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TripSit_Suite/node_modules/@sinonjs/samsam/dist/samsam.js

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Initial comission of TheLounge base files
2020-11-01 23:46:04 +01:00
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('@sinonjs/commons'), require('type-detect'), require('lodash.get')) :
typeof define === 'function' && define.amd ? define(['exports', '@sinonjs/commons', 'type-detect', 'lodash.get'], factory) :
(global = global || self, factory(global.samsam = {}, global.commons, global.typeDetect, global.lodash));
}(this, (function (exports, commons, typeDetect, lodash) { 'use strict';
commons = commons && commons.hasOwnProperty('default') ? commons['default'] : commons;
typeDetect = typeDetect && typeDetect.hasOwnProperty('default') ? typeDetect['default'] : typeDetect;
lodash = lodash && lodash.hasOwnProperty('default') ? lodash['default'] : lodash;
/**
* Compares a `value` to `NaN`
*
* @private
* @param {*} value A value to examine
* @returns {boolean} Returns `true` when `value` is `NaN`
*/
function isNaN(value) {
// Unlike global `isNaN`, this function avoids type coercion
// `typeof` check avoids IE host object issues, hat tip to
// lodash
// eslint-disable-next-line no-self-compare
return typeof value === "number" && value !== value;
}
var isNan = isNaN;
/**
* Returns `true` when `value` is `-0`
*
* @alias module:samsam.isNegZero
* @param {*} value A value to examine
* @returns {boolean} Returns `true` when `value` is `-0`
*/
function isNegZero(value) {
return value === 0 && 1 / value === -Infinity;
}
var isNegZero_1 = isNegZero;
/**
* Strict equality check according to EcmaScript Harmony's `egal`.
*
* **From the Harmony wiki:**
* > An `egal` function simply makes available the internal `SameValue` function
* > from section 9.12 of the ES5 spec. If two values are egal, then they are not
* > observably distinguishable.
*
* `identical` returns `true` when `===` is `true`, except for `-0` and
* `+0`, where it returns `false`. Additionally, it returns `true` when
* `NaN` is compared to itself.
*
* @alias module:samsam.identical
* @param {*} obj1 The first value to compare
* @param {*} obj2 The second value to compare
* @returns {boolean} Returns `true` when the objects are *egal*, `false` otherwise
*/
function identical(obj1, obj2) {
if (obj1 === obj2 || (isNan(obj1) && isNan(obj2))) {
return obj1 !== 0 || isNegZero_1(obj1) === isNegZero_1(obj2);
}
return false;
}
var identical_1 = identical;
var toString = commons.prototypes.object.toString;
/**
* Returns the internal `Class` by calling `Object.prototype.toString`
* with the provided value as `this`. Return value is a `String`, naming the
* internal class, e.g. "Array"
*
* @private
* @param {*} value - Any value
* @returns {string} - A string representation of the `Class` of `value`
*/
function getClass(value) {
return toString(value).split(/[ \]]/)[1];
}
var getClass_1 = getClass;
/**
* Returns `true` when `object` is an `arguments` object, `false` otherwise
*
* @alias module:samsam.isArguments
* @param {*} object - The object to examine
* @returns {boolean} `true` when `object` is an `arguments` object
*/
function isArguments(object) {
return getClass_1(object) === "Arguments";
}
var isArguments_1 = isArguments;
var div = typeof document !== "undefined" && document.createElement("div");
/**
* Returns `true` when `object` is a DOM element node.
*
* Unlike Underscore.js/lodash, this function will return `false` if `object`
* is an *element-like* object, i.e. a regular object with a `nodeType`
* property that holds the value `1`.
*
* @alias module:samsam.isElement
* @param {object} object The object to examine
* @returns {boolean} Returns `true` for DOM element nodes
*/
function isElement(object) {
if (!object || object.nodeType !== 1 || !div) {
return false;
}
try {
object.appendChild(div);
object.removeChild(div);
} catch (e) {
return false;
}
return true;
}
var isElement_1 = isElement;
/**
* Returns `true` when the argument is an instance of Set, `false` otherwise
*
* @alias module:samsam.isSet
* @param {*} val - A value to examine
* @returns {boolean} Returns `true` when the argument is an instance of Set, `false` otherwise
*/
function isSet(val) {
return (typeof Set !== "undefined" && val instanceof Set) || false;
}
var isSet_1 = isSet;
/**
* Returns `true` when `value` is a Map
*
* @param {*} value A value to examine
* @returns {boolean} `true` when `value` is an instance of `Map`, `false` otherwise
* @private
*/
function isMap(value) {
return typeof Map !== "undefined" && value instanceof Map;
}
var isMap_1 = isMap;
/**
* Returns `true` when `value` is an instance of Date
*
* @private
* @param {Date} value The value to examine
* @returns {boolean} `true` when `value` is an instance of Date
*/
function isDate(value) {
return value instanceof Date;
}
var isDate_1 = isDate;
/**
* Returns `true` when the value is a regular Object and not a specialized Object
*
* This helps speed up deepEqual cyclic checks
*
* The premise is that only Objects are stored in the visited array.
