@Test
public void testOverTcpGetPerf() throws IOException, InterruptedException {
String name = TMP + "/testOverTcpGetPerf0";
String name2 = TMP + "/testOverTcpGetPerf2";
ChronicleTools.deleteOnExit(name);
ChronicleTools.deleteOnExit(name2);
long start = System.nanoTime();
int PORT = 12345;
int size = 0;
InProcessChronicleSource chronicle =
new InProcessChronicleSource(new IndexedChronicle(name), PORT);
DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
MapWrapper<String, String> strings =
new MapWrapper<String, String>(
dataStore,
"strings",
String.class,
String.class,
new LinkedHashMap<String, String>(),
16);
MapWrapper<Integer, Integer> ints =
new MapWrapper<Integer, Integer>(
dataStore,
"ints",
Integer.class,
Integer.class,
new LinkedHashMap<Integer, Integer>(),
16);
dataStore.start();
ints.clear();
strings.clear();
InProcessChronicleSink chronicle2 =
new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
MapWrapper<String, String> strings2 =
new MapWrapper<String, String>(
dataStore2,
"strings",
String.class,
String.class,
new LinkedHashMap<String, String>(),
16);
MapWrapper<Integer, Integer> ints2 =
new MapWrapper<Integer, Integer>(
dataStore2,
"ints",
Integer.class,
Integer.class,
new LinkedHashMap<Integer, Integer>(),
16);
final AtomicInteger sai = new AtomicInteger();
MapListener<String, String> stringsListener =
new AbstractMapListener<String, String>() {
@Override
public void update(String key, String oldValue, String newValue) {
// System.out.println(key + " " + oldValue + " => " + newValue);
sai.incrementAndGet();
}
};
strings2.addListener(stringsListener);
final AtomicInteger iai = new AtomicInteger();
MapListener<Integer, Integer> intsListener =
new AbstractMapListener<Integer, Integer>() {
@Override
public void update(Integer key, Integer oldValue, Integer newValue) {
// System.out.println(key + " " + oldValue + " => " + newValue);
iai.incrementAndGet();
}
};
ints2.addListener(intsListener);
dataStore2.start();
Map<String, String> ssMap = new LinkedHashMap<String, String>();
Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
int count = 2; // one clear per collection
int collectionSize = 2000;
for (int i = 0; i < collectionSize; i++) {
iiMap.put(i, i);
ssMap.put(Integer.toString(i), Integer.toString(i));
}
strings.putAll(ssMap);
ints.putAll(iiMap);
count += 2;
// int timeout = 0;
while (dataStore2.events() < count) {
// if (timeout++ % 10000 == 0)
// System.out.println(dataStore2.events());
dataStore2.nextEvent();
}
assertEquals(collectionSize, strings.size());
assertEquals(collectionSize, strings2.size());
assertEquals(collectionSize, ints.size());
assertEquals(collectionSize, ints2.size());
int gets = 0;
for (int j = 0; j < 50000; j++) {
for (String s : ssMap.keySet()) {
String s1 = strings.get(s);
String s2 = strings2.get(s);
if (s1 == null) assertNotNull(s1);
if (!s1.equals(s2)) assertEquals(s1, s2);
}
gets += ssMap.size();
for (Integer i : iiMap.keySet()) {
Integer i1 = ints.get(i);
Integer i2 = ints2.get(i);
if (i1 == null) assertNotNull(i1);
if (!i1.equals(i2)) assertEquals(i1, i2);
}
gets += iiMap.size();
}
chronicle.close();
chronicle2.close();
long end = System.nanoTime();
System.out.printf(
"Average get time including startup, bootstrap and shutdown, took %.3f us average per key%n",
(end - start) / gets / 1e3);
}
@Test
public void testOverTcpPutAllClear() throws IOException, InterruptedException {
String name = TMP + "/testOverTcpPutAllClear0";
String name2 = TMP + "/testOverTcpPutAllClear2";
ChronicleTools.deleteOnExit(name);
ChronicleTools.deleteOnExit(name2);
long start = System.nanoTime();
int PORT = 12345;
int size = 0;
InProcessChronicleSource chronicle =
new InProcessChronicleSource(new IndexedChronicle(name), PORT);
DataStore dataStore = new DataStore(chronicle, ModelMode.MASTER);
MapWrapper<String, String> strings =
new MapWrapper<String, String>(
dataStore,
"strings",
String.class,
String.class,
new LinkedHashMap<String, String>(),
16);
MapWrapper<Integer, Integer> ints =
new MapWrapper<Integer, Integer>(
dataStore,
"ints",
Integer.class,
Integer.class,
new LinkedHashMap<Integer, Integer>(),
16);
dataStore.start();
ints.clear();
strings.clear();
InProcessChronicleSink chronicle2 =
new InProcessChronicleSink(new IndexedChronicle(name2), "localhost", PORT);
DataStore dataStore2 = new DataStore(chronicle2, ModelMode.READ_ONLY);
MapWrapper<String, String> strings2 =
new MapWrapper<String, String>(
dataStore2,
"strings",
String.class,
String.class,
new LinkedHashMap<String, String>(),
16);
MapWrapper<Integer, Integer> ints2 =
new MapWrapper<Integer, Integer>(
dataStore2,
"ints",
Integer.class,
Integer.class,
new LinkedHashMap<Integer, Integer>(),
16);
final AtomicInteger sai = new AtomicInteger();
MapListener<String, String> stringsListener =
new AbstractMapListener<String, String>() {
@Override
public void update(String key, String oldValue, String newValue) {
// System.out.println(key + " " + oldValue + " => " + newValue);
sai.incrementAndGet();
}
};
strings2.addListener(stringsListener);
final AtomicInteger iai = new AtomicInteger();
MapListener<Integer, Integer> intsListener =
new AbstractMapListener<Integer, Integer>() {
@Override
public void update(Integer key, Integer oldValue, Integer newValue) {
// System.out.println(key + " " + oldValue + " => " + newValue);
iai.incrementAndGet();
}
};
ints2.addListener(intsListener);
dataStore2.start();
Map<String, String> ssMap = new LinkedHashMap<String, String>();
Map<Integer, Integer> iiMap = new LinkedHashMap<Integer, Integer>();
int count = 0;
int collectionSize = 2000;
for (int i = 0; i < collectionSize; i++) {
iiMap.put(i, i);
ssMap.put(Integer.toString(i), Integer.toString(i));
}
for (int j = 0; j < 2500; j++) {
strings.putAll(ssMap);
ints.putAll(iiMap);
strings.clear();
ints.clear();
count += 4;
}
long mid = System.nanoTime();
// int timeout = 0;
while (dataStore2.events() < count) {
// if (timeout++ % 10000 == 0)
// System.out.println(dataStore2.events());
dataStore2.nextEvent();
}
chronicle.close();
chronicle2.close();
long end = System.nanoTime();
System.out.printf(
"Startup and write took %.2f us on average (per key) and read and shutdown took %.2f on average (per key)%n",
(mid - start) / count / collectionSize / 1e3, (end - mid) / count / collectionSize / 1e3);
}