const typeChecker = (type) => { const typeString = "[object " + type + "]"; return function (value) { return getClassName(value) === typeString; }; }; const getClassName = value => Object.prototype.toString.call(value); const comparable = (value) => { if (value instanceof Date) { return value.getTime(); } else if (isArray(value)) { return value.map(comparable); } else if (value && typeof value.toJSON === "function") { return value.toJSON(); } return value; }; const isArray = typeChecker("Array"); const isObject = typeChecker("Object"); const isFunction = typeChecker("Function"); const isVanillaObject = value => { return (value && (value.constructor === Object || value.constructor === Array || value.constructor.toString() === "function Object() { [native code] }" || value.constructor.toString() === "function Array() { [native code] }") && !value.toJSON); }; const equals = (a, b) => { if (a == null && a == b) { return true; } if (a === b) { return true; } if (Object.prototype.toString.call(a) !== Object.prototype.toString.call(b)) { return false; } if (isArray(a)) { if (a.length !== b.length) { return false; } for (let i = 0, { length } = a; i < length; i++) { if (!equals(a[i], b[i])) return false; } return true; } else if (isObject(a)) { if (Object.keys(a).length !== Object.keys(b).length) { return false; } for (const key in a) { if (!equals(a[key], b[key])) return false; } return true; } return false; }; /** * Walks through each value given the context - used for nested operations. E.g: * { "person.address": { $eq: "blarg" }} */ const walkKeyPathValues = (item, keyPath, next, depth, key, owner) => { const currentKey = keyPath[depth]; // if array, then try matching. Might fall through for cases like: // { $eq: [1, 2, 3] }, [ 1, 2, 3 ]. if (isArray(item) && isNaN(Number(currentKey))) { for (let i = 0, { length } = item; i < length; i++) { // if FALSE is returned, then terminate walker. For operations, this simply // means that the search critera was met. if (!walkKeyPathValues(item[i], keyPath, next, depth, i, item)) { return false; } } } if (depth === keyPath.length || item == null) { return next(item, key, owner, depth === 0); } return walkKeyPathValues(item[currentKey], keyPath, next, depth + 1, currentKey, item); }; class BaseOperation { constructor(params, owneryQuery, options, name) { this.params = params; this.owneryQuery = owneryQuery; this.options = options; this.name = name; this.init(); } init() { } reset() { this.done = false; this.keep = false; } } class GroupOperation extends BaseOperation { constructor(params, owneryQuery, options, children) { super(params, owneryQuery, options); this.children = children; } /** */ reset() { this.keep = false; this.done = false; for (let i = 0, { length } = this.children; i < length; i++) { this.children[i].reset(); } } /** */ childrenNext(item, key, owner, root) { let done = true; let keep = true; for (let i = 0, { length } = this.children; i < length; i++) { const childOperation = this.children[i]; if (!childOperation.done) { childOperation.next(item, key, owner, root); } if (!childOperation.keep) { keep = false; } if (childOperation.done) { if (!childOperation.keep) { break; } } else { done = false; } } this.done = done; this.keep = keep; } } class NamedGroupOperation extends GroupOperation { constructor(params, owneryQuery, options, children, name) { super(params, owneryQuery, options, children); this.name = name; } } class QueryOperation extends GroupOperation { constructor() { super(...arguments); this.propop = true; } /** */ next(item, key, parent, root) { this.childrenNext(item, key, parent, root); } } class NestedOperation extends GroupOperation { constructor(keyPath, params, owneryQuery, options, children) { super(params, owneryQuery, options, children); this.keyPath = keyPath; this.propop = true; /** */ this._nextNestedValue = (value, key, owner, root) => { this.childrenNext(value, key, owner, root); return !this.done; }; } /** */ next(item, key, parent) { walkKeyPathValues(item, this.keyPath, this._nextNestedValue, 0, key, parent); } } const createTester = (a, compare) => { if (a instanceof Function) { return a; } if (a instanceof RegExp) { return b => { const result = typeof b === "string" && a.test(b); a.lastIndex = 0; return result; }; } const comparableA = comparable(a); return b => compare(comparableA, comparable(b)); }; class EqualsOperation extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { this._test = createTester(this.params, this.options.compare); } next(item, key, parent) { if (!Array.isArray(parent) || parent.hasOwnProperty(key)) { if (this._test(item, key, parent)) { this.done = true; this.keep = true; } } } } const createEqualsOperation = (params, owneryQuery, options) => new EqualsOperation(params, owneryQuery, options); class NopeOperation extends BaseOperation { constructor() { super(...arguments); this.propop = true; } next() { this.done = true; this.keep = false; } } const numericalOperationCreator = (createNumericalOperation) => (params, owneryQuery, options, name) => { if (params == null) { return new NopeOperation(params, owneryQuery, options, name); } return createNumericalOperation(params, owneryQuery, options, name); }; const numericalOperation = (createTester) => numericalOperationCreator((params, owneryQuery, options, name) => { const typeofParams = typeof comparable(params); const test = createTester(params); return new EqualsOperation(b => { return typeof comparable(b) === typeofParams && test(b); }, owneryQuery, options, name); }); const createNamedOperation = (name, params, parentQuery, options) => { const operationCreator = options.operations[name]; if (!operationCreator) { throwUnsupportedOperation(name); } return operationCreator(params, parentQuery, options, name); }; const throwUnsupportedOperation = (name) => { throw new Error(`Unsupported operation: ${name}`); }; const containsOperation = (query, options) => { for (const key in query) { if (options.operations.hasOwnProperty(key) || key.charAt(0) === "$") return true; } return false; }; const createNestedOperation = (keyPath, nestedQuery, parentKey, owneryQuery, options) => { if (containsOperation(nestedQuery, options)) { const [selfOperations, nestedOperations] = createQueryOperations(nestedQuery, parentKey, options); if (nestedOperations.length) { throw new Error(`Property queries must contain only operations, or exact objects.`); } return new NestedOperation(keyPath, nestedQuery, owneryQuery, options, selfOperations); } return new NestedOperation(keyPath, nestedQuery, owneryQuery, options, [ new EqualsOperation(nestedQuery, owneryQuery, options) ]); }; const createQueryOperation = (query, owneryQuery = null, { compare, operations } = {}) => { const options = { compare: compare || equals, operations: Object.assign({}, operations || {}) }; const [selfOperations, nestedOperations] = createQueryOperations(query, null, options); const ops = []; if (selfOperations.length) { ops.push(new NestedOperation([], query, owneryQuery, options, selfOperations)); } ops.push(...nestedOperations); if (ops.length === 1) { return ops[0]; } return new QueryOperation(query, owneryQuery, options, ops); }; const createQueryOperations = (query, parentKey, options) => { const selfOperations = []; const nestedOperations = []; if (!isVanillaObject(query)) { selfOperations.push(new EqualsOperation(query, query, options)); return [selfOperations, nestedOperations]; } for (const key in query) { if (options.operations.hasOwnProperty(key)) { const op = createNamedOperation(key, query[key], query, options); if (op) { if (!op.propop && parentKey && !options.operations[parentKey]) { throw new Error(`Malformed query. ${key} cannot be matched against property.`); } } // probably just a flag for another operation (like $options) if (op != null) { selfOperations.push(op); } } else if (key.charAt(0) === "$") { throwUnsupportedOperation(key); } else { nestedOperations.push(createNestedOperation(key.split("."), query[key], key, query, options)); } } return [selfOperations, nestedOperations]; }; const createOperationTester = (operation) => (item, key, owner) => { operation.reset(); operation.next(item, key, owner); return operation.keep; }; const createQueryTester = (query, options = {}) => { return createOperationTester(createQueryOperation(query, null, options)); }; class $Ne extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { this._test = createTester(this.params, this.options.compare); } reset() { super.reset(); this.keep = true; } next(item) { if (this._test(item)) { this.done = true; this.keep = false; } } } // https://docs.mongodb.com/manual/reference/operator/query/elemMatch/ class $ElemMatch extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { if (!this.params || typeof this.params !