* So if this function returns false, we don't have to do the
* expensive operation of searching for the value in the the array of already
* visited objects
*
* @private
* @param {object} value The object to examine
* @returns {boolean} `true` when the object is a non-specialised object
*/
function isObject(value) {
return (
typeof value === "object" &&
value !== null &&
// none of these are collection objects, so we can return false
!(value instanceof Boolean) &&
!(value instanceof Date) &&
!(value instanceof Error) &&
!(value instanceof Number) &&
!(value instanceof RegExp) &&
!(value instanceof String)
);
}
var isObject_1 = isObject;
var forEach = commons.prototypes.set.forEach;
/**
* Returns `true` when `s1` is a subset of `s2`, `false` otherwise
*
* @private
* @param {Array|Set} s1 The target value
* @param {Array|Set} s2 The containing value
* @param {Function} compare A comparison function, should return `true` when
* values are considered equal
* @returns {boolean} Returns `true` when `s1` is a subset of `s2`, `false`` otherwise
*/
function isSubset(s1, s2, compare) {
var allContained = true;
forEach(s1, function(v1) {
var includes = false;
forEach(s2, function(v2) {
if (compare(v2, v1)) {
includes = true;
}
});
allContained = allContained && includes;
});
return allContained;
}
var isSubset_1 = isSubset;
var valueToString = commons.valueToString;
var className = commons.className;
var typeOf = commons.typeOf;
var arrayProto = commons.prototypes.array;
var objectProto = commons.prototypes.object;
var mapForEach = commons.prototypes.map.forEach;
var concat = arrayProto.concat;
var every = arrayProto.every;
var push = arrayProto.push;
var getTime = Date.prototype.getTime;
var hasOwnProperty = objectProto.hasOwnProperty;
var indexOf = arrayProto.indexOf;
var keys = Object.keys;
var getOwnPropertySymbols = Object.getOwnPropertySymbols;
/**
* Deep equal comparison. Two values are "deep equal" when:
*
* - They are equal, according to samsam.identical
* - They are both date objects representing the same time
* - They are both arrays containing elements that are all deepEqual
* - They are objects with the same set of properties, and each property
* in ``actual`` is deepEqual to the corresponding property in ``expectation``
*
* Supports cyclic objects.
*
* @alias module:samsam.deepEqual
* @param {*} actual The object to examine
* @param {*} expectation The object actual is expected to be equal to
* @param {object} match A value to match on
* @returns {boolean} Returns true when actual and expectation are considered equal
*/
function deepEqualCyclic(actual, expectation, match) {
// used for cyclic comparison
// contain already visited objects
var actualObjects = [];
var expectationObjects = [];
// contain pathes (position in the object structure)
// of the already visited objects
// indexes same as in objects arrays
var actualPaths = [];
var expectationPaths = [];
// contains combinations of already compared objects
// in the manner: { "$1['ref']$2['ref']": true }
var compared = {};
// does the recursion for the deep equal check
// eslint-disable-next-line complexity
return (function deepEqual(
actualObj,
expectationObj,
actualPath,
expectationPath
) {
// If both are matchers they must be the same instance in order to be
// considered equal If we didn't do that we would end up running one
// matcher against the other
if (match && match.isMatcher(expectationObj)) {
if (match.isMatcher(actualObj)) {
return actualObj === expectationObj;
}
return expectationObj.test(actualObj);
}
var actualType = typeof actualObj;
var expectationType = typeof expectationObj;
if (
actualObj === expectationObj ||
isNan(actualObj) ||
isNan(expectationObj) ||
actualObj === null ||
expectationObj === null ||
actualObj === undefined ||
expectationObj === undefined ||
actualType !== "object" ||
expectationType !== "object"
) {
return identical_1(actualObj, expectationObj);
}
// Elements are only equal if identical(expected, actual)
if (isElement_1(actualObj) || isElement_1(expectationObj)) {
return false;
}
var isActualDate = isDate_1(actualObj);
var isExpectationDate = isDate_1(expectationObj);
if (isActualDate || isExpectationDate) {
if (
!isActualDate ||
!isExpectationDate ||
getTime.call(actualObj) !== getTime.call(expectationObj)
) {
return false;
}
}
if (actualObj instanceof RegExp && expectationObj instanceof RegExp) {
