/* eslint-env mocha */ import chai from 'chai' import Index from '../src/indexes.js' const { assert } = chai chai.should() describe('Indexes', function () { describe('Insertion', function () { it('Can insert pointers to documents in the index correctly when they have the field', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) // The underlying BST now has 3 nodes which contain the docs where it's expected idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), [{ a: 5, tf: 'hello' }]) assert.deepStrictEqual(idx.tree.search('world'), [{ a: 8, tf: 'world' }]) assert.deepStrictEqual(idx.tree.search('bloup'), [{ a: 2, tf: 'bloup' }]) // The nodes contain pointers to the actual documents idx.tree.search('world')[0].should.equal(doc2) idx.tree.search('bloup')[0].a = 42 doc3.a.should.equal(42) }) it('Can insert pointers to documents in the index correctly when they have compound fields', function () { const idx = new Index({ fieldName: 'tf,tg' }) const doc1 = { a: 5, tf: 'hello', tg: 'world' } const doc2 = { a: 8, tf: 'hello', tg: 'bloup' } const doc3 = { a: 2, tf: 'bloup', tg: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) // The underlying BST now has 3 nodes which contain the docs where it's expected idx.tree.getNumberOfKeys().should.equal(3) assert.deepEqual(idx.tree.search({ tf: 'hello', tg: 'world' }), [{ a: 5, tf: 'hello', tg: 'world' }]) assert.deepEqual(idx.tree.search({ tf: 'hello', tg: 'bloup' }), [{ a: 8, tf: 'hello', tg: 'bloup' }]) assert.deepEqual(idx.tree.search({ tf: 'bloup', tg: 'bloup' }), [{ a: 2, tf: 'bloup', tg: 'bloup' }]) // The nodes contain pointers to the actual documents idx.tree.search({ tf: 'hello', tg: 'bloup' })[0].should.equal(doc2) idx.tree.search({ tf: 'bloup', tg: 'bloup' })[0].a = 42 doc3.a.should.equal(42) }) it('Inserting twice for the same fieldName in a unique index will result in an error thrown', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } idx.insert(doc1) idx.tree.getNumberOfKeys().should.equal(1); (function () { idx.insert(doc1) }).should.throw() }) it('Inserting twice for a fieldName the docs dont have with a unique index results in an error thrown', function () { const idx = new Index({ fieldName: 'nope', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 5, tf: 'world' } idx.insert(doc1) idx.tree.getNumberOfKeys().should.equal(1); (function () { idx.insert(doc2) }).should.throw() }) it('Inserting twice for a fieldName the docs dont have with a unique and sparse index will not throw, since the docs will be non indexed', function () { const idx = new Index({ fieldName: 'nope', unique: true, sparse: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 5, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.tree.getNumberOfKeys().should.equal(0) // Docs are not indexed }) it('Inserting twice for the same compound fieldName in a unique index will result in an error thrown', function () { const idx = new Index({ fieldName: 'tf,tg', unique: true }) const doc1 = { a: 5, tf: 'hello', tg: 'world' } idx.insert(doc1) idx.tree.getNumberOfKeys().should.equal(1); (function () { idx.insert(doc1) }).should.throw() }) it('Inserting twice for a compound fieldName the docs dont have with a unique and sparse index will not throw, since the docs will be non indexed', function () { const idx = new Index({ fieldName: 'nope,nopeNope', unique: true, sparse: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 5, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.tree.getNumberOfKeys().should.equal(0) // Docs are not indexed }) it('Works with dot notation', function () { const idx = new Index({ fieldName: 'tf.nested' }) const doc1 = { a: 5, tf: { nested: 'hello' } } const doc2 = { a: 8, tf: { nested: 'world', additional: true } } const doc3 = { a: 2, tf: { nested: 'bloup', age: 42 } } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) // The underlying BST now has 3 nodes which contain the docs where it's expected idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), [doc1]) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) assert.deepStrictEqual(idx.tree.search('bloup'), [doc3]) // The nodes contain pointers to the actual documents idx.tree.search('bloup')[0].a = 42 doc3.a.should.equal(42) }) it('Can insert an array of documents', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert([doc1, doc2, doc3]) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), [doc1]) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) assert.deepStrictEqual(idx.tree.search('bloup'), [doc3]) }) it('When inserting an array of elements, if an