diff options
| author |   Tibor Frank <tifrank@cisco.com> | 2019-04-25 12:58:43 +0200 |
|---|---|---|
| committer | Tibor Frank <tifrank@cisco.com> | 2019-05-06 11:21:47 +0000 |
| commit | 1f47e6144f553c7fb510c93a5b14b1b4d6c4648a (patch) | |
| tree | 2f31ebdda7cb3c0439545060a0b89ffa2a5abff9 /resources/tools/presentation/generator_plots.py | |
| parent | e001fdea995835f1ef75a5e21607ba02d78e4068 (diff) | |
CSIT-1492: Add new NF density tests to report
Change-Id: Ifdfac80f7fd25124cb08a467329d6c8c525ffc06
Signed-off-by: Tibor Frank <tifrank@cisco.com>
Diffstat (limited to 'resources/tools/presentation/generator_plots.py')
| -rw-r--r-- | resources/tools/presentation/generator_plots.py | 420 |
1 files changed, 420 insertions, 0 deletions
diff --git a/resources/tools/presentation/generator_plots.py b/resources/tools/presentation/generator_plots.py index d77ac7bab5..113e435496 100644 --- a/resources/tools/presentation/generator_plots.py +++ b/resources/tools/presentation/generator_plots.py @@ -1352,3 +1352,423 @@ def plot_service_density_heatmap(plot, input_data): logging.error(" Finished with error: {}". format(str(err).replace("\n", " "))) return + + +def plot_service_density_heatmap_compare(plot, input_data): + """Generate the plot(s) with algorithm: plot_service_density_heatmap_compare + specified in the specification file. + + :param plot: Plot to generate. + :param input_data: Data to process. + :type plot: pandas.Series + :type input_data: InputData + """ + + REGEX_CN = re.compile(r'^(\d*)R(\d*)C$') + REGEX_TEST_NAME = re.compile(r'^.*-(\d+ch|\d+pl)-' + r'(\d+vh|\d+mif)-' + r'(\d+vm|\d+dcr).*$') + REGEX_THREADS = re.compile(r'^(\d+)(VM|DCR)(\d+)T$') + + txt_chains = list() + txt_nodes = list() + vals = dict() + + # Transform the data + logging.info(" Creating the data set for the {0} '{1}'.". + format(plot.get("type", ""), plot.get("title", ""))) + data = input_data.filter_data(plot, continue_on_error=True) + if data is None or data.empty: + logging.error("No data.") + return + + for job in data: + for build in job: + for test in build: + for tag in test['tags']: + groups = re.search(REGEX_CN, tag) + if groups: + c = str(groups.group(1)) + n = str(groups.group(2)) + break + else: + continue + groups = re.search(REGEX_TEST_NAME, test["name"]) + if groups and len(groups.groups()) == 3: + hover_name = "{chain}-{vhost}-{vm}".format( + chain=str(groups.group(1)), + vhost=str(groups.group(2)), + vm=str(groups.group(3))) + else: + hover_name = "" + if vals.get(c, None) is None: + vals[c] = dict() + if vals[c].get(n, None) is None: + vals[c][n] = dict(name=hover_name, + vals_r=list(), + vals_c=list(), + nr_r=None, + nr_c=None, + mean_r=None, + mean_c=None, + stdev_r=None, + stdev_c=None) + try: + if plot["include-tests"] == "MRR": + result = test["result"]["receive-rate"].avg + elif plot["include-tests"] == "PDR": + result = test["throughput"]["PDR"]["LOWER"] + elif plot["include-tests"] == "NDR": + result = test["throughput"]["NDR"]["LOWER"] + else: + result = None + except TypeError: + result = None + + if result: + for tag in test['tags']: + groups = re.search(REGEX_THREADS, tag) + if groups and len(groups.groups()) == 3: + if str(groups.group(3)) == \ + plot["reference"]["include"]: + vals[c][n]["vals_c"].append(result) + elif str(groups.group(3)) == \ + plot["compare"]["include"]: + vals[c][n]["vals_r"].append(result) + break + if not vals: + logging.error("No data.") + return + + for key_c in vals.keys(): + txt_chains.append(key_c) + for key_n in vals[key_c].keys(): + txt_nodes.append(key_n) + if