if (valueToString(actualObj) !== valueToString(expectationObj)) {
return false;
}
}
if (actualObj instanceof Error && expectationObj instanceof Error) {
return actualObj === expectationObj;
}
var actualClass = getClass_1(actualObj);
var expectationClass = getClass_1(expectationObj);
var actualKeys = keys(actualObj);
var expectationKeys = keys(expectationObj);
var actualName = className(actualObj);
var expectationName = className(expectationObj);
var expectationSymbols =
typeOf(getOwnPropertySymbols) === "function"
? getOwnPropertySymbols(expectationObj)
: /* istanbul ignore next: cannot collect coverage for engine that doesn't support Symbol */
[];
var expectationKeysAndSymbols = concat(
expectationKeys,
expectationSymbols
);
if (isArguments_1(actualObj) || isArguments_1(expectationObj)) {
if (actualObj.length !== expectationObj.length) {
return false;
}
} else {
if (
actualType !== expectationType ||
actualClass !== expectationClass ||
actualKeys.length !== expectationKeys.length ||
(actualName &&
expectationName &&
actualName !== expectationName)
) {
return false;
}
}
if (isSet_1(actualObj) || isSet_1(expectationObj)) {
if (
!isSet_1(actualObj) ||
!isSet_1(expectationObj) ||
actualObj.size !== expectationObj.size
) {
return false;
}
return isSubset_1(actualObj, expectationObj, deepEqual);
}
if (isMap_1(actualObj) || isMap_1(expectationObj)) {
if (
!isMap_1(actualObj) ||
!isMap_1(expectationObj) ||
actualObj.size !== expectationObj.size
) {
return false;
}
var mapsDeeplyEqual = true;
mapForEach(actualObj, function(value, key) {
mapsDeeplyEqual =
mapsDeeplyEqual &&
deepEqualCyclic(value, expectationObj.get(key));
});
return mapsDeeplyEqual;
}
return every(expectationKeysAndSymbols, function(key) {
if (!hasOwnProperty(actualObj, key)) {
return false;
}
var actualValue = actualObj[key];
var expectationValue = expectationObj[key];
var actualObject = isObject_1(actualValue);
var expectationObject = isObject_1(expectationValue);
// determines, if the objects were already visited
// (it's faster to check for isObject first, than to
// get -1 from getIndex for non objects)
var actualIndex = actualObject
? indexOf(actualObjects, actualValue)
: -1;
var expectationIndex = expectationObject
? indexOf(expectationObjects, expectationValue)
: -1;
// determines the new paths of the objects
// - for non cyclic objects the current path will be extended
// by current property name
// - for cyclic objects the stored path is taken
var newActualPath =
actualIndex !== -1
? actualPaths[actualIndex]
: actualPath + "[" + JSON.stringify(key) + "]";
var newExpectationPath =
expectationIndex !== -1
? expectationPaths[expectationIndex]
: expectationPath + "[" + JSON.stringify(key) + "]";
var combinedPath = newActualPath + newExpectationPath;
// stop recursion if current objects are already compared
if (compared[combinedPath]) {
return true;
}
// remember the current objects and their paths
if (actualIndex === -1 && actualObject) {
push(actualObjects, actualValue);
push(actualPaths, newActualPath);
}
if (expectationIndex === -1 && expectationObject) {
push(expectationObjects, expectationValue);
push(expectationPaths, newExpectationPath);
}
// remember that the current objects are already compared
if (actualObject && expectationObject) {
compared[combinedPath] = true;
}
// End of cyclic logic
// neither actualValue nor expectationValue is a cycle
// continue with next level
return deepEqual(
actualValue,
expectationValue,
newActualPath,
newExpectationPath
);
});
})(actual, expectation, "$1", "$2");
}
deepEqualCyclic.use = function(match) {
return function deepEqual(a, b) {
return deepEqualCyclic(a, b, match);
};
};
var deepEqual = deepEqualCyclic;
var ARRAY_TYPES = [
Array,
Int8Array,
Uint8Array,
Uint8ClampedArray,
Int16Array,
Uint16Array,
Int32Array,
Uint32Array,
Float32Array,
Float64Array
];
var arrayTypes = ARRAY_TYPES;
var functionName = commons.functionName;
var indexOf$1 = commons.prototypes.array.indexOf;
var map = commons.prototypes.array.map;
/**
* Returns `true` when `object` is an array type, `false` otherwise
*
* @param {*} object - The object to examine
* @returns {boolean} `true` when `object` is an array type
* @private
*/
function isArrayType(object) {
return indexOf$1(map(arrayTypes, functionName), typeDetect(object)) !== -1;
}
var isArrayType_1 = isArrayType;
var slice = commons.prototypes.string.slice;
var typeOf$1 = commons.typeOf;