error is thrown all inserts need to be rolled back', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc2b = { a: 84, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } try { idx.insert([doc1, doc2, doc2b, doc3]) } catch (e) { e.errorType.should.equal('uniqueViolated') } idx.tree.getNumberOfKeys().should.equal(0) assert.deepStrictEqual(idx.tree.search('hello'), []) assert.deepStrictEqual(idx.tree.search('world'), []) assert.deepStrictEqual(idx.tree.search('bloup'), []) }) describe('Array fields', function () { it('Inserts one entry per array element in the index', function () { const obj = { tf: ['aa', 'bb'], really: 'yeah' } const obj2 = { tf: 'normal', yes: 'indeed' } const idx = new Index({ fieldName: 'tf' }) idx.insert(obj) idx.getAll().length.should.equal(2) idx.getAll()[0].should.equal(obj) idx.getAll()[1].should.equal(obj) idx.insert(obj2) idx.getAll().length.should.equal(3) }) it('Inserts one entry per array element in the index, type-checked', function () { const obj = { tf: ['42', 42, new Date(42), 42], really: 'yeah' } const idx = new Index({ fieldName: 'tf' }) idx.insert(obj) idx.getAll().length.should.equal(3) idx.getAll()[0].should.equal(obj) idx.getAll()[1].should.equal(obj) idx.getAll()[2].should.equal(obj) }) it('Inserts one entry per unique array element in the index, the unique constraint only holds across documents', function () { const obj = { tf: ['aa', 'aa'], really: 'yeah' } const obj2 = { tf: ['cc', 'yy', 'cc'], yes: 'indeed' } const idx = new Index({ fieldName: 'tf', unique: true }) idx.insert(obj) idx.getAll().length.should.equal(1) idx.getAll()[0].should.equal(obj) idx.insert(obj2) idx.getAll().length.should.equal(3) }) it('The unique constraint holds across documents', function () { const obj = { tf: ['aa', 'aa'], really: 'yeah' } const obj2 = { tf: ['cc', 'aa', 'cc'], yes: 'indeed' } const idx = new Index({ fieldName: 'tf', unique: true }) idx.insert(obj) idx.getAll().length.should.equal(1) idx.getAll()[0].should.equal(obj); (function () { idx.insert(obj2) }).should.throw() }) it('When removing a document, remove it from the index at all unique array elements', function () { const obj = { tf: ['aa', 'aa'], really: 'yeah' } const obj2 = { tf: ['cc', 'aa', 'cc'], yes: 'indeed' } const idx = new Index({ fieldName: 'tf' }) idx.insert(obj) idx.insert(obj2) idx.getMatching('aa').length.should.equal(2) idx.getMatching('aa').indexOf(obj).should.not.equal(-1) idx.getMatching('aa').indexOf(obj2).should.not.equal(-1) idx.getMatching('cc').length.should.equal(1) idx.remove(obj2) idx.getMatching('aa').length.should.equal(1) idx.getMatching('aa').indexOf(obj).should.not.equal(-1) idx.getMatching('aa').indexOf(obj2).should.equal(-1) idx.getMatching('cc').length.should.equal(0) }) it('If a unique constraint is violated when inserting an array key, roll back all inserts before the key', function () { const obj = { tf: ['aa', 'bb'], really: 'yeah' } const obj2 = { tf: ['cc', 'dd', 'aa', 'ee'], yes: 'indeed' } const idx = new Index({ fieldName: 'tf', unique: true }) idx.insert(obj) idx.getAll().length.should.equal(2) idx.getMatching('aa').length.should.equal(1) idx.getMatching('bb').length.should.equal(1) idx.getMatching('cc').length.should.equal(0) idx.getMatching('dd').length.should.equal(0) idx.getMatching('ee').length.should.equal(0); (function () { idx.insert(obj2) }).should.throw() idx.getAll().length.should.equal(2) idx.getMatching('aa').length.should.equal(1) idx.getMatching('bb').length.should.equal(1) idx.getMatching('cc').length.should.equal(0) idx.getMatching('dd').length.should.equal(0) idx.getMatching('ee').length.should.equal(0) }) }) // ==== End of 'Array fields' ==== // describe('Compound Indexes', function () { it('Supports field names separated by commas', function () { const idx = new Index({ fieldName: 'tf,tf2' }) const doc1 = { a: 5, tf: 'hello', tf2: 7 } const doc2 = { a: 8, tf: 'hello', tf2: 6 } const doc3 = { a: 2, tf: 'bloup', tf2: 3 } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) // The underlying BST now has 3 nodes which contain the docs where it's expected idx.tree.getNumberOfKeys().should.equal(3) assert.deepEqual(idx.tree.search({ tf: 'hello', tf2: 7 }), [{ a: 5, tf: 'hello', tf2: 7 }]) assert.deepEqual(idx.tree.search({ tf: 'hello', tf2: 6 }), [{ a: 8, tf: 'hello', tf2: 6 }]) assert.deepEqual(idx.tree.search({ tf: 'bloup', tf2: 3 }), [{ a: 2, tf: 'bloup', tf2: 3 }]) // The nodes contain pointers to the actual documents idx.tree.search({ tf: 'hello', tf2: 6 })[0].should.equal(doc2) idx.tree.search({ tf: 'bloup', tf2: 3 })[0].a = 