Pls fix.

2023-03-16 18:14:54 +01:00
parent 61e99e6e83
commit c463195a25
1 changed files with 36 additions and 55 deletions
--- a/plot_single_transmission.py
+++ b/plot_single_transmission.py
@@ -13,7 +13,7 @@ if __name__ == "__main__":
    parser = ArgumentParser()
    parser.add_argument("-s", "--serial_file", required=True, help="Serial csv file.")
    parser.add_argument("-p", "--pcap_csv_folder", required=True, help="PCAP csv folder.")
-    parser.add_argument("--save", default=None, help="Location to save pdf file.")
+    parser.add_argument("--save", required=True, help="Location to save pdf file.")
    parser.add_argument(
        "-i",
        "--interval",
@@ -23,12 +23,7 @@ if __name__ == "__main__":
    )
    args = parser.parse_args()
    manager = multiprocessing.Manager()
    n = manager.Value("i", 0)
    frame_list = manager.list()
    jobs = []
    # load all pcap csv into one dataframe
    pcap_csv_list = list()
    for filename in os.listdir(args.pcap_csv_folder):
        if filename.endswith(".csv") and "tcp" in filename:
@@ -90,65 +85,37 @@ if __name__ == "__main__":
            right_index=True,
            left_index=True,
        )
        transmission_df = transmission_df.rename(columns={"PCID": "lte_pcid", "PCID.1": "nr_pcid"})
        # transmission timeline
        scaley = 1.5
        scalex = 1.0
-        ax0 = plt.subplot(211)
+        plt.title("{} with {}".format(transmission_direction, cc_algo))
        fig, ax = plt.subplots(2, 1, figsize=[6.4 * scaley, 4.8 * scalex])
        fig.subplots_adjust(right=0.75)
        ax0 = ax[0]
        ax1 = ax0.twinx()
        ax2 = ax0.twinx()
        ax2.spines.right.set_position(("axes", 3))
-        ax00 = plt.subplot(212)
+        ax00 = ax[1]
        ax01 = ax00.twinx()
-        plt.title("{} with {}".format(transmission_direction, cc_algo))
+        transmission_df["lte_handovers"] = transmission_df["lte_pcid"].diff()
        # create list fo color indices for lte cells
        color_dict = dict()
        color_list = list()
        i = 0
        for cell_id in transmission_df["PCID"]:
            if cell_id not in color_dict:
                color_dict[cell_id] = i
                i += 1
            color_list.append(color_dict[cell_id])
-        transmission_df["lte_cell_color"] = color_list
+        lte_handovers = transmission_df[transmission_df.lte_pcid.diff() != 0].index.values
-        color_dict = None
+        nr_handovers = transmission_df[transmission_df.nr_pcid.diff() != 0].index.values
        color_list = None
-        cmap = matplotlib.cm.get_cmap("Set3")
+        print(transmission_df["lte_handovers"])
-        unique_cells = transmission_df["lte_cell_color"].unique()
+        print(len(transmission_df["lte_handovers"]))
-        color_list = cmap.colors * (round(len(unique_cells) / len(cmap.colors)) + 1)
+        continue
-        transmission_df["index"] = transmission_df.index
+        # Plot vertical lines
-        for c in transmission_df["lte_cell_color"].unique():
+        for item in lte_handovers[1::]:
-            bounds = transmission_df[["index", "lte_cell_color"]].groupby("lte_cell_color").agg(["min", "max"]).loc[
+            ax00.axvline(item, ymin=0, ymax=1, color='red')
-                c]
+        for item in nr_handovers[1::]:
-            ax0.axvspan(bounds.min(), bounds.max(), alpha=0.1, color=color_list[c])
+            ax00.axvline(item, ymin=0, ymax=1, color='red')
        # create list fo color indices for nr cells
        color_dict = dict()
        color_list = list()
        i = 0
        for cell_id in transmission_df["PCID.1"]:
            if cell_id not in color_dict:
                color_dict[cell_id] = i
                i += 1
            color_list.append(color_dict[cell_id])
        transmission_df["nr_cell_color"] = color_list
        color_dict = None
        color_list = None
        cmap = matplotlib.cm.get_cmap("Set3")
        unique_cells = transmission_df["nr_cell_color"].unique()
        color_list = cmap.colors * (round(len(unique_cells) / len(cmap.colors)) + 1)
        for c in transmission_df["nr_cell_color"].unique():
            bounds = transmission_df[["index", "nr_cell_color"]].groupby("nr_cell_color").agg(["min", "max"]).loc[c]
            ax00.axvspan(bounds.min(), bounds.max(), alpha=0.1, color=color_list[c])
        ax0.plot(transmission_df["snd_cwnd"].dropna(), color="lime", linestyle="dashed", label="cwnd")
        ax1.plot(transmission_df["srtt"].dropna(), color="red", linestyle="dashdot", label="sRTT")
@@ -156,8 +123,22 @@ if __name__ == "__main__":
        ax00.plot(transmission_df["downlink_cqi"].dropna(), color="magenta", linestyle="dotted", label="CQI")
        ax01.plot(transmission_df["DL_bandwidth"].dropna(), color="peru", linestyle="dotted", label="DL_bandwidth")
-        if args.save:
+        ax2.spines.right.set_position(("axes", 1.1))
-            plt.savefig("{}{}_plot.pdf".format(args.save, csv.replace(".csv", "")))
+
        ax0.set_ylim(0, 5000)
        ax1.set_ylim(0, 0.3)
        ax2.set_ylim(0, 500)
        ax00.set_ylim(0, 16)
        ax01.set_ylim(0, 21)
        ax00.set_xlabel("arrival time")
        ax2.set_ylabel("Goodput [mbps]")
        ax00.set_ylabel("CQI")
        ax1.set_ylabel("sRTT [s]")
        ax0.set_ylabel("cwnd")
        ax01.set_ylabel("Bandwidth [MHz]")
        plt.savefig("{}{}_plot.pdf".format(args.save, csv.replace(".csv", "")))
        #except Exception as e:
        #    print("Error processing file: {}".format(csv))
        #    print(str(e))