age = Cnf["Queue-Report::Options::Age"]
if Cnf.has_key("Queue-Report::Options::New"):
# If we produce html we always have oldest first.
- direction.append([4,-1,"ao"])
+ direction.append([5,-1,"ao"])
else:
if Cnf.has_key("Queue-Report::Options::Sort"):
for i in Cnf["Queue-Report::Options::Sort"].split(","):
if i == "ao":
# Age, oldest first.
- direction.append([4,-1,age])
+ direction.append([5,-1,age])
elif i == "an":
# Age, newest first.
- direction.append([4,1,age])
+ direction.append([5,1,age])
elif i == "na":
# Name, Ascending.
direction.append([0,1,0])
direction.append([0,-1,0])
elif i == "nl":
# Notes last.
- direction.append([3,1,0])
+ direction.append([4,1,0])
elif i == "nf":
# Notes first.
- direction.append([3,-1,0])
+ direction.append([4,-1,0])
entries.sort(lambda x, y: sortfunc(x, y))
# Yes, in theory you can add several sort options at the commandline with. But my mind is to small
# at the moment to come up with a real good sorting function that considers all the sidesteps you
log.write("\n")
if Cnf.has_key("Queue-Report::Options::New"):
- direction.append([4,1,"ao"])
+ direction.append([5,1,"ao"])
entries.sort(lambda x, y: sortfunc(x, y))
# Output for a html file. First table header. then table_footer.
# Any line between them is then a <tr> printed from subroutine table_row.