private static void runClojure(Integer[] data) {
out.println("Clojure PersistentHashMap");
clojure.lang.PersistentHashMap cmap = clojure.lang.PersistentHashMap.EMPTY;
// warmup
for (Integer v : data) {
cmap = (clojure.lang.PersistentHashMap) cmap.assoc(v, v);
}
cmap = null;
System.gc();
long begin = System.nanoTime();
for (int i = 1; i <= data.length; i++) {
start();
cmap = clojure.lang.PersistentHashMap.EMPTY;
for (int j = 0; j < i; j++) {
cmap = (clojure.lang.PersistentHashMap) cmap.assoc(data[j], data[j]);
}
for (int j = 0; j < i; j++) {
cmap = (clojure.lang.PersistentHashMap) cmap.without(data[j]);
}
out.println(end());
}
out.println(String.format("\n%s", System.nanoTime() - begin));
}
@Internal
public static DoubleVector gc(boolean verbose, boolean reset) {
try {
java.lang.System.gc();
} catch (Exception e) {
}
return new DoubleArrayVector();
}
// Static main program for executing a test of the class.
public static void main(String args[]) {
// Define int variables.
int width = 0;
int height = 0;
// If arguments are greater than zero.
if (args.length > 0) {
// If arguments are two.
if (args.length >= 2) {
// Use try block to parse for an integer.
try {
// Verify first argument is an integer.
width = Integer.parseInt(args[0]);
height = Integer.parseInt(args[1]);
// Define a default instance of JMessagingFrame.
JMessagingFrame f = new JMessagingFrame(width, height);
} // Catch parsing failure exception.
catch (NumberFormatException e) {
// Print default runtime message.
System.out.println("If you are testing the override constructor,");
System.out.println("then you need to provide two integer values.");
} // End try-catch block on integer parse.
} // End of if two arguments provided.
else // When there are less than or more than two arguments.
{
// Print default runtime message.
System.out.println("If you are testing the override constructor,");
System.out.println("then you need to provide two integer values.");
} // End of else when there are less than or more than two arguments.
} // End of else when there are two arguments.
else // No arguments provided.
{
// Define a default instance of JMessagingFrame.
JMessagingFrame f = new JMessagingFrame();
// Clean-up by signaling the garbage collector.
System.gc();
} // End of else when no arguments are provided.
} // End of static main.
@Scheduled(fixedDelay = SCHEDULED_CHECK)
public void checkActiveClients() {
Set<String> users = user_vidNameMap.keySet();
Iterator<String> it = users.iterator();
long time = System.currentTimeMillis();
int count = 0;
while (it.hasNext()) {
count++;
String user = it.next();
if (user == null) continue;
if (userAliveMap.containsKey(user)) {
if (userAliveMap.get(user).longValue() < time) {
removeUser(user);
userAliveMap.remove(user);
}
} else {
throw new RuntimeException("user in user-vid map but not in user-alive map");
}
}
// System.out.println("Debug: Scheduled Check count:"+count+" user
// count:"+user_vidNameMap.size());
System.gc();
}
private static void runJaversion(Integer[] data) {
out.println("Javersion PersistentHashMap");
PersistentHashMap<Integer, Integer> jmap = PersistentHashMap.empty();
// warmup
for (Integer v : data) {
jmap = jmap.assoc(v, v);
}
jmap = null;
System.gc();
long begin = System.nanoTime();
for (int i = 1; i <= data.length; i++) {
start();
jmap = PersistentHashMap.empty();
for (int j = 0; j < i; j++) {
jmap = jmap.assoc(data[j], data[j]);
}
for (int j = 0; j < i; j++) {
jmap = jmap.dissoc(data[j]);
}
out.println(end());
}
out.println(String.format("\n%s", System.nanoTime() - begin));
}
public static void begin() {
System.gc();
start = JVM.monotonicTimeMillis();
}
public SampleResult runTest(JavaSamplerContext runTestContext) {
String indexFileSystemPath = runTestContext.getParameter("indexfilesystem.path");
String timeStamp =
new SimpleDateFormat("yyyy/MM/dd HH:mm:ss").format(Calendar.getInstance().getTime());
resultObj.put("Date and Execution Time", timeStamp);
resultObj.put("Execution Plan", "Sequential Performance of Indexes FS");
try {
resultObj.put("Host", InetAddress.getLocalHost().getHostAddress());
} catch (UnknownHostException e) {
e.printStackTrace();
}
SampleResult result = new SampleResult();
try {
result.sampleStart();
preallocateTestFile(FILE_NAME);
for (final PerfTestCase testCase : testCases) {
JSONArray readDuration = new JSONArray();
JSONArray bytesRead = new JSONArray();
JSONArray bytesWrite = new JSONArray();
for (int i = 0; i < 5; i++) {
System.gc();
long writeDurationMs = testCase.test(PerfTestCase.Type.WRITE, FILE_NAME);
System.gc();
long readDurationMs = testCase.test(PerfTestCase.Type.READ, FILE_NAME);
long bytesReadPerSec = (FILE_SIZE * 1000L) / readDurationMs;
long bytesWrittenPerSec = (FILE_SIZE * 1000L) / writeDurationMs;
readDuration.add(readDurationMs);
