def __init__(self):
super().__init__()
self.mapVisualizer = MapVisualizer()
# UI
self.showingLogs = True
self.showingInv = False
self.showingList = False
self.currentList = None
self.displayAttrs = []
self.cleanActionState()
# keymaps
self.movementKeys = {
'h' : (-1, 0),
'j' : (0, 1),
'k' : (0, -1),
'l' : (1, 0),
'y' : (-1, -1),
'u' : (1, -1),
'b' : (-1, 1),
'n' : (1, 1),
}
self.bindings = {}
def __init__(self):
super().__init__()
self.quit = False
self.mapVisualizer = MapVisualizer()
self.tiledMap = None
self.cursor = [0, 0]
self.fname = None
class Client(BaseClient, Displaying, Inputting):
def __init__(self):
super().__init__()
self.mapVisualizer = MapVisualizer()
# UI
self.showingLogs = True
self.showingInv = False
self.showingList = False
self.currentList = None
self.displayAttrs = []
self.cleanActionState()
# keymaps
self.movementKeys = {
'h' : (-1, 0),
'j' : (0, 1),
'k' : (0, -1),
'l' : (1, 0),
'y' : (-1, -1),
'u' : (1, -1),
'b' : (-1, 1),
'n' : (1, 1),
}
self.bindings = {}
def cleanActionState(self):
'''Reset all action inputting variables'''
self.inputState = 'normal'
self.currentAction = None
self.actionArgs = None
self.actionArgsIter = None
self.actionArgsNext = None
def loadMod(self, modFile):
mod = loader.modFromFile(modFile)
try:
mod.applyMod(self)
except AttributeError:
logging.warning('client can\'t load mod')
def worldChanged(self):
'''Called from server when world is changed'''
super().worldChanged()
self.updateDisplay = True
def askForEntity(self, entity = None):
super().askForEntity(entity)
if entity:
entity.setAttr('control', 'player')
# OUTPUT
def redraw(self):
# TODO:
# - flexible gui
# - forbid direct access to world
# - draw vision, not actual map
mapVision = self.entity.mapVision()
self.displayData = self.mapVisualizer.toXml(mapVision, 0, 6)
# TODO: don't resize on every iteration
w = mapVision.width
h = mapVision.height
self.resize(w+40, h+8)
if self.showingLogs:
self.showLogs()
if self.inputState == 'normal':
pass
elif self.inputState == 'action' and self.nextArgumentType() == 'direction':
self.putString(0, 0, 'direction? ')
elif self.inputState == 'action' and self.nextArgumentType() == 'inventory':
self.showingInv = True
self.putString(0, 0, 'list element? ')
elif self.inputState == 'action' and self.nextArgumentType() == 'list':
self.showingList = True
self.currentList = actionapi.action(self.nextArgument()[1], {'subject':self.entity})
self.putString(0, 0, 'list element? ')
if self.showingInv:
self.showInv()
if self.showingList and self.currentList:
self.showList(self.currentList)
self.showAttr()
super().redraw()
def showLogs(self):
# TODO: make fancy & more universal
x = 0
y = 0
log = eventlogger.eventLog
stringCount = min(5, len(log))
for e in log[-stringCount:]:
s = str(e)
if s:
self.putString(x, y, s)
y += 1
def showInv(self):
inv = self.entity.get('inv')
if not inv:
# TODO: no constants!
self.putString(30, 0, 'inventory is empty')
else:
self.putString(30, 0, 'inventory:')
self.showList(inv)
def showList(self, entityList):
ln = 1
for i in range(len(entityList)):
self.putString(30, ln+i, '{0}: {1}'.format(i, entityList[i]))
def showAttr(self):
st = '|'
for name, t in self.displayAttrs:
try:
value = self.entity.attr(name)
except BaseEntityDeadError:
logging.warning('entity died')
return
s = ' {0}: {1} |'.format(name, t(value))
st += s
self.putString(0, 5, st)
def addDisplayAttribute(self, name, t):
self.displayAttrs.append((name, t))
# INPUT
def bindKeys(self, keys, actionName, args):
'''Bind list of key to do action'''
action = (actionName, args)
for key in keys:
self.bindings[key] = action
def nextArgument(self):
'''Return representation of next argument'''
return self.actionArgs[self.actionArgsNext]
def nextArgumentType(self):
'''Return type of next argument'''
return self.nextArgument()[0]
def tryLaunchAction(self):
'''Get next argument or if it's empty, launch action'''
try:
self.actionArgsNext = next(self.actionArgsIter)
except StopIteration:
# all args are processed, call action now
self.doAction(self.currentAction, self.actionArgs)
self.cleanActionState()
return True
return False
def processAction(self):
'''Try to process current action by replacing obvious arguments'''
while True:
argName = self.actionArgsNext
argType = self.actionArgs[argName][0]
if argType == 'entity':
self.actionArgs[argName] = self.entity
