install-nix-action/node_modules/expect/build/utils.js

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2019-11-20 03:50:30 +11:00
'use strict';
Object.defineProperty(exports, '__esModule', {
value: true
});
exports.emptyObject = emptyObject;
exports.isOneline = exports.isError = exports.partition = exports.sparseArrayEquality = exports.typeEquality = exports.subsetEquality = exports.iterableEquality = exports.getObjectSubset = exports.getPath = exports.hasOwnProperty = void 0;
var _jestGetType = require('jest-get-type');
var _jasmineUtils = require('./jasmineUtils');
var Symbol = global['jest-symbol-do-not-touch'] || global.Symbol;
// Return whether object instance inherits getter from its class.
const hasGetterFromConstructor = (object, key) => {
const constructor = object.constructor;
if (constructor === Object) {
// A literal object has Object as constructor.
// Therefore, it cannot inherit application-specific getters.
// Furthermore, Object has __proto__ getter which is not relevant.
// Array, Boolean, Number, String constructors dont have any getters.
return false;
}
if (typeof constructor !== 'function') {
// Object.create(null) constructs object with no constructor nor prototype.
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/create#Custom_and_Null_objects
return false;
}
const descriptor = Object.getOwnPropertyDescriptor(
constructor.prototype,
key
);
return descriptor !== undefined && typeof descriptor.get === 'function';
};
const hasOwnProperty = (object, key) =>
Object.prototype.hasOwnProperty.call(object, key) ||
hasGetterFromConstructor(object, key);
exports.hasOwnProperty = hasOwnProperty;
const getPath = (object, propertyPath) => {
if (!Array.isArray(propertyPath)) {
propertyPath = propertyPath.split('.');
}
if (propertyPath.length) {
const lastProp = propertyPath.length === 1;
const prop = propertyPath[0];
const newObject = object[prop];
if (!lastProp && (newObject === null || newObject === undefined)) {
// This is not the last prop in the chain. If we keep recursing it will
// hit a `can't access property X of undefined | null`. At this point we
// know that the chain has broken and we can return right away.
return {
hasEndProp: false,
lastTraversedObject: object,
traversedPath: []
};
}
const result = getPath(newObject, propertyPath.slice(1));
if (result.lastTraversedObject === null) {
result.lastTraversedObject = object;
}
result.traversedPath.unshift(prop);
if (lastProp) {
// Does object have the property with an undefined value?
// Although primitive values support bracket notation (above)
// they would throw TypeError for in operator (below).
result.hasEndProp =
newObject !== undefined ||
(!(0, _jestGetType.isPrimitive)(object) && prop in object);
if (!result.hasEndProp) {
result.traversedPath.shift();
}
}
return result;
}
return {
lastTraversedObject: null,
traversedPath: [],
value: object
};
}; // Strip properties from object that are not present in the subset. Useful for
// printing the diff for toMatchObject() without adding unrelated noise.
exports.getPath = getPath;
const getObjectSubset = (object, subset, seenReferences = new WeakMap()) => {
if (Array.isArray(object)) {
if (Array.isArray(subset) && subset.length === object.length) {
return subset.map((sub, i) => getObjectSubset(object[i], sub));
}
} else if (object instanceof Date) {
return object;
} else if (isObject(object) && isObject(subset)) {
const trimmed = {};
seenReferences.set(object, trimmed);
Object.keys(object)
.filter(key => hasOwnProperty(subset, key))
.forEach(key => {
trimmed[key] = seenReferences.has(object[key])
? seenReferences.get(object[key])
: getObjectSubset(object[key], subset[key], seenReferences);
});
if (Object.keys(trimmed).length > 0) {
return trimmed;
}
}
return object;
};
exports.getObjectSubset = getObjectSubset;
const IteratorSymbol = Symbol.iterator;
const hasIterator = object => !!(object != null && object[IteratorSymbol]);
const iterableEquality = (a, b, aStack = [], bStack = []) => {
if (
typeof a !== 'object' ||
typeof b !== 'object' ||
Array.isArray(a) ||
Array.isArray(b) ||
!hasIterator(a) ||
!hasIterator(b)
) {
return undefined;
}
if (a.constructor !== b.constructor) {
return false;
}
let length = aStack.length;
while (length--) {
// Linear search. Performance is inversely proportional to the number of
// unique nested structures.
