return
# Prepare the data for the plot
+ plot_title = plot.get(u"title", u"").lower()
+
+ if u"-gbps" in plot_title:
+ value = u"gbps"
+ multiplier = 1e6
+ else:
+ value = u"throughput"
+ multiplier = 1.0
y_vals = OrderedDict()
test_type = u""
for job in data:
try:
if test[u"type"] in (u"NDRPDR", ):
test_type = u"NDRPDR"
- plot_title = plot.get(u"title", u"").lower()
if u"-pdr" in plot_title:
ttype = u"PDR"
elif u"-ndr" in plot_title:
ttype = u"NDR"
else:
- continue
-
- if u"-gbps" in plot_title:
- value = u"gbps"
- multiplier = 1e6
- else:
- value = u"throughput"
- multiplier = 1.0
+ raise RuntimeError(
+ u"Wrong title. No information about test type. "
+ u"Add '-ndr' or '-pdr' to the test title."
+ )
y_vals[test[u"parent"]].append(
test[value][ttype][u"LOWER"] * multiplier
plot_title = plot_title.lower()
+ if u"-gbps" in plot_title:
+ value = u"gbps"
+ h_unit = u"Gbps"
+ multiplier = 1e6
+ else:
+ value = u"throughput"
+ h_unit = u"Mpps"
+ multiplier = 1.0
+
y_vals = OrderedDict()
for job in data:
for build in job:
else:
continue
- if u"-gbps" in plot_title:
- value = u"gbps"
- multiplier = 1e6
- else:
- value = u"throughput"
- multiplier = 1.0
-
if u"1C" in test[u"tags"]:
y_vals[test[u"parent"]][u"1"]. \
append(test[value][ttype][u"LOWER"] * multiplier)
if isinstance(val[u"val"][idx], float):
htext += (
f"No. of Runs: {val[u'count'][idx]}<br>"
- f"Mean: {val[u'val'][idx]:.2f}Mpps<br>"
+ f"Mean: {val[u'val'][idx]:.2f}{h_unit}<br>"
)
if isinstance(val[u"diff"][idx], float):
htext += f"Diff: {round(val[u'diff'][idx]):.0f}%<br>"