statistics extraction public, to be accessible from other plugins and test scripts

This commit is contained in:
fros4943 2010-01-15 10:51:20 +00:00
parent e16107b053
commit d3f367ff58

View file

@ -26,7 +26,7 @@
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $Id: TimeLine.java,v 1.22 2010/01/12 09:11:26 fros4943 Exp $
* $Id: TimeLine.java,v 1.23 2010/01/15 10:51:20 fros4943 Exp $
*/
package se.sics.cooja.plugins;
@ -543,126 +543,132 @@ public class TimeLine extends VisPlugin {
if (simulation.isRunning()) {
simulation.stopSimulation();
}
/* Process all events (per mote basis) */
ArrayList<MoteStatistics> allStats = new ArrayList<MoteStatistics>();
for (MoteEvents moteEvents: allMoteEvents) {
MoteStatistics stats = new MoteStatistics();
allStats.add(stats);
stats.mote = moteEvents.mote;
for (MoteEvent ev: moteEvents.ledEvents) {
if (!(ev instanceof LEDEvent)) continue;
LEDEvent ledEvent = (LEDEvent) ev;
/* Red */
if (ledEvent.red) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeRedLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeRedLED += (ledEvent.next.time - ledEvent.time);
}
}
/* Green */
if (ledEvent.green) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeGreenLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeGreenLED += (ledEvent.next.time - ledEvent.time);
}
}
/* Blue */
if (ledEvent.blue) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeBlueLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeBlueLED += (ledEvent.next.time - ledEvent.time);
}
}
}
for (MoteEvent ev: moteEvents.logEvents) {
if (!(ev instanceof LogEvent)) continue;
stats.nrLogs++;
}
/* TODO Radio channels */
for (MoteEvent ev: moteEvents.radioHWEvents) {
if (!(ev instanceof RadioHWEvent)) continue;
RadioHWEvent hwEvent = (RadioHWEvent) ev;
if (hwEvent.on) {
/* HW is on */
if (hwEvent.next == null) {
stats.radioOn += (simulation.getSimulationTime() - hwEvent.time);
} else {
stats.radioOn += (hwEvent.next.time - hwEvent.time);
}
}
}
for (MoteEvent ev: moteEvents.radioRXTXEvents) {
if (!(ev instanceof RadioRXTXEvent)) continue;
RadioRXTXEvent rxtxEvent = (RadioRXTXEvent) ev;
if (rxtxEvent.state == RXTXRadioEvent.IDLE) {
continue;
}
long diff;
if (rxtxEvent.next == null) {
diff = (simulation.getSimulationTime() - rxtxEvent.time);
} else {
diff = (rxtxEvent.next.time - rxtxEvent.time);
}
if (rxtxEvent.state == RXTXRadioEvent.TRANSMITTING) {
stats.onTimeTX += diff;
continue;
}
if (rxtxEvent.state == RXTXRadioEvent.INTERFERED) {
stats.onTimeInterfered += diff;
continue;
}
if (rxtxEvent.state == RXTXRadioEvent.RECEIVING) {
stats.onTimeRX += diff;
continue;
}
}
/* TODO Watchpoints */
logger.info(stats.toString());
}
/* Summary */
MoteStatistics all = new MoteStatistics();
for (MoteStatistics stats: allStats) {
all.onTimeRedLED += stats.onTimeRedLED;
all.onTimeGreenLED += stats.onTimeGreenLED;
all.onTimeBlueLED += stats.onTimeBlueLED;
all.radioOn += stats.radioOn;
all.onTimeRX += stats.onTimeRX;
all.onTimeTX += stats.onTimeTX;
all.onTimeInterfered += stats.onTimeInterfered;
}
all.onTimeBlueLED /= allStats.size();
all.onTimeGreenLED /= allStats.size();
all.onTimeBlueLED /= allStats.size();
all.radioOn /= allStats.size();
all.onTimeRX /= allStats.size();
all.onTimeTX /= allStats.size();
