2 年前 · 29590640ef
--- a/plot_transmission_timeline.py
+++ b/plot_transmission_timeline.py
@@ -144,6 +144,9 @@ if __name__ == "__main__":

    #print(transmission_df)

    # srtt to [s]
    transmission_df["srtt"] = transmission_df["srtt"].apply(lambda x: x / 10 ** 6)

    # key for columns and level for index
    transmission_df["goodput"] = transmission_df["payload_size"].groupby(pd.Grouper(level="datetime", freq="{}s".format(args.interval))).transform("sum")
    transmission_df["goodput"] = transmission_df["goodput"].apply(
@@ -217,7 +220,7 @@ if __name__ == "__main__":

    p1, = ax.plot(transmission_df["goodput_rolling"], "-", color="blue", label="goodput")
    p2, = twin1.plot(transmission_df["downlink_cqi"], "--", color="green", label="CQI")
    p3, = twin2.plot(transmission_df["ack_rtt"], "-.", color="red", label="ACK RTT")
    p3, = twin2.plot(transmission_df["srtt"], "-.", color="red", label="sRTT")

    ax.set_xlim(transmission_df["index"].min(), transmission_df["index"].max())
    ax.set_ylim(0, 500)
@@ -227,7 +230,7 @@ if __name__ == "__main__":
    ax.set_xlabel("Time")
    ax.set_ylabel("Goodput")
    twin1.set_ylabel("CQI")
    twin2.set_ylabel("ACK RTT")
    twin2.set_ylabel("sRTT")

    ax.yaxis.label.set_color(p1.get_color())
    twin1.yaxis.label.set_color(p2.get_color())
@@ -264,16 +267,15 @@ if __name__ == "__main__":
    # rtt cdf
    plt.clf()

    print(transmission_df["ack_rtt"])
    print("Calculate and polt rtt CDF...")
    plot_cdf(transmission_df, "ack_rtt")
    plt.xlabel("ACK RTT [s]")
    plot_cdf(transmission_df, "srtt")
    plt.xlabel("sRTT [s]")
    plt.ylabel("CDF")
    plt.xscale("log")
    plt.legend([cc_algo])
    plt.title("{} with {}".format(transmission_direction, cc_algo))

    if args.save:
        plt.savefig("{}{}_cdf_plot.pdf".format(args.save, "ack_rtt"))
        plt.savefig("{}{}_cdf_plot.pdf".format(args.save, "srtt"))
    else:
        plt.show()