/** * Sample React Native App * https://github.com/facebook/react-native */ 'use strict'; import React, { AppRegistry, Component, StyleSheet, Text, View, ListView, TouchableHighlight } from 'react-native'; const Store = require('react-native-store'); const SQLite = require('react-native-sqlite-storage'); const Realm = require('realm'); // Make SQLite module use Promises. SQLite.enablePromise(true); const TestObjectSchema = { name: "TestObject", properties: { int: "int", double: "double", date: "date", string: "string" } } const numTestObjects = 5000; const numBatchTestObjects = numTestObjects * 100; const numRepeats = 1; const numQueryBuckets = 5; const tests = ["insertions", "binsertions", "enumeration", "querycount", "queryenum"]; const expectedCounts = { insertions: numTestObjects, binsertions: numBatchTestObjects, enumeration: numBatchTestObjects, querycount: numBatchTestObjects, queryenum: numBatchTestObjects }; const expectedResults = { insertions: numTestObjects, binsertions: numBatchTestObjects, enumeration: numBatchTestObjects, querycount: numBatchTestObjects / (numQueryBuckets * 200), queryenum: numBatchTestObjects / (numQueryBuckets * 200) }; class Tests { async setup(testName) { var count = await this.count(); if (testName == 'enumeration' || testName == 'querycount' || testName == 'queryenum') { if (count != expectedCounts[testName]) { throw "Incorrect count " + count + " for test " + testName; } } else { if (count != 0) { throw "Initial count should be 0 for insertion tests"; } } } async binsertions() { return await this.batchInsert(this.testObjects(numBatchTestObjects)); } objectValues(object) { return Object.keys(TestObjectSchema.properties).map((prop) => object[prop]) } testObjects(count) { var objects = []; for (let i = 0; i < count; i++) { objects.push({ int: i % numQueryBuckets, double: i, date: new Date(i), string: "" + i }); } return objects; } } class RealmTests extends Tests { constructor() { super(); this.name = 'Realm'; } async setup(testName) { if (testName == "insertions" || testName == "binsertions") { Realm.clearTestState(); } this.realm = new Realm({schema: [TestObjectSchema]}); await super.setup(testName); } async insertions() { var realm = this.realm; for (var obj of this.testObjects(numTestObjects)) { realm.write(() => { realm.create("TestObject", obj); }); } return numTestObjects; } async batchInsert(objects) { var realm = this.realm; realm.write(() => { for (var obj of objects) { realm.create("TestObject", obj); } }); return objects.length; } async enumeration() { let objects = this.realm.objects('TestObject'); let len = objects.length; for (let i = 0; i < len; i++) { var obj = objects[i]; obj.int; obj.double; obj.date; obj.string; } return len; } async querycount() { let objects = this.realm.objects('TestObject', 'int = 0 and double < ' + numTestObjects / 2); return objects.length; } async queryenum() { let objects = this.realm.objects('TestObject', 'int = 0 and double < ' + numTestObjects / 2); let len = objects.length; for (let i = 0; i < len; i++) { var obj = objects[i]; obj.int; obj.double; obj.date; obj.string; } return len; } async count() { return this.realm.objects('TestObject').length; } } class RNStoreTests extends Tests { constructor() { super(); this.name = "RNStore"; } async setup(testName) { this.db = Store.model('objects'); if (testName == "insertions" || testName == "binsertions") { await this.db.destroy(); } await super.setup(testName); } async insertions() { for (var obj of this.testObjects(numTestObjects)) { obj.date = obj.date.getTime(); await this.db.add(obj); } return numTestObjects; } async batchInsert(objects) { await this.db.multiAdd(objects); for (var obj of this.testObjects(numTestObjects)) { obj.date = obj.date.getTime(); } return objects.length; } async enumeration() { let objects = await this.db.find(); let len = objects.length; for (let i = 0; i < len; i++) { var obj = objects[i]; obj.int; obj.double; new Date(obj.date); obj.string; } return len; } async querycount() { let objects = await this.db.find({ where: { and: [{ int: 0 }, { double: { lt: numTestObjects / 2 } }] }, order: { age: 'ASC', } }); return objects.length; } async queryenum() { let objects = await this.db.find({ where: { and: [{ int: 0 }, { double: { lt: numTestObjects / 2 } }] }, order: { age: 'ASC', } }); let len = objects.length; for (let i = 0; i < len; i++) { var obj = objects[i]; obj.int; obj.double; obj.date; obj.string; } return len } async count() { let objects = await this.db.find(); return objects != undefined ? objects.length : 0; } } class RNSqliteTests extends Tests { constructor() { super(); this.name = "RNSqlite"; } async setup(testName) { if (testName == "insertions" || testName == "binsertions") { try { await SQLite.deleteDatabase('test.db'); } catch (e) {} } this.db = await SQLite.openDatabase("test.db", "1.0", "Test Database", 200000); await this.db.transaction((tx) => { tx.executeSql('CREATE TABLE IF NOT EXISTS t1 (string VARCHAR(100), int INTEGER, double REAL, date INTEGER);'); }); await super.setup(testName); } async insertions() { for (var obj of this.testObjects(numTestObjects)) { let values = [obj.string, obj.int, obj.double, obj.date.getTime()]; await this.db.transaction((tx) => { tx.executeSql('INSERT INTO t1 (string, int, double, date) VALUES (?,?,?,?);', values); }); } return numTestObjects; } async batchInsert(objects) { await this.db.transaction((tx) => { for (var obj of objects) { let values = [obj.string, obj.int, obj.double, obj.date.getTime()]; tx.executeSql('INSERT INTO t1 (string, int, double, date) VALUES (?,?,?,?);', values); } }); return objects.length; } async enumeration() { var len; await this.db.readTransaction(async (tx) => { let [, results] = await tx.executeSql('SELECT * FROM t1;') len = results.rows.length; for (let i = 0; i < len; i++) { var row = results.rows.item(i); row.int; row.double; row.string; new Date(row.date); } }); return len; } async querycount() { var len; await this.db.readTransaction(async (tx) => { let [, results] = await tx.executeSql('SELECT * FROM t1 WHERE int = 0 AND double < ' + numTestObjects/2 + ';'); len = results.rows.length; }); return len; } async queryenum() { var len; await this.db.readTransaction(async (tx) => { let [, results] = await tx.executeSql('SELECT * FROM t1 WHERE int = 0 AND double < ' + numTestObjects/2 + ';'); len = results.rows.length; for (let i = 0; i < len; i++) { var row = results.rows.item(i); row.int; row.double; row.string; new Date(row.date); } }); return len; } async count() { var len; await this.db.readTransaction(async (tx) => { let [, results] = await tx.executeSql('SELECT * FROM t1;') len = results.rows.length; }); return len; } } const apiTests = [new RealmTests, new RNSqliteTests, new RNStoreTests]; class ReactNativeBenchmarks extends Component { constructor(props) { super(props); this.state = { dataSource: new ListView.DataSource({ rowHasChanged: (row1, row2) => row1 !== row2, }), running: false, }; this._renderRow = this._renderRow.bind(this); this._runTests = this._runTests.bind(this); } render() { return ( ReactNative Storage Benchmarks Run ); } _renderRow(rowData) { return ( {rowData.join('\t\t')} ); } async _runTests() { if (this.state.running) { console.log("DISABLED"); return; } this.setState({running: true}); try { await this._runTestsAsync(); } catch (e) { console.error('Error running tests:', e); } this.setState({running: false}); } async _runTestsAsync() { var data = [apiTests.map((api) => api.name)]; data[0].splice(0, 0, "\t\t"); for (let test of tests) { data.push([test]); this.setState({ dataSource: this.state.dataSource.cloneWithRows(data), }); for (var apiTest of apiTests) { var totalTime = 0; console.log("Running " + apiTest.name + "." + test); for (var i = 0; i < numRepeats; i++) { await apiTest.setup(test); var startTime = Date.now(); var result = await apiTest[test](); var endTime = Date.now(); if (result != expectedResults[test]) { throw "Incorrect result " + result + " for test " + apiTest.name + "." + test; } var count = await apiTest.count(); if (count != expectedCounts[test]) { throw "Incorrect count " + count + " for test " + apiTest.name + "." + test; } var time = endTime - startTime console.log("finished in " + time); totalTime += time; } data = data.slice(); let last = data.length-1; data[last] = data[last].slice(); data[last].push(totalTime / numRepeats); this.setState({ dataSource: this.state.dataSource.cloneWithRows(data), }); } } } } const styles = StyleSheet.create({ container: { flex: 1, justifyContent: 'center', alignItems: 'center', backgroundColor: '#F5FCFF', }, title: { fontSize: 20, textAlign: 'center', margin: 20, }, instructions: { textAlign: 'center', color: '#333333', marginBottom: 5, }, list: { justifyContent: 'center', flexDirection: 'column', flexWrap: 'wrap', }, button: { justifyContent: 'center', alignItems: 'center', backgroundColor: '#CCC', width: 100, height: 40 }, row: { flexDirection: 'row', }, item: { textAlign: 'center', padding: 3, margin: 3, fontSize: 12 } }); module.exports = ReactNativeBenchmarks;