all.onTimeInterfered /= allStats.size();
logger.info("SIMULATION AVERAGE:");
logger.info(all.toString());
logger.info(extractStatistics());
}
};
public synchronized String extractStatistics() {
StringBuilder output = new StringBuilder();
/* Process all events (per mote basis) */
ArrayList<MoteStatistics> allStats = new ArrayList<MoteStatistics>();
for (MoteEvents moteEvents: allMoteEvents) {
MoteStatistics stats = new MoteStatistics();
allStats.add(stats);
stats.mote = moteEvents.mote;
for (MoteEvent ev: moteEvents.ledEvents) {
if (!(ev instanceof LEDEvent)) continue;
LEDEvent ledEvent = (LEDEvent) ev;
/* Red */
if (ledEvent.red) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeRedLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeRedLED += (ledEvent.next.time - ledEvent.time);
}
}
/* Green */
if (ledEvent.green) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeGreenLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeGreenLED += (ledEvent.next.time - ledEvent.time);
}
}
/* Blue */
if (ledEvent.blue) {
/* LED is on, add time interval */
if (ledEvent.next == null) {
stats.onTimeBlueLED += (simulation.getSimulationTime() - ledEvent.time);
} else {
stats.onTimeBlueLED += (ledEvent.next.time - ledEvent.time);
}
}
}
for (MoteEvent ev: moteEvents.logEvents) {
if (!(ev instanceof LogEvent)) continue;
stats.nrLogs++;
}
/* TODO Radio channels */
for (MoteEvent ev: moteEvents.radioHWEvents) {
if (!(ev instanceof RadioHWEvent)) continue;
RadioHWEvent hwEvent = (RadioHWEvent) ev;
if (hwEvent.on) {
/* HW is on */
if (hwEvent.next == null) {
stats.radioOn += (simulation.getSimulationTime() - hwEvent.time);
} else {
stats.radioOn += (hwEvent.next.time - hwEvent.time);
}
}
}
for (MoteEvent ev: moteEvents.radioRXTXEvents) {
if (!(ev instanceof RadioRXTXEvent)) continue;
RadioRXTXEvent rxtxEvent = (RadioRXTXEvent) ev;
if (rxtxEvent.state == RXTXRadioEvent.IDLE) {
continue;
}
long diff;
if (rxtxEvent.next == null) {
diff = (simulation.getSimulationTime() - rxtxEvent.time);
} else {
diff = (rxtxEvent.next.time - rxtxEvent.time);
}
if (rxtxEvent.state == RXTXRadioEvent.TRANSMITTING) {
stats.onTimeTX += diff;
continue;
}
if (rxtxEvent.state == RXTXRadioEvent.INTERFERED) {
stats.onTimeInterfered += diff;
continue;
}
if (rxtxEvent.state == RXTXRadioEvent.RECEIVING) {
stats.onTimeRX += diff;
continue;
}
}
/* TODO Watchpoints */
output.append(stats.toString());
}
/* Summary */
MoteStatistics all = new MoteStatistics();
for (MoteStatistics stats: allStats) {
all.onTimeRedLED += stats.onTimeRedLED;
all.onTimeGreenLED += stats.onTimeGreenLED;
all.onTimeBlueLED += stats.onTimeBlueLED;
all.radioOn += stats.radioOn;
all.onTimeRX += stats.onTimeRX;
all.onTimeTX += stats.onTimeTX;
all.onTimeInterfered += stats.onTimeInterfered;
}
all.onTimeBlueLED /= allStats.size();
all.onTimeGreenLED /= allStats.size();
all.onTimeBlueLED /= allStats.size();
all.radioOn /= allStats.size();
all.onTimeRX /= allStats.size();
all.onTimeTX /= allStats.size();
all.onTimeInterfered /= allStats.size();
output.append("SIMULATION AVERAGE:");
output.append(all.toString());
return output.toString();
}
public void trySelectTime(final long time) {
java.awt.EventQueue.invokeLater(new Runnable() {
public void run() {