== "object") { throw new Error(`Malformed query. $elemMatch must by an object.`); } this._queryOperation = createQueryOperation(this.params, this.owneryQuery, this.options); } reset() { super.reset(); this._queryOperation.reset(); } next(item) { if (isArray(item)) { for (let i = 0, { length } = item; i < length; i++) { // reset query operation since item being tested needs to pass _all_ query // operations for it to be a success this._queryOperation.reset(); const child = item[i]; this._queryOperation.next(child, i, item, false); this.keep = this.keep || this._queryOperation.keep; } this.done = true; } else { this.done = false; this.keep = false; } } } class $Not extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { this._queryOperation = createQueryOperation(this.params, this.owneryQuery, this.options); } reset() { super.reset(); this._queryOperation.reset(); } next(item, key, owner, root) { this._queryOperation.next(item, key, owner, root); this.done = this._queryOperation.done; this.keep = !this._queryOperation.keep; } } class $Size extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { } next(item) { if (isArray(item) && item.length === this.params) { this.done = true; this.keep = true; } // if (parent && parent.length === this.params) { // this.done = true; // this.keep = true; // } } } const assertGroupNotEmpty = (values) => { if (values.length === 0) { throw new Error(`$and/$or/$nor must be a nonempty array`); } }; class $Or extends BaseOperation { constructor() { super(...arguments); this.propop = false; } init() { assertGroupNotEmpty(this.params); this._ops = this.params.map(op => createQueryOperation(op, null, this.options)); } reset() { this.done = false; this.keep = false; for (let i = 0, { length } = this._ops; i < length; i++) { this._ops[i].reset(); } } next(item, key, owner) { let done = false; let success = false; for (let i = 0, { length } = this._ops; i < length; i++) { const op = this._ops[i]; op.next(item, key, owner); if (op.keep) { done = true; success = op.keep; break; } } this.keep = success; this.done = done; } } class $Nor extends $Or { constructor() { super(...arguments); this.propop = false; } next(item, key, owner) { super.next(item, key, owner); this.keep = !this.keep; } } class $In extends BaseOperation { constructor() { super(...arguments); this.propop = true; } init() { this._testers = this.params.map(value => { if (containsOperation(value, this.options)) { throw new Error(`cannot nest $ under ${this.name.toLowerCase()}`); } return createTester(value, this.options.compare); }); } next(item, key, owner) { let done = false; let success = false; for (let i = 0, { length } = this._testers; i < length; i++) { const test = this._testers[i]; if (test(item)) { done = true; success = true; break; } } this.keep = success; this.done = done; } } class $Nin extends BaseOperation { constructor(params, ownerQuery, options, name) { super(params, ownerQuery, options, name); this.propop = true; this._in = new $In(params, ownerQuery, options, name); } next(item, key, owner, root) { this._in.next(item, key, owner); if (isArray(owner) && !root) { if (this._in.keep) { this.keep = false; this.done = true; } else if (key == owner.length - 1) { this.keep = true; this.done = true; } } else { this.keep = !this._in.keep; this.done = true; } } reset() { super.reset(); this._in.reset(); } } class $Exists extends BaseOperation { constructor() { super(...arguments); this.propop = true; } next(item, key, owner) { if (owner.hasOwnProperty(key) === this.params) { this.done = true; this.keep = true; } } } class $And extends NamedGroupOperation { constructor(params, owneryQuery, options, name) { super(params, owneryQuery, options, params.map(query => createQueryOperation(query, owneryQuery, options)), name); this.propop = false; assertGroupNotEmpty(params); } next(item, key, owner, root) { this.childrenNext(item, key, owner, root); } } class $All extends NamedGroupOperation { constructor(params, owneryQuery, options, name) { super(params, owneryQuery, options, params.map(query => createQueryOperation(query, owneryQuery, options)), name); this.propop = true; } next(item, key, owner, root) { this.childrenNext(item, key, owner, root); } } const $eq = (params, owneryQuery, options) => new EqualsOperation(params, owneryQuery, options); const $ne = (params, owneryQuery, options, name) => new $Ne(params, owneryQuery, options, name); const $or = (params, owneryQuery, options, name) => new $Or(params, owneryQuery, options, name); const $nor = (params, owneryQuery, options, name) => new $Nor(params, owneryQuery, options, name); const $elemMatch = (params, owneryQuery, options, name) => new $ElemMatch(params, owneryQuery, options, name); const $nin = (params, owneryQuery, options, name) => new $Nin(params, owneryQuery, options, name); const $in = (params, owneryQuery, options, name) => { return new $In(params, owneryQuery, options, name); }; const $lt = numericalOperation(params => b => b < params); const $lte = numericalOperation(params => b => b <= params); const $gt = numericalOperation(params => b => b > params); const $gte = numericalOperation(params => b => b >= params); const $mod = ([mod, equalsValue], owneryQuery, options) => new EqualsOperation(b => comparable(b) % mod === equalsValue, owneryQuery, options); const $exists = (params, owneryQuery, options, name) => new $Exists(params, owneryQuery, options, name); const $regex = (pattern, owneryQuery, options) => new EqualsOperation(new RegExp(pattern, owneryQuery.$options), owneryQuery, options); const $not = (params, owneryQuery, options, name) => new $Not(params, owneryQuery, options, name); const typeAliases = { number: v => typeof v === "number", string: v => typeof v === "string", bool: v => typeof v === "boolean", array: v => Array.isArray(v), null: v => v === null, timestamp: v => v instanceof Date }; const $type = (clazz, owneryQuery, options) => new EqualsOperation(b => { if (typeof clazz === "string") { if (!typeAliases[clazz]) { throw new Error(`Type alias does not exist`); } return typeAliases[clazz](b); } return b != null ? b instanceof clazz || b.constructor === clazz : false; }, owneryQuery, options); const $and = (params, ownerQuery, options, name) => new $And(params, ownerQuery, options, name); const $all = (params, ownerQuery, options, name) => new $All(params, ownerQuery, options, name); const $size = (params, ownerQuery, options) => new $Size(params, ownerQuery, options, "$size"); const $options = () => null; const $where = (params, ownerQuery, options) => { let test; if (isFunction(params)) { test = params; } else if (!process.env.CSP_ENABLED) { test = new Function("obj", "return " + params); } else { throw new Error(`In CSP mode, sift does not support strings in "$where" condition`); } return new EqualsOperation(b => test.bind(b)(b), ownerQuery, options); }; var defaultOperations = /*#__PURE__*/Object.freeze({ __proto__: null, $Size: $Size, $eq: $eq, $ne: $ne, $or: $or, $nor: $nor, $elemMatch: $elemMatch, $nin: $nin, $in: $in, $lt: $lt, $lte: $lte, $gt: $gt, $gte: $gte, $mod: $mod, $exists: $exists, $regex: $regex, $not: $not, $type: $type, $and: $and, $all: $all, $size: $size, $options: $options, $where: $where }); const createDefaultQueryOperation = (query, ownerQuery, { compare, operations } = {}) => { return createQueryOperation(query, ownerQuery, { compare, operations: Object.assign({}, defaultOperations, operations || {}) }); }; const createDefaultQueryTester = (query, options = {}) => { const op = createDefaultQueryOperation(query, null, options); return createOperationTester(op); }; export default createDefaultQueryTester; export { $Size, $all, $and, $elemMatch, $eq, $exists, $gt, $gte, $in, $lt, $lte, $mod, $ne, $nin, $nor, $not, $options, $or, $regex, $size, $type, $where, EqualsOperation, createDefaultQueryOperation, createEqualsOperation, createOperationTester, createQueryOperation, createQueryTester }; //# sourceMappingURL=index.js.map