if self.tryLaunchAction():
break
else:
# to display "direction?" message
self.updateDisplay = True
break
def processListArgument(self, elist, opcode):
'''Fill in list argument, returning it'''
ch = chr(opcode)
if ch == '-':
arg = None
else:
try:
num = int(ch)
arg = elist[num]
except ValueError:
raise UnknownKeyError
except IndexError:
raise UnknownKeyError
return arg
def processKeyBindings(self, opcode):
'''Process pressed key according to key bindings'''
if self.inputState == 'normal':
ch = chr(opcode)
try:
actionName, args = self.bindings[ch]
except KeyError:
raise UnknownKeyError
self.inputState = 'action'
self.currentAction = actionName
self.actionArgs = copy.deepcopy(args)
self.actionArgsIter = iter(args)
if not self.tryLaunchAction():
self.processAction()
else:
argName = self.actionArgsNext
arg = self.actionArgs[argName]
argType = arg[0]
if argType == 'direction':
ch = chr(opcode)
if ch in self.movementKeys:
direct = self.movementKeys[ch]
result = Direct(*direct)
else:
raise UnknownKeyError
elif argType == 'inventory':
result = self.processListArgument(self.entity.get('inv'), opcode)
elif argType == 'list':
elist = actionapi.action(arg[1], {'subject':self.entity})
result = self.processListArgument(elist, opcode)
else:
raise RuntimeError('unknown input type requested: {0}'.format(argType))
self.actionArgs[argName] = result
if not self.tryLaunchAction():
self.processAction()
def processKey(self, opcode):
# TODO: port everything to moddable bindings
try:
self.processKeyBindings(opcode)
except UnknownKeyError:
try:
ch = chr(opcode)
except KeyError:
# TODO: other options should still be checked
logging.warning('unhandled key: ({0})'.format(opcode))
else:
if self.inputState == 'normal':
if ch == '!':
self.showingLogs = not self.showingLogs
self.updateDisplay = True
elif ch == 'i':
self.showingInv = not self.showingInv
self.updateDisplay = True
elif ch in self.movementKeys:
self.doAction('move', {'subject':self.entity, 'dx':self.movementKeys[ch][0], 'dy':self.movementKeys[ch][1]})
elif opcode == ord('r')-ord('a')+1: # CTRL+R
self.updateDisplay = True
elif ch == 'S':
self.doQuit()
else:
logging.warning('unhandled key: {0} ({1})'.format(ch, opcode))
else:
logging.warning('unhandled key: {0} ({1})'.format(ch, opcode))
def gameOver(self):
'''Called when game is considered finished'''
eventlogger.logString('game over, thou shall exit now')
logging.info('game over')
self.serverClient.stop()
def doQuit(self):
'''Actually quit'''
self.serverClient.stop()
self.notifyDisconnection()
self.quit = True
def attendFuneral(self, entity):
if self.entity == entity:
self.gameOver()
else:
logging.warning('invited to funeral of {0}'.format(entity))
class MapEditor(Displaying, Inputting):
def __init__(self):
super().__init__()
self.quit = False
self.mapVisualizer = MapVisualizer()
self.tiledMap = None
self.cursor = [0, 0]
self.fname = None
def start(self):
super().start()
def redraw(self):
# draw map
self.displayData = self.mapVisualizer.toXml(self.tiledMap)
super().redraw()
def loadFile(self, fname):
try:
f = open(fname)
mapXml = ET.fromstring(f.read())
f.close()
self.loadMapXml(mapXml)
except IOError as err:
# TODO: should we even do this?
logging.warning('error while loading map file {0}'.format(fname))
raise err
else:
self.fname = fname
def saveFile(self, fname = None):
if not fname:
fname = self.fname
try:
f = open(fname, 'w')
text = ET.tostring(self.saveMapXml())
f.write(text.decode())
f.close()
except IOError as err:
logging.error(traceback.format_exc())
raise err
else:
self.fname = fname
def loadMapXml(self, mapXml):
self.tiledMap = TiledMap.fromXml(mapXml)
def saveMapXml(self):
return self.tiledMap.saveXml()
def processKey(self, opcode):
logging.debug('key pressed: {0}'.format(chr(opcode)))
try:
ch = chr(opcode)
if ch == 'h':
self.cursor[0] -= 1
elif ch == 'j':
self.cursor[1] += 1
elif ch == 'k':
self.cursor[1] -= 1
elif ch == 'l':
self.cursor[0] += 1
elif ch == '.':
floor = Entity({'class':'floor'})
self.tiledMap.putOn(self.cursor[0], self.cursor[1], 'ground', floor)
elif ch == 'D':
logging.debug(ET.tostring(self.saveMapXml()))
elif ch == 'S':
logging.info('saving map to file {0}...'.format(self.fname))
self.saveFile()
except Exception as err:
logging.error('unhandled exception while processing key')
logging.error(err)
logging.debug(traceback.format_exc())
