NED File showcases/visualizer/instrument/InstrumentShowcase.ned
Source code:
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see http://www.gnu.org/licenses/.
//
package inet.showcases.visualizer.instrument;
import inet.networklayer.configurator.ipv4.IPv4NetworkConfigurator;
import inet.node.inet.AdhocHost;
import inet.node.inet.WirelessHost;
import inet.physicallayer.ieee80211.packetlevel.Ieee80211ScalarRadioMedium;
import inet.visualizer.integrated.IntegratedVisualizer;
network InstrumentShowcase
{
@display("bgb=840,400");
@figure[throughputGauge](type=gauge; pos=190,30; size=100,100; minValue=0; maxValue=25; tickSize=5; label="Application level throughput [Mbps]");
@statistic[throughput](source=throughput(client.tcpApp[0].rcvdPk)/1000000; record=figure; targetFigure=throughputGauge);
@figure[bitrateLinearGauge](type=linearGauge; pos=385,108; size=250,30; minValue=0; maxValue=54; tickSize=6; label="Wifi bit rate [Mbps]");
@statistic[bitrate1](source=server.wlan[0].mac.dcf.rateControl.datarate/1000000; record=figure; targetFigure=bitrateLinearGauge);
@figure[progressMeter](type=progressMeter; pos=65,330; size=300,20; text="%.4g%%"; label="Download progress");
@statistic[progress](source=100 * sum(packetBytes(client.tcpApp[0].rcvdPk)) / 1048576; record=figure; targetFigure=progressMeter);
@figure[numRcvdPkCounter](type=counter; pos=413,327; label="Packets received"; decimalPlaces=4);
@statistic[numRcvdPk](source=count(client.tcpApp[0].rcvdPk); record=figure; targetFigure=numRcvdPkCounter);
@figure[perThermometer](type=thermometer; pos=710,45; size=30,180; minValue=0; maxValue=1; tickSize=0.2; label="Packet error rate");
@statistic[per1](source=client.wlan[0].radio.packetErrorRate; record=figure; targetFigure=perThermometer);
@figure[ctnIndexedImage](type=indexedImage; pos=570,338; size=32,32; images=misc/idle,misc/listen,misc/clock; label="contention state"; labelOffset=0,25; interpolation=best);
@statistic[ctn](source=server.wlan[0].mac.dcf.channelAccess.contention.stateChanged; record=figure; targetFigure=ctnIndexedImage); // note: indexedImage takes the value modulo the number of images
@figure[perPlot](type=plot; pos=647,260; size=150,90; timeWindow=3; maxValue=1; valueTickSize=1; label="Packet Error Rate");
@statistic[per2](source=client.wlan[0].radio.packetErrorRate; record=figure; targetFigure=perPlot);
@figure[bitratePlot](type=plot; pos=385,25; size=250,40; timeWindow=3; maxValue=55; valueTickSize=54; label="Wifi bit rate [Mbps]"; numberSizeFactor=2.5);
@statistic[bitrate2](source=server.wlan[0].mac.dcf.rateControl.datarate/1000000; record=figure; targetFigure=bitratePlot);
submodules:
configurator: IPv4NetworkConfigurator {
@display("p=62,41");
}
radioMedium: Ieee80211ScalarRadioMedium {
@display("p=61,110");
}
visualizer: IntegratedVisualizer {
@display("p=62,170");
}
client: AdhocHost {
@display("p=300,250");
}
server: WirelessHost {
@display("p=250,250");
}
}