var valueToString$1 = commons.valueToString;
/**
* Creates a string represenation of an iterable object
*
* @private
* @param {object} obj The iterable object to stringify
* @returns {string} A string representation
*/
function iterableToString(obj) {
if (typeOf$1(obj) === "map") {
return mapToString(obj);
}
return genericIterableToString(obj);
}
/**
* Creates a string representation of a Map
*
* @private
* @param {Map} map The map to stringify
* @returns {string} A string representation
*/
function mapToString(map) {
var representation = "";
/* eslint-disable-next-line local-rules/no-prototype-methods */
map.forEach(function(value, key) {
representation += "[" + stringify(key) + "," + stringify(value) + "],";
});
representation = slice(representation, 0, -1);
return representation;
}
/**
* Create a string represenation for an iterable
*
* @private
* @param {object} iterable The iterable to stringify
* @returns {string} A string representation
*/
function genericIterableToString(iterable) {
var representation = "";
/* eslint-disable-next-line local-rules/no-prototype-methods */
iterable.forEach(function(value) {
representation += stringify(value) + ",";
});
representation = slice(representation, 0, -1);
return representation;
}
/**
* Creates a string representation of the passed `item`
*
* @private
* @param {object} item The item to stringify
* @returns {string} A string representation of `item`
*/
function stringify(item) {
return typeof item === "string" ? "'" + item + "'" : valueToString$1(item);
}
var iterableToString_1 = iterableToString;
var matcherPrototype = {
toString: function() {
return this.message;
}
};
matcherPrototype.or = function(valueOrMatcher) {
var createMatcher = createMatcher_1;
var isMatcher = createMatcher.isMatcher;
if (!arguments.length) {
throw new TypeError("Matcher expected");
}
var m2 = isMatcher(valueOrMatcher)
? valueOrMatcher
: createMatcher(valueOrMatcher);
var m1 = this;
var or = Object.create(matcherPrototype);
or.test = function(actual) {
return m1.test(actual) || m2.test(actual);
};
or.message = m1.message + ".or(" + m2.message + ")";
return or;
};
matcherPrototype.and = function(valueOrMatcher) {
var createMatcher = createMatcher_1;
var isMatcher = createMatcher.isMatcher;
if (!arguments.length) {
throw new TypeError("Matcher expected");
}
var m2 = isMatcher(valueOrMatcher)
? valueOrMatcher
: createMatcher(valueOrMatcher);
var m1 = this;
var and = Object.create(matcherPrototype);
and.test = function(actual) {
return m1.test(actual) && m2.test(actual);
};
and.message = m1.message + ".and(" + m2.message + ")";
return and;
};
var matcherPrototype_1 = matcherPrototype;
var isPrototypeOf = commons.prototypes.object.isPrototypeOf;
/**
* Returns `true` when `object` is a matcher
*
* @private
* @param {*} object A value to examine
* @returns {boolean} Returns `true` when `object` is a matcher
*/
function isMatcher(object) {
return isPrototypeOf(matcherPrototype_1, object);
}
var isMatcher_1 = isMatcher;
/**
* Throws a TypeError when `value` is not a matcher
*
* @private
* @param {*} value The value to examine
*/
function assertMatcher(value) {
if (!isMatcher_1(value)) {
throw new TypeError("Matcher expected");
}
}
var assertMatcher_1 = assertMatcher;
/**
* Throws a TypeError when expected method doesn't exist
*
* @private
* @param {*} value A value to examine
* @param {string} method The name of the method to look for
* @param {name} name A name to use for the error message
* @param {string} methodPath The name of the method to use for error messages
* @throws {TypeError} When the method doesn't exist
*/
function assertMethodExists(value, method, name, methodPath) {
if (value[method] === null || value[method] === undefined) {
throw new TypeError(
"Expected " + name + " to have method " + methodPath
);
}
}
var assertMethodExists_1 = assertMethodExists;
var typeOf$2 = commons.typeOf;
/**
* Ensures that value is of type
*
* @private
* @param {*} value A value to examine
* @param {string} type A basic JavaScript type to compare to, e.g. "object", "string"
* @param {string} name A string to use for the error message
* @throws {TypeError} If value is not of the expected type
* @returns {undefined}
*/
function assertType(value, type, name) {
var actual = typeOf$2(value);
if (actual !== type) {
throw new TypeError(
"Expected type of " +
name +
" to be " +
type +
", but was " +
actual