vals[key_c][key_n]["vals_r"]: + vals[key_c][key_n]["nr_r"] = len(vals[key_c][key_n]["vals_r"]) + vals[key_c][key_n]["mean_r"] = \ + round(mean(vals[key_c][key_n]["vals_r"]) / 1000000, 1) + vals[key_c][key_n]["stdev_r"] = \ + round(stdev(vals[key_c][key_n]["vals_r"]) / 1000000, 1) + if vals[key_c][key_n]["vals_c"]: + vals[key_c][key_n]["nr_c"] = len(vals[key_c][key_n]["vals_c"]) + vals[key_c][key_n]["mean_c"] = \ + round(mean(vals[key_c][key_n]["vals_c"]) / 1000000, 1) + vals[key_c][key_n]["stdev_c"] = \ + round(stdev(vals[key_c][key_n]["vals_c"]) / 1000000, 1) + + txt_nodes = list(set(txt_nodes)) + + txt_chains = sorted(txt_chains, key=lambda chain: int(chain)) + txt_nodes = sorted(txt_nodes, key=lambda node: int(node)) + + chains = [i + 1 for i in range(len(txt_chains))] + nodes = [i + 1 for i in range(len(txt_nodes))] + + data_r = [list() for _ in range(len(chains))] + data_c = [list() for _ in range(len(chains))] + diff = [list() for _ in range(len(chains))] + for c in chains: + for n in nodes: + try: + val_r = vals[txt_chains[c - 1]][txt_nodes[n - 1]]["mean_r"] + except (KeyError, IndexError): + val_r = None + data_r[c - 1].append(val_r) + try: + val_c = vals[txt_chains[c - 1]][txt_nodes[n - 1]]["mean_c"] + except (KeyError, IndexError): + val_c = None + data_c[c - 1].append(val_c) + + if val_c is not None and val_r: + diff[c - 1].append(round((val_c - val_r) * 100 / val_r, 1)) + else: + diff[c - 1].append(None) + + # Colorscales: + my_green = [[0.0, 'rgb(235, 249, 242)'], + [1.0, 'rgb(45, 134, 89)']] + + my_blue = [[0.0, 'rgb(236, 242, 248)'], + [1.0, 'rgb(57, 115, 172)']] + + my_grey = [[0.0, 'rgb(230, 230, 230)'], + [1.0, 'rgb(102, 102, 102)']] + + hovertext = list() + + annotations = list() + annotations_r = list() + annotations_c = list() + annotations_diff = list() + + text = ("Test: {name}" + "<br>{title_r}: {text_r}" + "<br>{title_c}: {text_c}{text_diff}") + text_r = "Thput: {val_r}; StDev: {stdev_r}; Runs: {nr_r}" + text_c = "Thput: {val_c}; StDev: {stdev_c}; Runs: {nr_c}" + text_diff = "<br>Relative Difference {title_c} vs. {title_r}: {diff}%" + + for c in range(len(txt_chains)): + hover_line = list() + for n in range(len(txt_nodes)): + if data_r[c][n] is not None: + data_point = dict( + x=n+1, + y=c+1, + xref="x", + yref="y", + xanchor="center", + yanchor="middle", + text=str(data_r[c][n]) if data_r[c][n] is not None else "", + font=dict( + size=14, + ), + align="center", + showarrow=False + ) + annotations_r.append(deepcopy(data_point)) + data_point["text"] = str(data_c[c][n]) \ + if data_c[c][n] is not None else "" + annotations_c.append(deepcopy(data_point)) + data_point["text"] = str(diff[c][n]) \ + if diff[c][n] is not None else "" + annotations_diff.append(deepcopy(data_point)) + + hover_line.append(text.format( + name=vals[txt_chains[c]][txt_nodes[n]]["name"], + title_r=plot["reference"]["name"], + text_r=text_r.format( + val_r=data_r[c][n], + stdev_r=vals[txt_chains[c]][txt_nodes[n]]["stdev_r"], + nr_r=vals[txt_chains[c]][txt_nodes[n]]["nr_r"] + ) if data_r[c][n] is not None else "Test Failed", + title_c=plot["compare"]["name"], + text_c=text_c.format( + val_c=data_c[c][n], + stdev_c = vals[txt_chains[c]][txt_nodes[n]]["stdev_c"], + nr_c=vals[txt_chains[c]][txt_nodes[n]]["nr_c"] + ) if data_c[c][n] is not None else "Test Failed", + text_diff=text_diff.format( + diff=diff[c][n] + ) if diff[c][n] is not None else "" + )) + + hovertext.append(hover_line) + + traces = [ + plgo.Heatmap(x=nodes, + y=chains, + z=data_r, + visible=True, + colorbar=dict( + title=plot.get("z-axis", ""), + titleside="right", + titlefont=dict( + size=16 + ), + tickfont=dict( + size=16, + ), + tickformat=".1f", + yanchor="bottom", + y=-0.02, + len=0.925, + ), + showscale=True, + colorscale=my_green, + reversescale=False, + text=hovertext, + hoverinfo="text"), + plgo.Heatmap(x=nodes, + y=chains, + z=data_c, + visible=False, + colorbar=dict( + title=plot.get("z-axis", ""), + titleside="right", + titlefont=dict( + size=16 + ), + tickfont=dict( + size=16, + ), + tickformat=".1f", + yanchor="bottom", + y=-0.02, + len=0.925, + ), + showscale=True, + colorscale=my_blue, + reversescale=False, + text=hovertext, + hoverinfo="text"), + plgo.Heatmap(x=nodes, + y=chains, + z=diff, + name="Diff", + visible=False, + colorbar=dict( + title="Relative difference [%]", + titleside="right", + titlefont=dict( + size=16 + ), + tickfont=dict( + size=16, + ), + tickformat=".1f", + yanchor="bottom", + y=-0.02, + len=0.925, + ), + showscale=True, + colorscale=my_grey, + reversescale=False, + text=hovertext, + hoverinfo="text") + ] + + for idx, item in enumerate(txt_nodes): + # X-axis, numbers: + annotations.append(dict( + x=idx+1, + y=0.05, + xref="x", + yref="y", + xanchor="center", + yanchor="top", + text=item, + font=dict( + size=16, + ), + align="center", + showarrow=False + )) + for idx, item in enumerate(txt_chains): + # Y-axis, numbers: + annotations.append(dict( + x=0.35, + y=idx+1, + xref="x", + yref="y", + xanchor="right", + yanchor="middle", + text=item, + font=dict( + size=16, + ), + align="center", + showarrow=False + )) + # X-axis, title: + annotations.append(dict( + x=0.55, + y=-0.15, + xref="paper", + yref="y", + xanchor="center", + yanchor="bottom", + text=plot.get("x-axis", ""), + font=dict( + size=16, + ), + align="center", + showarrow=False + )) + # Y-axis, title: + annotations.append(dict( + x=-0.1, + y=0.5, + xref="x", + yref="paper", + xanchor="center", + yanchor="middle", + text=plot.get("y-axis", ""), + font=dict( + size=16, + ), + align="center", + textangle=270, + showarrow=False + )) + updatemenus = list([ + dict( + active=0, + x=1.0, + y=0.0, + xanchor='right', + yanchor='bottom', + direction='up', + buttons=list([ + dict( + label=plot["reference"]["name"], + method="update", + args=[ + { + "visible": [True, False, False] + }, + { + "colorscale": [my_green, ], + "reversescale": False, + "annotations": annotations + annotations_r, + }, + ] + ), + dict( + label=plot["compare"]["name"], + method="update", + args=[ + { + "visible": [False, True, False] + }, + { + "colorscale": [my_blue, ], + "reversescale": False, + "annotations": annotations + annotations_c, + }, + ] + ), + dict( + label="Diff", + method="update", + args=[ + { + "visible": [False, False, True] + }, + { + "colorscale": [my_grey, ], + "reversescale": False, + "annotations": annotations + annotations_diff, + }, + ] + ), + ]) + ) + ]) + + try: + layout = deepcopy(plot["layout"]) + except KeyError as err: + logging.error("Finished with error: No layout defined") + logging.error(repr(err)) + return + + layout["annotations"] = annotations + annotations_r + layout['updatemenus'] = updatemenus + + try: + # Create plot + plpl = plgo.Figure(data=traces, layout=layout) + + # Export Plot + logging.info(" Writing file '{0}{1}'.". + format(plot["output-file"], plot["output-file-type"])) + ploff.plot(plpl, show_link=False, auto_open=False, + filename='{0}{1}'.format(plot["output-file"], + plot["output-file-type"])) + except PlotlyError as err: + logging.error(" Finished with error: {}". + format(str(err).replace("\n", " "))) + return |