propertyKey == null) {
throw new Error('No property name supplied');
}
let descriptor = Object.getOwnPropertyDescriptor(object, propertyKey);
let proto = Object.getPrototypeOf(object);
while (!descriptor && proto !== null) {
descriptor = Object.getOwnPropertyDescriptor(proto, propertyKey);
proto = Object.getPrototypeOf(proto);
}
if (!descriptor) {
throw new Error(
`Property \`${String(
propertyKey
)}\` does not exist in the provided object`
);
}
if (!descriptor.configurable) {
throw new Error(
`Property \`${String(propertyKey)}\` is not declared configurable`
);
}
if (descriptor.get !== undefined) {
throw new Error(
`Cannot replace the \`${String(
propertyKey
)}\` property because it has a getter. Use \`jest.spyOn(object, '${String(
propertyKey
)}', 'get').mockReturnValue(value)\` instead.`
);
}
if (descriptor.set !== undefined) {
throw new Error(
`Cannot replace the \`${String(
propertyKey
)}\` property because it has a setter. Use \`jest.spyOn(object, '${String(
propertyKey
)}', 'set').mockReturnValue(value)\` instead.`
);
}
if (typeof descriptor.value === 'function') {
throw new Error(
`Cannot replace the \`${String(
propertyKey
)}\` property because it is a function. Use \`jest.spyOn(object, '${String(
propertyKey
)}')\` instead.`
);
}
const existingRestore = this._findReplacedProperty(object, propertyKey);
if (existingRestore) {
return existingRestore.replaced.replaceValue(value);
}
const isPropertyOwner = Object.prototype.hasOwnProperty.call(
object,
propertyKey
);
const originalValue = descriptor.value;
const restore = () => {
if (isPropertyOwner) {
object[propertyKey] = originalValue;
} else {
delete object[propertyKey];
}
};
const replaced = {
replaceValue: value => {
object[propertyKey] = value;
return replaced;
},
restore: () => {
restore();
this._spyState.delete(restore);
}
};
restore.object = object;
restore.property = propertyKey;
restore.replaced = replaced;
this._spyState.add(restore);
return replaced.replaceValue(value);
}
clearAllMocks() {
this._mockState = new WeakMap();
}
resetAllMocks() {
this._mockConfigRegistry = new WeakMap();
this._mockState = new WeakMap();
}
restoreAllMocks() {
this._spyState.forEach(restore => restore());
this._spyState = new Set();
}
_typeOf(value) {
return value == null ? `${value}` : typeof value;
}
mocked(source, _options) {
return source;
}
}
exports.ModuleMocker = ModuleMocker;
const JestMock = new ModuleMocker(globalThis);
const fn = JestMock.fn.bind(JestMock);
exports.fn = fn;
const spyOn = JestMock.spyOn.bind(JestMock);
exports.spyOn = spyOn;
const mocked = JestMock.mocked.bind(JestMock);
exports.mocked = mocked;
const replaceProperty = JestMock.replaceProperty.bind(JestMock);
exports.replaceProperty = replaceProperty;

35
unified-ai-platform/node_modules/jest-mock/package.json generated vendored Normal file
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@@ -0,0 +1,35 @@
{
"name": "jest-mock",
"version": "29.7.0",
"repository": {
"type": "git",
"url": "https://github.com/jestjs/jest.git",
"directory": "packages/jest-mock"
},
"license": "MIT",
"main": "./build/index.js",
"types": "./build/index.d.ts",
"exports": {
".": {
"types": "./build/index.d.ts",
"default": "./build/index.js"
},
"./package.json": "./package.json"
},
"dependencies": {
"@jest/types": "^29.6.3",
"@types/node": "*",
"jest-util": "^29.7.0"
},
"devDependencies": {
"@tsd/typescript": "^5.0.4",
"tsd-lite": "^0.7.0"
},
"engines": {
"node": "^14.15.0 || ^16.10.0 || >=18.0.0"
},
"publishConfig": {
"access": "public"
},
"gitHead": "4e56991693da7cd4c3730dc3579a1dd1403ee630"
}