);
}
}
var assertType_1 = assertType;
var typeOf$3 = commons.typeOf;
/**
* Returns `true` for iterables
*
* @private
* @param {*} value A value to examine
* @returns {boolean} Returns `true` when `value` looks like an iterable
*/
function isIterable(value) {
return Boolean(value) && typeOf$3(value.forEach) === "function";
}
var isIterable_1 = isIterable;
var every$1 = commons.prototypes.array.every;
var concat$1 = commons.prototypes.array.concat;
var typeOf$4 = commons.typeOf;
var deepEqualFactory = deepEqual.use;
var keys$1 = Object.keys;
var getOwnPropertySymbols$1 = Object.getOwnPropertySymbols;
/**
* Matches `actual` with `expectation`
*
* @private
* @param {*} actual A value to examine
* @param {object} expectation An object with properties to match on
* @param {object} matcher A matcher to use for comparison
* @returns {boolean} Returns true when `actual` matches all properties in `expectation`
*/
function matchObject(actual, expectation, matcher) {
var deepEqual = deepEqualFactory(matcher);
if (actual === null || actual === undefined) {
return false;
}
var expectedKeys = keys$1(expectation);
/* istanbul ignore else: cannot collect coverage for engine that doesn't support Symbol */
if (typeOf$4(getOwnPropertySymbols$1) === "function") {
expectedKeys = concat$1(expectedKeys, getOwnPropertySymbols$1(expectation));
}
return every$1(expectedKeys, function(key) {
var exp = expectation[key];
var act = actual[key];
if (isMatcher_1(exp)) {
if (!exp.test(act)) {
return false;
}
} else if (typeOf$4(exp) === "object") {
if (!matchObject(act, exp, matcher)) {
return false;
}
} else if (!deepEqual(act, exp)) {
return false;
}
return true;
});
}
var matchObject_1 = matchObject;
var functionName$1 = commons.functionName;
var join = commons.prototypes.array.join;
var map$1 = commons.prototypes.array.map;
var stringIndexOf = commons.prototypes.string.indexOf;
var valueToString$2 = commons.valueToString;
var createTypeMap = function(match) {
return {
function: function(m, expectation, message) {
m.test = expectation;
m.message = message || "match(" + functionName$1(expectation) + ")";
},
number: function(m, expectation) {
m.test = function(actual) {
// we need type coercion here
return expectation == actual; // eslint-disable-line eqeqeq
};
},
object: function(m, expectation) {
var array = [];
if (typeof expectation.test === "function") {
m.test = function(actual) {
return expectation.test(actual) === true;
};
m.message = "match(" + functionName$1(expectation.test) + ")";
return m;
}
array = map$1(Object.keys(expectation), function(key) {
return key + ": " + valueToString$2(expectation[key]);
});
m.test = function(actual) {
return matchObject_1(actual, expectation, match);
};
m.message = "match(" + join(array, ", ") + ")";
return m;
},
regexp: function(m, expectation) {
m.test = function(actual) {
return typeof actual === "string" && expectation.test(actual);
};
},
string: function(m, expectation) {
m.test = function(actual) {
return (
typeof actual === "string" &&
stringIndexOf(actual, expectation) !== -1
);
};
m.message = 'match("' + expectation + '")';
}
};
};
var typeMap = createTypeMap;
var arrayProto$1 = commons.prototypes.array;
var deepEqual$1 = deepEqual.use(createMatcher); // eslint-disable-line no-use-before-define
var every$2 = commons.every;
var functionName$2 = commons.functionName;
var objectProto$1 = commons.prototypes.object;
var typeOf$5 = commons.typeOf;
var valueToString$3 = commons.valueToString;
var arrayIndexOf = arrayProto$1.indexOf;
var some = arrayProto$1.some;
var hasOwnProperty$1 = objectProto$1.hasOwnProperty;
var objectToString = objectProto$1.toString;
var TYPE_MAP = typeMap(createMatcher); // eslint-disable-line no-use-before-define
/**
* Creates a matcher object for the passed expectation
*
* @alias module:samsam.createMatcher
* @param {*} expectation An expecttation
* @param {string} message A message for the expectation
* @returns {object} A matcher object
*/
function createMatcher(expectation, message) {
var m = Object.create(matcherPrototype_1);
var type = typeOf$5(expectation);
if (message !== undefined && typeof message !== "string") {
throw new TypeError("Message should be a string");
}
if (arguments.length > 2) {
throw new TypeError(
"Expected 1 or 2 arguments, received " + arguments.length
);
}
if (type in TYPE_MAP) {
TYPE_MAP[type](m, expectation, message);
} else {
