def updateOrder(self, conn, id, type, order_id, moreargs):
"""Not sure if this is the correct way, but it works"""
args = [0, id, -1, type, 0, []]
# Really stupid hack that makes me crazy, http post forms converts
# everything into strings and I dont want to process the args seperatly
# on the backend side.
def recur_map(func, data):
if hasattr(data, '__iter__'):
return [recur_map(func, elem) for elem in data]
else:
try:
return func(data)
except ValueError:
return data
if moreargs:
for arg in moreargs:
args += recur_map(int, json.loads(arg))
# Create the new order
new = objects.Order(*args)
new._dirty = True
node = self.cache.orders[id][order_id]
assert not node is None
# Do some sanity checking
d = self.cache.orders[id]
assert node in d
evt = self.cache.apply('orders', 'change', id, node, new)
apply(conn, evt, self.cache)
self.cache.save()
def updateOrder(self, conn, id, type, order_id, moreargs):
"""Not sure if this is the correct way, but it works"""
args = [0, id, -1, type, 0, []]
# Really stupid hack that makes me crazy, http post forms converts
# everything into strings and I dont want to process the args seperatly
# on the backend side.
def recur_map(func, data):
if hasattr(data, '__iter__'):
return [recur_map(func, elem) for elem in data]
else:
try:
return func(data)
except ValueError:
return data
if moreargs:
for arg in moreargs:
args += recur_map(int, json.loads(arg))
# Create the new order
new = objects.Order(*args)
new._dirty = True
node = self.cache.orders[id][order_id]
assert not node is None
# Do some sanity checking
d = self.cache.orders[id]
assert node in d
evt = self.cache.apply('orders', 'change', id, node, new)
apply(conn, evt, self.cache)
self.cache.save()
def sendOrder(self, conn, id, type, moreargs):
print "Sending Orders ", type
# sequence, id, slot, type, turns, resources
args = [0, id, -1, type, 0, []]
position = 0
# get orderdesc so we can get default args for order type
ordertype = objects.OrderDescs()[type]
#create dummy order with dummy results
args = insertDummyOrder(args, ordertype);
order = ordertype(*args)
order._dirty = True
queue = self.cache.orders[id]
#The Order number in terms of queue position
position = len(queue)
print "Send Order pos: ", position
#Add order to back of queue
node = queue.last
if node != None and order != None:
print "Printing sendorder args: ", args
#make a new order
evt = self.cache.apply("orders", "create after", id, node, order)
apply(conn, evt, self.cache)
return position, self.cache
def removeOrder(self, conn, id, order_position):
print "Remove order pos ", int(order_position)
queue = self.cache.orders[int(id)]
node = getOrderNodeByPosition(queue, int(order_position))
if node != None:
evt = self.cache.apply('orders', 'remove', id, nodes=[node])
apply(conn, evt, self.cache)
return self.cache
def endTurn(cache,rulesystem,connection):
orders = rulesystem.findConstraint("order_move(int,int)")
for order in orders:
objid = int(order.args[0])
destination = int(order.args[1])
print "Moving %s to %s" % (objid,cache.objects[destination].pos)
moveorder = findOrderDesc("Move")
args = [0, objid, -1, moveorder.subtype, 0, [], destination]
order = moveorder(*args)
evt = cache.apply("orders","create after",objid,cache.orders[objid].head,order)
tp.client.cache.apply(connection,evt,cache)
orders = rulesystem.findConstraint("order_buildfleet(int,tuple,str)")
for order in orders:
objid = order.args[0]
ships = list(order.args[1])
name = order.args[2]
print "Ordering fleet %s of %s" % (name,ships)
buildorder = findOrderDesc("Build Fleet")
args = [0, objid, -1, buildorder.subtype, 0, [], [[],ships], (len(name),name)]
order = buildorder(*args)
evt = cache.apply("orders","create after",objid,cache.orders[objid].head,order)
tp.client.cache.apply(connection,evt,cache)
orders = rulesystem.findConstraint("order_produce(int,tuple)")
for order in orders:
objid = order.args[0]
toproduce = list(order.args[1])
print "Producing %s" % toproduce
order = findOrderDesc("Produce")
args = [0, objid, -1, order.subtype, 0, [], [[],toproduce]]
o = order(*args)
evt = cache.apply("orders","create after",objid,cache.orders[objid].head,o)
tp.client.cache.apply(connection,evt,cache)
orders = rulesystem.findConstraint("order_colonise(int,tuple)")
for order in orders:
objid = order.args[0]
target = order.args[1]
print "Colonizing %s" % target
order = findOrderDesc("Colonise")
args = [0, objid, -1, order.subtype, 0, [], target]
o = order(*args)
evt = cache.apply("orders","create after",objid,cache.orders[objid].head,o)
tp.client.cache.apply(connection,evt,cache)
def deleteAllMessages():
"""
Deletes all messages.
