vor 3 Jahren · e3d3c755a4
--- a/analyse_udp.py
+++ b/analyse_udp.py
@@ -3,17 +3,19 @@ import os
 from argparse import ArgumentParser
 from datetime import datetime

 import matplotlib
 import pandas as pd
 import matplotlib.pyplot as plt

 matplotlib.use('TkAgg')


 def plot_packet_arrivals(csv_file):
    direction = "uplink" if "uplink" in csv_file else "downlink"
 def plot_single_transmission(csv_file):
    global direction
    if direction is None:
        direction = "uplink" if "uplink" in csv_file else "downlink"
    bitrate = csv_file.split("bitrate")[1].split("_")[0]
    transmission_df = pd.read_csv(csv_file)
    if len(transmission_df) == 0:
        print("Empty csv.")
        return
    transmission_df["departure_time"] = transmission_df["departure_time"] - transmission_df["departure_time"].iloc[0]
    transmission_df["arrival_time"] = transmission_df["arrival_time"] - transmission_df["arrival_time"].iloc[0]

@@ -28,10 +30,6 @@ def plot_packet_arrivals(csv_file):

    print("Packetloss: {}%".format((len(lossed_packets.departure_time) / len(transmission_df.departure_time)) * 100 ))



    #axes = transmission_df.plot(x="arrival_time", y="data.len_received_cum")

    fig, all_axes = plt.subplots(2, 1)
    fig.suptitle("CBR {} {}".format(bitrate, direction))
    fig.subplots_adjust(hspace=0.3)
@@ -41,7 +39,6 @@ def plot_packet_arrivals(csv_file):
    transmission_df.plot(ax=axes, x="departure_time", y="data.len_send_cum")
    transmission_df.plot(ax=axes, x="arrival_time", y="data.len_received_cum")
    lossed_packets.plot.scatter(ax=axes, x="departure_time", y="data.len_send_cum", color="y", marker="X")
    #axes = transmission_df.boxplot(column="delay")

    axes.legend(["D(t)", "A(t)"])
    axes.set_ylabel("Byte")
@@ -49,15 +46,19 @@ def plot_packet_arrivals(csv_file):

    delay_axes = axes.twinx()
    delay_axes.set_ylabel("delay [s]")
    delay_axes.set_ylim([0, 0.4])
    transmission_df.plot(ax=delay_axes, x="arrival_time", y="delay", color="g", linestyle="dotted")

    transmission_df.boxplot(ax=axes_boxplot, column="delay", vert=False)
    axes_boxplot.set_xlabel("[s]")

    #fig = axes.get_figure()
    #fig.suptitle("CBR {} {}".format(bitrate, direction))
    #fig.show()
    fig.savefig(csv_file.replace(".csv", ".pdf"))
    plt.close("all")

    global all_delays_dict
    if bitrate not in all_delays_dict:
        all_delays_dict[bitrate] = list()
    all_delays_dict[bitrate] += transmission_df["delay"].tolist()


 if __name__ == "__main__":
@@ -82,6 +83,8 @@ if __name__ == "__main__":
    args = parser.parse_args()

    csv_list = list()
    all_delays_dict = dict()
    direction = None

    if args.use_subdirs:
        sub_dirs = os.listdir(args.folder)
@@ -96,5 +99,29 @@ if __name__ == "__main__":
            if filename.endswith(".csv") and args.name_contains in filename:
                csv_list.append(filename)

    csv_list.sort()
    for csv in csv_list:
        plot_packet_arrivals("{}/{}".format(args.folder, csv))
        print(csv)
        plot_single_transmission("{}/{}".format(args.folder, csv))

    if len(all_delays_dict) > 0:
        fig, axes = plt.subplots()
        label_list = list()
        unit = None
        datas = list()
        for bitrate, l in all_delays_dict.items():
            if unit is None:
                if "K" in bitrate:
                    unit = "Kbit/s"
                elif "M" in bitrate:
                    unit = "Mbit/s"
                else:
                    unit = "Gbit/s"
            label_list.append(bitrate.replace("K", "").replace("M", "").replace("G", ""))
            datas.append(l)
        axes.boxplot(datas)
        #axes.set_xticklabels(label_list)
        axes.set_xlabel("cbr bitrate [{}]".format(unit))
        axes.set_ylabel("delay [s]")
        fig.suptitle("CBR {}".format(direction))
        fig.savefig("{}/all_delays_{}_boxplot.pdf".format(args.folder, direction))