m.test = function(actual) {
return deepEqual$1(actual, expectation);
};
}
if (!m.message) {
m.message = "match(" + valueToString$3(expectation) + ")";
}
return m;
}
createMatcher.isMatcher = isMatcher_1;
createMatcher.any = createMatcher(function() {
return true;
}, "any");
createMatcher.defined = createMatcher(function(actual) {
return actual !== null && actual !== undefined;
}, "defined");
createMatcher.truthy = createMatcher(function(actual) {
return Boolean(actual);
}, "truthy");
createMatcher.falsy = createMatcher(function(actual) {
return !actual;
}, "falsy");
createMatcher.same = function(expectation) {
return createMatcher(function(actual) {
return expectation === actual;
}, "same(" + valueToString$3(expectation) + ")");
};
createMatcher.in = function(arrayOfExpectations) {
if (typeOf$5(arrayOfExpectations) !== "array") {
throw new TypeError("array expected");
}
return createMatcher(function(actual) {
return some(arrayOfExpectations, function(expectation) {
return expectation === actual;
});
}, "in(" + valueToString$3(arrayOfExpectations) + ")");
};
createMatcher.typeOf = function(type) {
assertType_1(type, "string", "type");
return createMatcher(function(actual) {
return typeOf$5(actual) === type;
}, 'typeOf("' + type + '")');
};
createMatcher.instanceOf = function(type) {
/* istanbul ignore if */
if (
typeof Symbol === "undefined" ||
typeof Symbol.hasInstance === "undefined"
) {
assertType_1(type, "function", "type");
} else {
assertMethodExists_1(
type,
Symbol.hasInstance,
"type",
"[Symbol.hasInstance]"
);
}
return createMatcher(function(actual) {
return actual instanceof type;
}, "instanceOf(" + (functionName$2(type) || objectToString(type)) + ")");
};
/**
* Creates a property matcher
*
* @private
* @param {Function} propertyTest A function to test the property against a value
* @param {string} messagePrefix A prefix to use for messages generated by the matcher
* @returns {object} A matcher
*/
function createPropertyMatcher(propertyTest, messagePrefix) {
return function(property, value) {
assertType_1(property, "string", "property");
var onlyProperty = arguments.length === 1;
var message = messagePrefix + '("' + property + '"';
if (!onlyProperty) {
message += ", " + valueToString$3(value);
}
message += ")";
return createMatcher(function(actual) {
if (
actual === undefined ||
actual === null ||
!propertyTest(actual, property)
) {
return false;
}
return onlyProperty || deepEqual$1(actual[property], value);
}, message);
};
}
createMatcher.has = createPropertyMatcher(function(actual, property) {
if (typeof actual === "object") {
return property in actual;
}
return actual[property] !== undefined;
}, "has");
createMatcher.hasOwn = createPropertyMatcher(function(actual, property) {
return hasOwnProperty$1(actual, property);
}, "hasOwn");
createMatcher.hasNested = function(property, value) {
assertType_1(property, "string", "property");
var onlyProperty = arguments.length === 1;
var message = 'hasNested("' + property + '"';
if (!onlyProperty) {
message += ", " + valueToString$3(value);
}
message += ")";
return createMatcher(function(actual) {
if (
actual === undefined ||
actual === null ||
lodash(actual, property) === undefined
) {
return false;
}
return onlyProperty || deepEqual$1(lodash(actual, property), value);
}, message);
};
var jsonParseResultTypes = {
null: true,
boolean: true,
number: true,
string: true,
object: true,
array: true
};
createMatcher.json = function(value) {
if (!jsonParseResultTypes[typeOf$5(value)]) {
throw new TypeError("Value cannot be the result of JSON.parse");
}
var message = "json(" + JSON.stringify(value, null, " ") + ")";
return createMatcher(function(actual) {
var parsed;
try {
parsed = JSON.parse(actual);
} catch (e) {
return false;
}
return deepEqual$1(parsed, value);
}, message);
};
createMatcher.every = function(predicate) {
assertMatcher_1(predicate);
return createMatcher(function(actual) {
if (typeOf$5(actual) === "object") {
return every$2(Object.keys(actual), function(key) {
return predicate.test(actual[key]);
});
}
return (
isIterable_1(actual) &&
every$2(actual, function(element) {
return predicate.test(element);
})
);
}, "every(" + predicate.message + ")");
};
createMatcher.some = function(predicate) {
assertMatcher_1(predicate);
return createMatcher(function(actual) {
if (typeOf$5(actual) === "object") {
return !every$2(Object.keys(actual), function(key) {