42 doc3.a.should.equal(42) }) }) }) // ==== End of 'Insertion' ==== // describe('Removal', function () { it('Can remove pointers from the index, even when multiple documents have the same key', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc4 = { a: 23, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) idx.tree.getNumberOfKeys().should.equal(3) idx.remove(doc1) idx.tree.getNumberOfKeys().should.equal(2) idx.tree.search('hello').length.should.equal(0) idx.remove(doc2) idx.tree.getNumberOfKeys().should.equal(2) idx.tree.search('world').length.should.equal(1) idx.tree.search('world')[0].should.equal(doc4) }) it('If we have a sparse index, removing a non indexed doc has no effect', function () { const idx = new Index({ fieldName: 'nope', sparse: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 5, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.tree.getNumberOfKeys().should.equal(0) idx.remove(doc1) idx.tree.getNumberOfKeys().should.equal(0) }) it('Works with dot notation', function () { const idx = new Index({ fieldName: 'tf.nested' }) const doc1 = { a: 5, tf: { nested: 'hello' } } const doc2 = { a: 8, tf: { nested: 'world', additional: true } } const doc3 = { a: 2, tf: { nested: 'bloup', age: 42 } } const doc4 = { a: 2, tf: { nested: 'world', fruits: ['apple', 'carrot'] } } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) idx.tree.getNumberOfKeys().should.equal(3) idx.remove(doc1) idx.tree.getNumberOfKeys().should.equal(2) idx.tree.search('hello').length.should.equal(0) idx.remove(doc2) idx.tree.getNumberOfKeys().should.equal(2) idx.tree.search('world').length.should.equal(1) idx.tree.search('world')[0].should.equal(doc4) }) it('Can remove an array of documents', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert([doc1, doc2, doc3]) idx.tree.getNumberOfKeys().should.equal(3) idx.remove([doc1, doc3]) idx.tree.getNumberOfKeys().should.equal(1) assert.deepStrictEqual(idx.tree.search('hello'), []) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) assert.deepStrictEqual(idx.tree.search('bloup'), []) }) }) // ==== End of 'Removal' ==== // describe('Update', function () { it('Can update a document whose key did or didnt change', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc4 = { a: 23, tf: 'world' } const doc5 = { a: 1, tf: 'changed' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) idx.update(doc2, doc4) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('world'), [doc4]) idx.update(doc1, doc5) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), []) assert.deepStrictEqual(idx.tree.search('changed'), [doc5]) }) it('If a simple update violates a unique constraint, changes are rolled back and an error thrown', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const bad = { a: 23, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), [doc1]) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) assert.deepStrictEqual(idx.tree.search('bloup'), [doc3]) try { idx.update(doc3, bad) } catch (e) { e.errorType.should.equal('uniqueViolated') } // No change idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('hello'), [doc1]) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) assert.deepStrictEqual(idx.tree.search('bloup'), [doc3]) }) it('Can update an array of documents', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc1b = { a: 23, tf: 'world' } const doc2b = { a: 1, tf: 'changed' } const doc3b = { a: 44, tf: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) idx.update([{ oldDoc: doc1, newDoc: doc1b }, { oldDoc: doc2, newDoc: doc2b }, { oldDoc: doc3, newDoc: doc3b }]) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc1b) idx.getMatching('changed').length.should.equal(1) idx.getMatching('changed')[0].should.equal(doc2b) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3b) }) it('If a unique constraint is violated during an array-update, all changes are rolled back and an error thrown', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc1b = { a: 23, tf: 'changed' } const doc2b = { a: 1, tf: 'changed' } const doc3b = { a: 44, tf: 'alsochanged' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) try { idx.update([{ oldDoc: doc1, newDoc: doc1b }, { oldDoc: doc2, newDoc: doc2b }, { oldDoc: doc3, newDoc: doc3b }]) } catch (e) { e.errorType.should.equal('uniqueViolated') } idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('hello')[0].should.equal(doc1) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc2) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3) try { idx.update([{ oldDoc: doc1, newDoc: doc1b }, { oldDoc: doc2, newDoc: doc2b }, { oldDoc: doc3, newDoc: doc3b }]) } catch (e) { e.errorType.should.equal('uniqueViolated') } idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('hello')[0].should.equal(doc1) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc2) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3) }) it('If an update doesnt change a document, the unique constraint is not violated', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const noChange = { a: 8, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('world'), [doc2]) idx.update(doc2, noChange) // No error thrown idx.tree.getNumberOfKeys().should.equal(3) assert.deepStrictEqual(idx.tree.search('world'), [noChange]) }) it('Can revert simple and batch updates', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc1b = { a: 23, tf: 'world' } const doc2b = { a: 1, tf: 'changed' } const doc3b = { a: 44, tf: 'bloup' } const batchUpdate = [{ oldDoc: doc1, newDoc: doc1b }, { oldDoc: doc2, newDoc: doc2b }, { oldDoc: doc3, newDoc: doc3b }] idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) idx.update(batchUpdate) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc1b) idx.getMatching('changed').length.should.equal(1) idx.getMatching('changed')[0].should.equal(doc2b) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3b) idx.revertUpdate(batchUpdate) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('hello')[0].should.equal(doc1) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc2) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3) // Now a simple update idx.update(doc2, doc2b) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('hello')[0].should.equal(doc1) idx.getMatching('changed').length.should.equal(1) idx.getMatching('changed')[0].should.equal(doc2b) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3) idx.revertUpdate(doc2, doc2b) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('hello')[0].should.equal(doc1) idx.getMatching('world').length.should.equal(1) idx.getMatching('world')[0].should.equal(doc2) idx.getMatching('bloup').length.should.equal(1) idx.getMatching('bloup')[0].should.equal(doc3) }) }) // ==== End of 'Update' ==== // describe('Get matching documents', function () { it('Get all documents where fieldName is equal to the given value, or an empty array if no match', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const doc4 = { a: 23, tf: 'world' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) assert.deepStrictEqual(idx.getMatching('bloup'), [doc3]) assert.deepStrictEqual(idx.getMatching('world'), [doc2, doc4]) assert.deepStrictEqual(idx.getMatching('nope'), []) }) it('Can get all documents for a given key in a unique index', function () { const idx = new Index({ fieldName: 'tf', unique: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) assert.deepStrictEqual(idx.getMatching('bloup'), [doc3]) assert.deepStrictEqual(idx.getMatching('world'), [doc2]) assert.deepStrictEqual(idx.getMatching('nope'), []) }) it('Can get all documents for which a field is undefined', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 2, nottf: 'bloup' } const doc3 = { a: 8, tf: 'world' } const doc4 = { a: 7, nottf: 'yes' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) assert.deepStrictEqual(idx.getMatching('bloup'), []) assert.deepStrictEqual(idx.getMatching('hello'), [doc1]) assert.deepStrictEqual(idx.getMatching('world'), [doc3]) assert.deepStrictEqual(idx.getMatching('yes'), []) assert.deepStrictEqual(idx.getMatching(undefined), [doc2]) idx.insert(doc4) assert.deepStrictEqual(idx.getMatching('bloup'), []) assert.deepStrictEqual(idx.getMatching('hello'), [doc1]) assert.deepStrictEqual(idx.getMatching('world'), [doc3]) assert.deepStrictEqual(idx.getMatching('yes'), []) assert.deepStrictEqual(idx.getMatching(undefined), [doc2, doc4]) }) it('Can get all documents for which a field is null', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 2, tf: null } const doc3 = { a: 8, tf: 'world' } const doc4 = { a: 7, tf: null } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) assert.deepStrictEqual(idx.getMatching('bloup'), []) assert.deepStrictEqual(idx.getMatching('hello'), [doc1]) assert.deepStrictEqual(idx.getMatching('world'), [doc3]) assert.deepStrictEqual(idx.getMatching('yes'), []) assert.deepStrictEqual(idx.getMatching(null), [doc2]) idx.insert(doc4) assert.deepStrictEqual(idx.getMatching('bloup'), []) assert.deepStrictEqual(idx.getMatching('hello'), [doc1]) assert.deepStrictEqual(idx.getMatching('world'), [doc3]) assert.deepStrictEqual(idx.getMatching('yes'), []) assert.deepStrictEqual(idx.getMatching(null), [doc2, doc4]) }) it('Can