"""
global cache
global connection
for node in cache.messages[0]:
if node == None:
break
evt = cache.apply("messages", "remove", 0, node, None)
tp.client.cache.apply(connection, evt, cache)
def updateOrder(self, conn, id, type, order_position, moreargs):
"""Not sure if this is the correct way, but it works"""
args = [0, id, -1, type, 0, []]
# Really stupid hack that makes me crazy, http post forms converts
# everything into strings and I dont want to process the args seperatly
# on the backend side.
def recur_map(func, data):
#print "Entering recur map", data
if hasattr(data, '__iter__'):
#print "hasiter attri"
args = []
for elem in data:
args.append(recur_map(func, elem))
# [recur_map(func, elem) for elem in data]
return args
else:
try:
return func(data)
except ValueError:
return data
moreargsProcessed = []
if moreargs:
for arg in moreargs:
moreargsProcessed.append(recur_map(int, json.loads(arg)))
# Create the new order
ordertype = objects.OrderDescs()[type]
args = applyArgNesting(args, moreargsProcessed, ordertype)
order = ordertype(*args)
order._dirty = True
queue = self.cache.orders[int(id)]
node = getOrderNodeByPosition(queue, int(order_position))
if node != None and order != None:
evt = self.cache.apply("orders", "change", id, node, order)
apply(conn, evt, self.cache)
return self.cache
def endTurn(cache,rulesystem,connection):
orders = rulesystem.findConstraint("order_move(int,int,int)")
for order in orders:
start = int(order.args[0])
destination = int(order.args[1])
amount = int(order.args[2])
logging.getLogger("daneel.mod-risk").debug("Moving %s troops from %s to %s" % (amount,start,destination))
moveorder = findOrderDesc("Move")
args = [0, start, -1, moveorder.subtype, 0, [], ([], [(destination, amount)])]
order = moveorder(*args)
orderqueueID = getOrderQueueList(cache,start)[0][1]
evt = cache.apply("orders","create after",orderqueueID,cache.orders[orderqueueID].head,order)
if connection != None:
tp.client.cache.apply(connection,evt,cache)
orders = rulesystem.findConstraint("order_reinforce(int,int)")
for order in orders:
objid = order.args[0]
amount = order.args[1]
logging.getLogger("daneel.mod-risk").debug("Reinforcing %s with %s troops" % (objid,amount))
orderd = findOrderDesc("Reinforce")
args = [0, objid, -1, orderd.subtype, 0, [], (amount, 0)]
order = orderd(*args)
orderqueueID = getOrderQueueList(cache,objid)[0][1]
evt = cache.apply("orders","create after",orderqueueID,cache.orders[orderqueueID].head,order)
if connection != None:
tp.client.cache.apply(connection,evt,cache)
orders = rulesystem.findConstraint("order_colonise(int,int)")
planet = selectOwnedPlanet(cache)
for order in orders:
objid = order.args[0]
amount = order.args[1]
logging.getLogger("daneel.mod-risk").debug("Colonizing %s with %s troops" % (objid,amount))
orderd = findOrderDesc("Colonize")
args = [0, objid, -1, orderd.subtype, 0, [], ([], [(objid, amount)])]
o = orderd(*args)
orderqueueID = getOrderQueueList(cache,start)[0][1]
evt = cache.apply("orders","create after",orderqueueID,cache.orders[orderqueueID].head,o)
if connection != None:
tp.client.cache.apply(connection,evt,cache)
def executeOrder(cache, connection, objectId, order):
# get the queue for the object
queueid = extra.objectutils.getOrderQueueList(cache, objectId)[0][1]
queue = cache.orders[queueid]
node = queue.first
#check if there is no existing order
if order != None and queue.first.CurrentOrder is None:
# make a new order
evt = cache.apply("orders", "create after", queueid, node, order)
tp.client.cache.apply(connection, evt, cache)
#check if the existing order is the same as current order
elif not checkIfOrdersSame(node.CurrentOrder, order):
if order != None:
#replace the current order with the new one
evt = cache.apply("orders", "change", queueid, node, order)
tp.client.cache.apply(connection, evt, cache)
#delete order
else:
nodes = [x for x in queue]
evt = cache.apply("orders", "remove", queueid, nodes=nodes)
tp.client.cache.apply(connection, evt, cache)
def sendOrder(self, conn, id, type, moreargs):
# sequence, id, slot, type, turns, resources
args = [0, id, -1, type, 0, []]
# get orderdesc so we can get default args for order type
orderdesc = objects.OrderDescs()[type]
for name, type in orderdesc.names:
args += defaults[type]
# Create the new order
new = objects.Order(*args)
new._dirty = True
# Insert order after
node = self.cache.orders[id].last
assert not node is None
# Do some sanity checking
d = self.cache.orders[id]
assert node in d
evt = self.cache.apply("orders", "create after", id, node, new)
apply(conn, evt, self.cache)
self.cache.save()
def sendOrder(self, conn, id, type, moreargs):
# sequence, id, slot, type, turns, resources
args = [0, id, -1, type, 0, []]
# get orderdesc so we can get default args for order type
orderdesc = objects.OrderDescs()[type]
for name, type in orderdesc.names:
args += defaults[type]
# Create the new order
new = objects.Order(*args)
new._dirty = True
# Insert order after
node = self.cache.orders[id].last
assert not node is None
# Do some sanity checking
d = self.cache.orders[id]
assert node in d
evt = self.cache.apply("orders", "create after", id, node, new)
apply(conn, evt, self.cache)
self.cache.save()
def removeOrder(self, conn, id, order_id):
node = self.cache.orders[id][order_id]
evt = self.cache.apply('orders', 'remove', id, nodes=[node])
apply(conn, evt, self.cache)
self.cache.save()
def removeOrder(self, conn, id, order_id):
node = self.cache.orders[id][order_id]
evt = self.cache.apply('orders', 'remove', id, nodes=[node])
apply(conn, evt, self.cache)
self.cache.save()