// circular references at same depth are equal
// circular reference is not equal to non-circular one
if (aStack[length] === a) {
return bStack[length] === b;
}
}
aStack.push(a);
bStack.push(b);
const iterableEqualityWithStack = (a, b) =>
iterableEquality(a, b, [...aStack], [...bStack]);
if (a.size !== undefined) {
if (a.size !== b.size) {
return false;
} else if (
(0, _jasmineUtils.isA)('Set', a) ||
(0, _jasmineUtils.isImmutableUnorderedSet)(a)
) {
let allFound = true;
var _iteratorNormalCompletion = true;
var _didIteratorError = false;
var _iteratorError = undefined;
try {
for (
var _iterator = a[Symbol.iterator](), _step;
!(_iteratorNormalCompletion = (_step = _iterator.next()).done);
_iteratorNormalCompletion = true
) {
const aValue = _step.value;
if (!b.has(aValue)) {
let has = false;
var _iteratorNormalCompletion2 = true;
var _didIteratorError2 = false;
var _iteratorError2 = undefined;
try {
for (
var _iterator2 = b[Symbol.iterator](), _step2;
!(_iteratorNormalCompletion2 = (_step2 = _iterator2.next())
.done);
_iteratorNormalCompletion2 = true
) {
const bValue = _step2.value;
const isEqual = (0, _jasmineUtils.equals)(aValue, bValue, [
iterableEqualityWithStack
]);
if (isEqual === true) {
has = true;
}
}
} catch (err) {
_didIteratorError2 = true;
_iteratorError2 = err;
} finally {
try {
if (!_iteratorNormalCompletion2 && _iterator2.return != null) {
_iterator2.return();
}
} finally {
if (_didIteratorError2) {
throw _iteratorError2;
}
}
}
if (has === false) {
allFound = false;
break;
}
}
} // Remove the first value from the stack of traversed values.
} catch (err) {
_didIteratorError = true;
_iteratorError = err;
} finally {
try {
if (!_iteratorNormalCompletion && _iterator.return != null) {
_iterator.return();
}
} finally {
if (_didIteratorError) {
throw _iteratorError;
}
}
}
aStack.pop();
bStack.pop();
return allFound;
} else if (
(0, _jasmineUtils.isA)('Map', a) ||
(0, _jasmineUtils.isImmutableUnorderedKeyed)(a)
) {
let allFound = true;
var _iteratorNormalCompletion3 = true;
var _didIteratorError3 = false;
var _iteratorError3 = undefined;
try {
for (
var _iterator3 = a[Symbol.iterator](), _step3;
!(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done);
_iteratorNormalCompletion3 = true
) {
const aEntry = _step3.value;
if (
!b.has(aEntry[0]) ||
!(0, _jasmineUtils.equals)(aEntry[1], b.get(aEntry[0]), [
iterableEqualityWithStack
])
) {
let has = false;
var _iteratorNormalCompletion4 = true;
var _didIteratorError4 = false;
var _iteratorError4 = undefined;
try {
for (
var _iterator4 = b[Symbol.iterator](), _step4;
!(_iteratorNormalCompletion4 = (_step4 = _iterator4.next())
.done);
_iteratorNormalCompletion4 = true
) {
const bEntry = _step4.value;
const matchedKey = (0, _jasmineUtils.equals)(
aEntry[0],
bEntry[0],
[iterableEqualityWithStack]
);
let matchedValue = false;
if (matchedKey === true) {
matchedValue = (0, _jasmineUtils.equals)(
aEntry[1],
bEntry[1],
[iterableEqualityWithStack]
);
}
if (matchedValue === true) {
has = true;
}
}
} catch (err) {
_didIteratorError4 = true;
_iteratorError4 = err;
} finally {
try {
if (!_iteratorNormalCompletion4 && _iterator4.return != null) {
_iterator4.return();
}
} finally {
if (_didIteratorError4) {
throw _iteratorError4;
}
}
}
if (has === false) {
allFound = false;
break;
}
}
} // Remove the first value from the stack of traversed values.