get all documents for a given key in a sparse index, but not unindexed docs (= field undefined)', function () { const idx = new Index({ fieldName: 'tf', sparse: true }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 2, nottf: 'bloup' } const doc3 = { a: 8, tf: 'world' } const doc4 = { a: 7, nottf: 'yes' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) assert.deepStrictEqual(idx.getMatching('bloup'), []) assert.deepStrictEqual(idx.getMatching('hello'), [doc1]) assert.deepStrictEqual(idx.getMatching('world'), [doc3]) assert.deepStrictEqual(idx.getMatching('yes'), []) assert.deepStrictEqual(idx.getMatching(undefined), []) }) it('Can get all documents whose key is in an array of keys', function () { // For this test only we have to use objects with _ids as the array version of getMatching // relies on the _id property being set, otherwise we have to use a quadratic algorithm // or a fingerprinting algorithm, both solutions too complicated and slow given that live nedb // indexes documents with _id always set const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello', _id: '1' } const doc2 = { a: 2, tf: 'bloup', _id: '2' } const doc3 = { a: 8, tf: 'world', _id: '3' } const doc4 = { a: 7, tf: 'yes', _id: '4' } const doc5 = { a: 7, tf: 'yes', _id: '5' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) idx.insert(doc5) assert.deepStrictEqual(idx.getMatching([]), []) assert.deepStrictEqual(idx.getMatching(['bloup']), [doc2]) assert.deepStrictEqual(idx.getMatching(['bloup', 'yes']), [doc2, doc4, doc5]) assert.deepStrictEqual(idx.getMatching(['hello', 'no']), [doc1]) assert.deepStrictEqual(idx.getMatching(['nope', 'no']), []) }) it('Can get all documents whose key is between certain bounds', function () { const idx = new Index({ fieldName: 'a' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 2, tf: 'bloup' } const doc3 = { a: 8, tf: 'world' } const doc4 = { a: 7, tf: 'yes' } const doc5 = { a: 10, tf: 'yes' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.insert(doc4) idx.insert(doc5) assert.deepStrictEqual(idx.getBetweenBounds({ $lt: 10, $gte: 5 }), [doc1, doc4, doc3]) assert.deepStrictEqual(idx.getBetweenBounds({ $lte: 8 }), [doc2, doc1, doc4, doc3]) assert.deepStrictEqual(idx.getBetweenBounds({ $gt: 7 }), [doc3, doc5]) }) }) // ==== End of 'Get matching documents' ==== // describe('Resetting', function () { it('Can reset an index without any new data, the index will be empty afterwards', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('world').length.should.equal(1) idx.getMatching('bloup').length.should.equal(1) idx.reset() idx.tree.getNumberOfKeys().should.equal(0) idx.getMatching('hello').length.should.equal(0) idx.getMatching('world').length.should.equal(0) idx.getMatching('bloup').length.should.equal(0) }) it('Can reset an index and initialize it with one document', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const newDoc = { a: 555, tf: 'new' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('world').length.should.equal(1) idx.getMatching('bloup').length.should.equal(1) idx.reset(newDoc) idx.tree.getNumberOfKeys().should.equal(1) idx.getMatching('hello').length.should.equal(0) idx.getMatching('world').length.should.equal(0) idx.getMatching('bloup').length.should.equal(0) idx.getMatching('new')[0].a.should.equal(555) }) it('Can reset an index and initialize it with an array of documents', function () { const idx = new Index({ fieldName: 'tf' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } const newDocs = [{ a: 555, tf: 'new' }, { a: 666, tf: 'again' }] idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) idx.tree.getNumberOfKeys().should.equal(3) idx.getMatching('hello').length.should.equal(1) idx.getMatching('world').length.should.equal(1) idx.getMatching('bloup').length.should.equal(1) idx.reset(newDocs) idx.tree.getNumberOfKeys().should.equal(2) idx.getMatching('hello').length.should.equal(0) idx.getMatching('world').length.should.equal(0) idx.getMatching('bloup').length.should.equal(0) idx.getMatching('new')[0].a.should.equal(555) idx.getMatching('again')[0].a.should.equal(666) }) }) // ==== End of 'Resetting' ==== // it('Get all elements in the index', function () { const idx = new Index({ fieldName: 'a' }) const doc1 = { a: 5, tf: 'hello' } const doc2 = { a: 8, tf: 'world' } const doc3 = { a: 2, tf: 'bloup' } idx.insert(doc1) idx.insert(doc2) idx.insert(doc3) assert.deepStrictEqual(idx.getAll(), [{ a: 2, tf: 'bloup' }, { a: 5, tf: 'hello' }, { a: 8, tf: 'world' }]) }) })