import CatalogItem from pandac.PandaModules import * import types from direct.distributed.PyDatagram import PyDatagram from direct.distributed.PyDatagramIterator import PyDatagramIterator class CatalogItemList: def __init__(self, source = None, store = 0): self.store = store self.__blob = None self.__list = None if isinstance(source, types.StringType): self.__blob = source elif isinstance(source, types.ListType): self.__list = source[:] elif isinstance(source, CatalogItemList): if source.store == store: if source.__list != None: self.__list = source.__list[:] self.__blob = source.__blob else: self.__list = source[:] return def markDirty(self): if self.__list: self.__blob = None return def getBlob(self, store = None): if store == None or store == self.store: if self.__blob == None: self.__encodeList() return self.__blob return self.__makeBlob(store) def getNextDeliveryDate(self): if len(self) == 0: return nextDeliveryDate = None for item in self: if item: if nextDeliveryDate == None or item.deliveryDate < nextDeliveryDate: nextDeliveryDate = item.deliveryDate return nextDeliveryDate def getNextDeliveryItem(self): if len(self) == 0: return nextDeliveryDate = None nextDeliveryItem = None for item in self: if item: if nextDeliveryDate == None or item.deliveryDate < nextDeliveryDate: nextDeliveryDate = item.deliveryDate nextDeliveryItem = item return nextDeliveryItem def extractDeliveryItems(self, cutoffTime): beforeTime = [] afterTime = [] for item in self: if item.deliveryDate <= cutoffTime: beforeTime.append(item) else: afterTime.append(item) return (CatalogItemList(beforeTime, store=self.store), CatalogItemList(afterTime, store=self.store)) def extractOldestItems(self, count): return (self[0:count], self[count:]) def __encodeList(self): self.__blob = self.__makeBlob(self.store) def __makeBlob(self, store): dg = PyDatagram() if self.__list: dg.addUint8(CatalogItem.CatalogItemVersion) for item in self.__list: CatalogItem.encodeCatalogItem(dg, item, store) return dg.getMessage() def __decodeList(self): self.__list = self.__makeList(self.store) def __makeList(self, store): list = [] if self.__blob: dg = PyDatagram(self.__blob) di = PyDatagramIterator(dg) versionNumber = di.getUint8() while di.getRemainingSize() > 0: item = CatalogItem.decodeCatalogItem(di, versionNumber, store) list.append(item) return list def append(self, item): if self.__list == None: self.__decodeList() self.__list.append(item) self.__blob = None return def extend(self, items): self += items def count(self, item): if self.__list == None: self.__decodeList() return self.__list.count(item) def index(self, item): if self.__list == None: self.__decodeList() return self.__list.index(item) def insert(self, index, item): if self.__list == None: self.__decodeList() self.__list.insert(index, item) self.__blob = None return def pop(self, index = None): if self.__list == None: self.__decodeList() self.__blob = None if index == None: return self.__list.pop() else: return self.__list.pop(index) return def remove(self, item): if self.__list == None: self.__decodeList() self.__list.remove(item) self.__blob = None return def reverse(self): if self.__list == None: self.__decodeList() self.__list.reverse() self.__blob = None return def sort(self, cmpfunc = None): if self.__list == None: self.__decodeList() if cmpfunc == None: self.__list.sort() else: self.__list.sort(cmpfunc) self.__blob = None return def __len__(self): if self.__list == None: self.__decodeList() return len(self.__list) def __getitem__(self, index): if self.__list == None: self.__decodeList() return self.__list[index] def __setitem__(self, index, item): if self.__list == None: self.__decodeList() self.__list[index] = item self.__blob = None return def __delitem__(self, index): if self.__list == None: self.__decodeList() del self.__list[index] self.__blob = None return def __getslice__(self, i, j): if self.__list == None: self.__decodeList() return CatalogItemList(self.__list[i:j], store=self.store) def __setslice__(self, i, j, s): if self.__list == None: self.__decodeList() if isinstance(s, CatalogItemList): self.__list[i:j] = s.__list else: self.__list[i:j] = s self.__blob = None return def __delslice__(self, i, j): if self.__list == None: self.__decodeList() del self.__list[i:j] self.__blob = None return def __iadd__(self, other): if self.__list == None: self.__decodeList() self.__list += list(other) self.__blob = None return self def __add__(self, other): copy = CatalogItemList(self, store=self.store) copy += other return copy def __repr__(self): return self.output() def __str__(self): return self.output() def output(self, store = -1): if self.__list == None: self.__decodeList() inner = '' for item in self.__list: inner += ', %s' % item.output(store) return 'CatalogItemList([%s])' % inner[2:]