} catch (err) {
_didIteratorError3 = true;
_iteratorError3 = err;
} finally {
try {
if (!_iteratorNormalCompletion3 && _iterator3.return != null) {
_iterator3.return();
}
} finally {
if (_didIteratorError3) {
throw _iteratorError3;
}
}
}
aStack.pop();
bStack.pop();
return allFound;
}
}
const bIterator = b[IteratorSymbol]();
var _iteratorNormalCompletion5 = true;
var _didIteratorError5 = false;
var _iteratorError5 = undefined;
try {
for (
var _iterator5 = a[Symbol.iterator](), _step5;
!(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done);
_iteratorNormalCompletion5 = true
) {
const aValue = _step5.value;
const nextB = bIterator.next();
if (
nextB.done ||
!(0, _jasmineUtils.equals)(aValue, nextB.value, [
iterableEqualityWithStack
])
) {
return false;
}
}
} catch (err) {
_didIteratorError5 = true;
_iteratorError5 = err;
} finally {
try {
if (!_iteratorNormalCompletion5 && _iterator5.return != null) {
_iterator5.return();
}
} finally {
if (_didIteratorError5) {
throw _iteratorError5;
}
}
}
if (!bIterator.next().done) {
return false;
} // Remove the first value from the stack of traversed values.
aStack.pop();
bStack.pop();
return true;
};
exports.iterableEquality = iterableEquality;
const isObject = a => a !== null && typeof a === 'object';
const isObjectWithKeys = a =>
isObject(a) &&
!(a instanceof Error) &&
!(a instanceof Array) &&
!(a instanceof Date);
const subsetEquality = (object, subset) => {
// subsetEquality needs to keep track of the references
// it has already visited to avoid infinite loops in case
// there are circular references in the subset passed to it.
const subsetEqualityWithContext = (seenReferences = new WeakMap()) => (
object,
subset
) => {
if (!isObjectWithKeys(subset)) {
return undefined;
}
return Object.keys(subset).every(key => {
if (isObjectWithKeys(subset[key])) {
if (seenReferences.get(subset[key])) {
return (0, _jasmineUtils.equals)(object[key], subset[key], [
iterableEquality
]);
}
seenReferences.set(subset[key], true);
}
return (
object != null &&
hasOwnProperty(object, key) &&
(0, _jasmineUtils.equals)(object[key], subset[key], [
iterableEquality,
subsetEqualityWithContext(seenReferences)
])
);
});
};
return subsetEqualityWithContext()(object, subset);
};
exports.subsetEquality = subsetEquality;
const typeEquality = (a, b) => {
if (a == null || b == null || a.constructor === b.constructor) {
return undefined;
}
return false;
};
exports.typeEquality = typeEquality;
const sparseArrayEquality = (a, b) => {
if (!Array.isArray(a) || !Array.isArray(b)) {
return undefined;
} // A sparse array [, , 1] will have keys ["2"] whereas [undefined, undefined, 1] will have keys ["0", "1", "2"]
const aKeys = Object.keys(a);
const bKeys = Object.keys(b);
return (
(0, _jasmineUtils.equals)(a, b, [iterableEquality, typeEquality], true) &&
(0, _jasmineUtils.equals)(aKeys, bKeys)
);
};
exports.sparseArrayEquality = sparseArrayEquality;
const partition = (items, predicate) => {
const result = [[], []];
items.forEach(item => result[predicate(item) ? 0 : 1].push(item));
return result;
}; // Copied from https://github.com/graingert/angular.js/blob/a43574052e9775cbc1d7dd8a086752c979b0f020/src/Angular.js#L685-L693
exports.partition = partition;
const isError = value => {
switch (Object.prototype.toString.call(value)) {
case '[object Error]':
return true;
case '[object Exception]':
return true;
case '[object DOMException]':
return true;
default:
return value instanceof Error;
}
};
exports.isError = isError;
function emptyObject(obj) {
return obj && typeof obj === 'object' ? !Object.keys(obj).length : false;
}
const MULTILINE_REGEXP = /[\r\n]/;
const isOneline = (expected, received) =>
typeof expected === 'string' &&
typeof received === 'string' &&
(!MULTILINE_REGEXP.test(expected) || !MULTILINE_REGEXP.test(received));
exports.isOneline = isOneline;