return !predicate.test(actual[key]);
});
}
return (
isIterable_1(actual) &&
!every$2(actual, function(element) {
return !predicate.test(element);
})
);
}, "some(" + predicate.message + ")");
};
createMatcher.array = createMatcher.typeOf("array");
createMatcher.array.deepEquals = function(expectation) {
return createMatcher(function(actual) {
// Comparing lengths is the fastest way to spot a difference before iterating through every item
var sameLength = actual.length === expectation.length;
return (
typeOf$5(actual) === "array" &&
sameLength &&
every$2(actual, function(element, index) {
var expected = expectation[index];
return typeOf$5(expected) === "array" &&
typeOf$5(element) === "array"
? createMatcher.array.deepEquals(expected).test(element)
: deepEqual$1(expected, element);
})
);
}, "deepEquals([" + iterableToString_1(expectation) + "])");
};
createMatcher.array.startsWith = function(expectation) {
return createMatcher(function(actual) {
return (
typeOf$5(actual) === "array" &&
every$2(expectation, function(expectedElement, index) {
return actual[index] === expectedElement;
})
);
}, "startsWith([" + iterableToString_1(expectation) + "])");
};
createMatcher.array.endsWith = function(expectation) {
return createMatcher(function(actual) {
// This indicates the index in which we should start matching
var offset = actual.length - expectation.length;
return (
typeOf$5(actual) === "array" &&
every$2(expectation, function(expectedElement, index) {
return actual[offset + index] === expectedElement;
})
);
}, "endsWith([" + iterableToString_1(expectation) + "])");
};
createMatcher.array.contains = function(expectation) {
return createMatcher(function(actual) {
return (
typeOf$5(actual) === "array" &&
every$2(expectation, function(expectedElement) {
return arrayIndexOf(actual, expectedElement) !== -1;
})
);
}, "contains([" + iterableToString_1(expectation) + "])");
};
createMatcher.map = createMatcher.typeOf("map");
createMatcher.map.deepEquals = function mapDeepEquals(expectation) {
return createMatcher(function(actual) {
// Comparing lengths is the fastest way to spot a difference before iterating through every item
var sameLength = actual.size === expectation.size;
return (
typeOf$5(actual) === "map" &&
sameLength &&
every$2(actual, function(element, key) {
return expectation.has(key) && expectation.get(key) === element;
})
);
}, "deepEquals(Map[" + iterableToString_1(expectation) + "])");
};
createMatcher.map.contains = function mapContains(expectation) {
return createMatcher(function(actual) {
return (
typeOf$5(actual) === "map" &&
every$2(expectation, function(element, key) {
return actual.has(key) && actual.get(key) === element;
})
);
}, "contains(Map[" + iterableToString_1(expectation) + "])");
};
createMatcher.set = createMatcher.typeOf("set");
createMatcher.set.deepEquals = function setDeepEquals(expectation) {
return createMatcher(function(actual) {
// Comparing lengths is the fastest way to spot a difference before iterating through every item
var sameLength = actual.size === expectation.size;
return (
typeOf$5(actual) === "set" &&
sameLength &&
every$2(actual, function(element) {
return expectation.has(element);
})
);
}, "deepEquals(Set[" + iterableToString_1(expectation) + "])");
};
createMatcher.set.contains = function setContains(expectation) {
return createMatcher(function(actual) {
return (
typeOf$5(actual) === "set" &&
every$2(expectation, function(element) {
return actual.has(element);
})
);
}, "contains(Set[" + iterableToString_1(expectation) + "])");
};
createMatcher.bool = createMatcher.typeOf("boolean");
createMatcher.number = createMatcher.typeOf("number");
createMatcher.string = createMatcher.typeOf("string");
createMatcher.object = createMatcher.typeOf("object");
createMatcher.func = createMatcher.typeOf("function");
createMatcher.regexp = createMatcher.typeOf("regexp");
createMatcher.date = createMatcher.typeOf("date");
createMatcher.symbol = createMatcher.typeOf("symbol");
var createMatcher_1 = createMatcher;
var valueToString$4 = commons.valueToString;
var indexOf$2 = commons.prototypes.string.indexOf;
var forEach$1 = commons.prototypes.array.forEach;
var engineCanCompareMaps = typeof Array.from === "function";
var deepEqual$2 = deepEqual.use(match); // eslint-disable-line no-use-before-define
/**
* Returns true when `array` contains all of `subset` as defined by the `compare`
* argument
*