bytesRead.add(bytesReadPerSec);
bytesWrite.add(bytesWrittenPerSec);
out.format(
"%s\twrite=%,d\tread=%,d bytes/sec\n",
testCase.getName(), bytesWrittenPerSec, bytesReadPerSec);
String output =
out.format(
"%s\twrite=%,d\tread=%,d bytes/sec\n",
testCase.getName(), bytesWrittenPerSec, bytesReadPerSec)
.toString();
result.setSamplerData(testCase.getName() + "-- IO RESULTS --- " + output);
// resultIo.setSamplerData(testCase.getName() + "-- Writen Bytes per second:" +
// bytesWrittenPerSec + "-- Read Bytes per second:" + bytesReadPerSec);
result.addSubResult(result);
}
resultObj.put(testCase.getName(), readDuration);
resultObj.put(testCase.getName(), bytesRead);
resultObj.put(testCase.getName(), bytesWrite);
}
deleteFile(indexFileSystemPath + "/" + FILE_NAME);
try {
FileWriter file = new FileWriter(resultsDirectory + "/" + OUTPUT_JSON_FILE_NAME);
file.write(resultObj.toJSONString());
file.flush();
file.close();
} catch (IOException e) {
e.printStackTrace();
}
result.sampleEnd();
result.setSuccessful(true);
logger.info("Successfully Tested Index Disk IO at path: " + indexFileSystemPath);
result.setResponseMessage("Successfully Tested IO at Indexes Disk");
result.setResponseCodeOK();
} catch (Exception e) {
result.sampleEnd();
result.setSuccessful(false);
result.setResponseMessage("Failed to TestIO: " + e);
StringWriter stringWriter = new StringWriter();
e.printStackTrace(new PrintWriter(stringWriter));
result.setResponseData(stringWriter.toString().getBytes());
result.setDataType(SampleResult.TEXT);
result.setResponseCode("500");
}
return result;
}
// create a new profile: read the script and possibly execute the queries,
// save the stats (if 'import' == true, we assume the profile already exists
// and don't run the queries)
public void createWkld(String name, String scriptFile, boolean runQueries) {
System.gc();
Workload wkld = new Workload(name);
if (showCmdsItem.getState()) {
consoleFrame.echoCmd((!runQueries ? "importprof " : "newwkld ") + name + " " + scriptFile);
}
// construct the Workload object from the script;
// first, check if the file exists
try {
FileReader reader = new FileReader(scriptFile);
reader.close();
} catch (FileNotFoundException e) {
System.out.println("couldn't open " + scriptFile);
return;
} catch (IOException e) {
System.out.println("couldn't close " + scriptFile);
}
// now, check if it contains only queries
int scriptId = 0;
try {
scriptId = Libgist.openScript(scriptFile);
} catch (LibgistException e) {
System.out.println("couldn't open (C) " + scriptFile);
return;
}
char[] arg1 = new char[64 * 1024];
StringBuffer arg1Buf = new StringBuffer();
char[] arg2 = new char[64 * 1024];
StringBuffer arg2Buf = new StringBuffer();
// for (;;) {
// int cmd = Libgist.getCommand(scriptId, arg1, arg2);
// if (cmd == Libgist.EOF) break;
// if (cmd != Libgist.FETCH) {
// there should only be queries
// System.out.println("Script file contains non-SELECT command");
// return;
// }
// }
if (runQueries) {
// turn profiling on and execute queries
// Libgist.setProfilingEnabled(true);
Libgist.disableBps(true); // we don't want to stop at breakpoints
// rescan queries
try {
scriptId = Libgist.openScript(scriptFile);
} catch (LibgistException e) {
System.out.println("couldn't open (C) " + scriptFile);
return;
}
int cnt = 1;
// for (;;) {
// int cmd = Libgist.getCommand(scriptId, arg1, arg2);
// if (cmd == Libgist.EOF) break;
// arg1Buf.setLength(0);
// arg1Buf.append(arg1, 0, strlen(arg1));
// arg2Buf.setLength(0);
// arg2Buf.append(arg2, 0, strlen(arg2));
// OpThread.execCmd(LibgistCommand.FETCH, arg1Buf.toString(),
// arg2Buf.toString(), false);
// System.out.print(cnt + " ");
// System.out.println(cnt + ": execute " + arg2Buf.toString() + " "
// + arg1Buf.toString());
// cnt++;
// }
System.out.println();
Libgist.disableBps(false);
// compute optimal clustering and some more statistics
// Libgist.computeMetrics(wkld.filename);
}
// save profile
try {
// we're saving Java and C++ data in separate files (filename and filename.prof)
// the profile object only contains the filename, the queries will be
// read in from the file when the profile is opened (faster that way)
ObjectOutputStream out = new ObjectOutputStream(new FileOutputStream(wkld.filename));
out.writeObject(wkld);
out.close();
System.out.println("copy query file");
Runtime.getRuntime().exec("cp " + scriptFile + " " + wkld.filename + ".queries");
System.out.println("saving tree and profile");
Libgist.saveToFile(wkld.filename + ".idx");
if (runQueries) {
// Libgist.saveProfile(wkld.filename + ".prof");
}
} catch (Exception e) {
System.out.println("Error saving profile: " + e);
return;
}
if (runQueries) {
// turn profiling off (after the metrics were computed and
// the profile saved)
// Libgist.setProfilingEnabled(false);
}
}
