def _load_graph(self, info_cache):
rpc = self.parent.rpc
cid = self.config['campaign_id']
visits = info_cache['visits']
operating_systems = {}
unknown_os = 'Unknown OS'
for visit in visits:
user_agent = ua_parser.parse_user_agent(visit['visitor_details'])
if user_agent:
operating_systems[user_agent.os_name] = operating_systems.get(user_agent.os_name, 0) + 1
else:
operating_systems[unknown_os] = operating_systems.get(unknown_os, 0) + 1
os_names = operating_systems.keys()
os_names.sort(key=lambda name: operating_systems[name])
os_names.reverse()
bars = []
for os_name in os_names:
bars.append(operating_systems[os_name])
width = 0.25
ax = self.axes[0]
bars = ax.bar(range(len(bars)), bars, width)
ax.set_ylabel('Total Visits')
ax.set_title('Visitor OS Information')
ax.set_xticks(map(lambda x: float(x) + (width / 2), range(len(bars))))
ax.set_xticklabels(os_names, rotation=30)
for col in bars:
height = col.get_height()
ax.text(col.get_x() + col.get_width() / 2.0, height, str(height), ha='center', va='bottom')
self.figure.subplots_adjust(bottom=0.25)
return info_cache
def _load_graph(self, info_cache): visits = info_cache['visits'] operating_systems = collections.Counter() for visit in visits: ua = ua_parser.parse_user_agent(visit.visitor_details) operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS']) os_names = sorted(operating_systems.keys()) bars = [operating_systems[os_name] for os_name in os_names] self.graph_bar(bars, len(OSFamily), os_names) return
def _load_graph(self, info_cache):
visits = info_cache['visits']['edges']
if not len(visits):
self._graph_null_pie('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
ua = ua_parser.parse_user_agent(visit['node']['userAgent'])
operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS'])
(os_names, count) = tuple(zip(*reversed(sorted(operating_systems.items(), key=lambda item: item[1]))))
self.graph_pie(count, labels=tuple("{0:,}".format(os) for os in count), legend_labels=os_names)
return
def _load_graph(self, info_cache):
visits = info_cache['visits']
if not len(visits):
self._graph_null_pie('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
ua = ua_parser.parse_user_agent(visit.visitor_details)
operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS'])
(os_names, count) = tuple(zip(*reversed(sorted(operating_systems.items(), key=lambda item: item[1]))))
self.graph_pie(count, labels=tuple("{0:,}".format(os) for os in count), legend_labels=os_names)
return
def _load_graph(self, info_cache):
visits = info_cache['visits']['edges']
if not len(visits):
self._graph_null_bar('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
user_agent = None
if visit['node']['userAgent']:
user_agent = ua_parser.parse_user_agent(visit['node']['userAgent'])
operating_systems.update([user_agent.os_name if user_agent and user_agent.os_name else 'Unknown OS'])
os_names = sorted(operating_systems.keys())
bars = [operating_systems[os_name] for os_name in os_names]
self.graph_bar(bars, os_names)
return
def _load_graph(self, info_cache): visits = info_cache['visits'] operating_systems = collections.Counter() for visit in visits: ua = ua_parser.parse_user_agent(visit.visitor_details) operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS']) os_names = list(operating_systems.keys()) os_names.sort(key=lambda name: operating_systems[name]) os_names.reverse() bars = [] for os_name in os_names: bars.append(operating_systems[os_name]) self.graph_bar(bars, color=[MPL_OS_COLORS[osn] for osn in os_names], xticklabels=os_names, ylabel='Total Visits') return
def _load_graph(self, info_cache): visits = info_cache['visits'] operating_systems = collections.Counter() for visit in visits: ua = ua_parser.parse_user_agent(visit.visitor_details) operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS']) os_names = list(operating_systems.keys()) os_names.sort(key=lambda name: operating_systems[name]) os_names.reverse() bars = [] for os_name in os_names: bars.append(operating_systems[os_name]) self.graph_bar(bars, color=[MPL_OS_COLORS[osn] for osn in os_names], xticklabels=os_names, ylabel='Total Visits') return
def _load_graph(self, info_cache):
visits = info_cache['visits']
if not len(visits):
self._graph_null_pie('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
ua = ua_parser.parse_user_agent(visit.visitor_details)
operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS'])
(os_names, count) = zip(*operating_systems.items())
colors = [MPL_OS_COLORS[osn] for osn in os_names]
ax = self.axes[0]
ax.pie(count, labels=os_names, labeldistance=1.05, colors=colors, autopct='%1.1f%%', shadow=True, startangle=45)
ax.axis('equal')
return
def _load_graph(self, info_cache):
visits = info_cache['visits']
if not len(visits):
self._graph_null_pie('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
ua = ua_parser.parse_user_agent(visit.visitor_details)
operating_systems.update([ua.os_name or 'Unknown OS' if ua else 'Unknown OS'])
(os_names, count) = zip(*operating_systems.items())
colors = [MPL_OS_COLORS[osn] for osn in os_names]
ax = self.axes[0]
ax.pie(count, labels=os_names, labeldistance=1.05, colors=colors, autopct='%1.1f%%', shadow=True, startangle=45)
ax.axis('equal')
return
def _load_graph(self, info_cache):
visits = info_cache['visits']['edges']
operating_systems = collections.Counter()
for visit in visits:
user_agent = None
if visit['node']['visitorDetails']:
user_agent = ua_parser.parse_user_agent(
visit['node']['visitorDetails'])
operating_systems.update([
user_agent.os_name
if user_agent and user_agent.os_name else 'Unknown OS'
])
os_names = sorted(operating_systems.keys())
bars = [operating_systems[os_name] for os_name in os_names]
self.graph_bar(bars, len(OSFamily), os_names)
return
def _load_graph(self, info_cache):
visits = info_cache['visits']['edges']
if not len(visits):
self._graph_null_bar('No Visitor Information')
return
operating_systems = collections.Counter()
for visit in visits:
user_agent = None
if visit['node']['userAgent']:
user_agent = ua_parser.parse_user_agent(
visit['node']['userAgent'])
operating_systems.update([
user_agent.os_name
if user_agent and user_agent.os_name else 'Unknown OS'
])
os_names = sorted(operating_systems.keys())
bars = [operating_systems[os_name] for os_name in os_names]
self.graph_bar(bars, os_names)
return
def _load_graph(self, info_cache):
visits = info_cache['visits']
operating_systems = {}
unknown_os = 'Unknown OS'
for visit in visits:
user_agent = ua_parser.parse_user_agent(visit['visitor_details'])
if user_agent:
operating_systems[user_agent.os_name] = operating_systems.get(
user_agent.os_name, 0) + 1
else:
operating_systems[unknown_os] = operating_systems.get(
unknown_os, 0) + 1
os_names = operating_systems.keys()
os_names.sort(key=lambda name: operating_systems[name])
os_names.reverse()
bars = []
for os_name in os_names:
bars.append(operating_systems[os_name])
width = 0.25
ax = self.axes[0]
bars = ax.bar(range(len(bars)), bars, width)
ax.set_ylabel('Total Visits')
ax.set_title('Visitor OS Information')
ax.set_yticks((1, ))
ax.set_xticks(map(lambda x: float(x) + (width / 2), range(len(bars))))
ax.set_xticklabels(os_names, rotation=30)
for col in bars:
height = col.get_height()
ax.text(col.get_x() + col.get_width() / 2.0,
height,
str(height),
ha='center',
va='bottom')
self.figure.subplots_adjust(bottom=0.25)
return info_cache