* @param {Array} array An array to search for a subset
* @param {Array} subset The subset to find in the array
* @param {Function} compare A comparison function
* @returns {boolean} [description]
* @private
*/
function arrayContains(array, subset, compare) {
if (subset.length === 0) {
return true;
}
var i, l, j, k;
for (i = 0, l = array.length; i < l; ++i) {
if (compare(array[i], subset[0])) {
for (j = 0, k = subset.length; j < k; ++j) {
if (i + j >= l) {
return false;
}
if (!compare(array[i + j], subset[j])) {
return false;
}
}
return true;
}
}
return false;
}
/* eslint-disable complexity */
/**
* Matches an object with a matcher (or value)
*
* @alias module:samsam.match
* @param {object} object The object candidate to match
* @param {object} matcherOrValue A matcher or value to match against
* @returns {boolean} true when `object` matches `matcherOrValue`
*/
function match(object, matcherOrValue) {
if (matcherOrValue && typeof matcherOrValue.test === "function") {
return matcherOrValue.test(object);
}
switch (typeDetect(matcherOrValue)) {
case "bigint":
case "boolean":
case "number":
case "symbol":
return matcherOrValue === object;
case "function":
return matcherOrValue(object) === true;
case "string":
var notNull = typeof object === "string" || Boolean(object);
return (
notNull &&
indexOf$2(
valueToString$4(object).toLowerCase(),
matcherOrValue.toLowerCase()
) >= 0
);
case "null":
return object === null;
case "undefined":
return typeof object === "undefined";
case "Date":
/* istanbul ignore else */
if (typeDetect(object) === "Date") {
return object.getTime() === matcherOrValue.getTime();
}
/* istanbul ignore next: this is basically the rest of the function, which is covered */
break;
case "Array":
case "Int8Array":
case "Uint8Array":
case "Uint8ClampedArray":
case "Int16Array":
case "Uint16Array":
case "Int32Array":
case "Uint32Array":
case "Float32Array":
case "Float64Array":
return (
isArrayType_1(matcherOrValue) &&
arrayContains(object, matcherOrValue, match)
);
case "Map":
/* istanbul ignore next: this is covered by a test, that is only run in IE, but we collect coverage information in node*/
if (!engineCanCompareMaps) {
throw new Error(
"The JavaScript engine does not support Array.from and cannot reliably do value comparison of Map instances"
);
}
return (
typeDetect(object) === "Map" &&
arrayContains(
Array.from(object),
Array.from(matcherOrValue),
match
)
);
}
switch (typeDetect(object)) {
case "null":
return false;
case "Set":
return isSubset_1(matcherOrValue, object, match);
}
/* istanbul ignore else */
if (matcherOrValue && typeof matcherOrValue === "object") {
if (matcherOrValue === object) {
return true;
}
if (typeof object !== "object") {
return false;
}
var prop;
// eslint-disable-next-line guard-for-in
for (prop in matcherOrValue) {
var value = object[prop];
if (
typeof value === "undefined" &&
typeof object.getAttribute === "function"
) {
value = object.getAttribute(prop);
}
if (
matcherOrValue[prop] === null ||
typeof matcherOrValue[prop] === "undefined"
) {
if (value !== matcherOrValue[prop]) {
return false;
}
} else if (
typeof value === "undefined" ||
!deepEqual$2(value, matcherOrValue[prop])
) {
return false;
}
}
return true;
}
/* istanbul ignore next */
throw new Error("Matcher was an unknown or unsupported type");
}
/* eslint-enable complexity */
forEach$1(Object.keys(createMatcher_1), function(key) {
match[key] = createMatcher_1[key];
});
var match_1 = match;
/**
* @module samsam
*/
var deepEqualCyclic$1 = deepEqual.use(match_1);
var samsam = {
createMatcher: createMatcher_1,
deepEqual: deepEqualCyclic$1,
identical: identical_1,
isArguments: isArguments_1,
isElement: isElement_1,
isMap: isMap_1,
isNegZero: isNegZero_1,
isSet: isSet_1,
match: match_1
};
var samsam_1 = samsam.createMatcher;
var samsam_2 = samsam.deepEqual;
var samsam_3 = samsam.identical;
var samsam_4 = samsam.isArguments;
var samsam_5 = samsam.isElement;
var samsam_6 = samsam.isMap;
var samsam_7 = samsam.isNegZero;
var samsam_8 = samsam.isSet;
var samsam_9 = samsam.match;
exports.createMatcher = samsam_1;
exports.deepEqual = samsam_2;
exports.default = samsam;
exports.identical = samsam_3;
exports.isArguments = samsam_4;
exports.isElement = samsam_5;
exports.isMap = samsam_6;
exports.isNegZero = samsam_7;
exports.isSet = samsam_8;
exports.match = samsam_9;
Object.defineProperty(exports, '__esModule', { value: true });
})));