def GET(self, username):
contact = db.users.find_one({'username':username})
if not contact:
raise web.notfound()
trans, balance, people_owe_you, you_owe_people = transactions.get_transaction_details(db, users.get_user())
owes_you = False
you_owe = False
if contact['username'] in people_owe_you:
owes_you = people_owe_you[contact['username']][1]
elif contact['username'] in you_owe_people:
you_owe = you_owe_people[contact['username']][1]
return render('/users/profile.html', profile=contact, connected=self.connected(contact), owes_you = owes_you, you_owe = you_owe)
def GET(self):
user = users.get_user()
trans, balance, people_owe_you, you_owe_people = transactions.get_transaction_details(db, user)
return render('summary.html', transactions=trans, balance=balance, people_owe_you=people_owe_you, you_owe_people=you_owe_people)
def GET(self):
user = users.get_user()
trans, balance, people_owe_you, you_owe_people = transactions.get_transaction_details(db, user, values_as_nums=True)
nodes = {user['username']:0}
paths = {}
contacts = mongo_utils.deref_list(db, user['contacts'])
contact_debts = {user['username']: (people_owe_you, you_owe_people)}
for contact in contacts:
nodes[contact['username']] = len(nodes)
trans, balance, people_owe_you, you_owe_people = transactions.get_transaction_details(db, contact, values_as_nums=True)
contact_debts[contact['username']] = (people_owe_you, you_owe_people)
#Do some crazy graph shit
for person, (owe_you, you_owe) in contact_debts.iteritems():
for (username, (user, value)) in owe_you.iteritems():
if (nodes[username], nodes[person]) not in paths:
paths[(nodes[username], nodes[person])] = value
for (username, (user, value)) in you_owe.iteritems():
if (nodes[person], nodes[username]) not in paths:
paths[(nodes[person], nodes[username])] = value
print "NODES"
print nodes
#Get rid of current user
radius = 40
nodes_list = {0:(user['username'], (radius,radius))}
del nodes[user['username']]
#Work out where to put stuff with the graphs.
degree = (2 * math.pi)/len(nodes)
coords = [(round(math.sin(degree*num)*radius),round(math.cos(degree*num)*radius)) for num in range(len(nodes))]
coords = map(lambda (x,y): (x+radius, abs(y-radius)), coords)
#Set up the node coords
for n,(k,v) in enumerate(nodes.iteritems()):
nodes_list[v] = (k,(coords[n]))
print "NODES LIST"
print nodes_list
print "PATHS"
print paths
#Now replace the line mappings with the actual coords
paths_list = []
for (person, person2), value in paths.iteritems():
print "PERSON"
print person
print "PERSON2"
print person2
print "PERSON 1 NODE:"
print nodes_list[person]
print "PERSON 2 NODE:"
print nodes_list[person2]
if nodes_list[person][1][1] < nodes_list[person2][1][1]:
top, bottom = person, person2
else:
if nodes_list[person][1][0] < nodes_list[person2][1][0]:
top, bottom = person, person2
else:
top, bottom = person2, person
start_coords = list(nodes_list[top][1])
height = nodes_list[bottom][1][1] - nodes_list[top][1][1]
width = abs(nodes_list[bottom][1][0] - nodes_list[top][1][0])
up_or_down = 'down' if nodes_list[top][1][0] >= nodes_list[bottom][1][0] else 'up'
paths_list.append((start_coords, height, width, up_or_down, value))
#pass
print paths_list
return render('network.html', nodes=nodes_list, paths=paths_list, radius=radius)
