#=============================================================================== # Copyright (C) 2010 Diego Duclos # # This file is part of pyfa. # # pyfa is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # pyfa is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with pyfa. If not, see . #=============================================================================== import os.path import locale import copy import threading import wx from codecs import open import eos.db import eos.types from eos.types import State, Slot from service.market import Market from service.damagePattern import DamagePattern from service.character import Character from service.fleet import Fleet from service.settings import SettingsProvider class FitBackupThread(threading.Thread): def __init__(self, path, callback): threading.Thread.__init__(self) self.path = path self.callback = callback def run(self): path = self.path sFit = Fit.getInstance() allFits = map(lambda x: x[0], sFit.getAllFits()) backedUpFits = sFit.exportXml(*allFits) backupFile = open(path, "w", encoding="utf-8") backupFile.write(backedUpFits) backupFile.close() wx.CallAfter(self.callback) class FitImportThread(threading.Thread): def __init__(self, paths, callback): threading.Thread.__init__(self) self.paths = paths self.callback = callback def run(self): importedFits = [] paths = self.paths sFit = Fit.getInstance() for path in paths: pathImported = sFit.importFit(path) if pathImported is not None: importedFits += pathImported wx.CallAfter(self.callback, importedFits) class Fit(object): instance = None @classmethod def getInstance(cls): if cls.instance is None: cls.instance = Fit() return cls.instance def __init__(self): self.pattern = DamagePattern.getInstance().getDamagePattern("Uniform") self.character = Character.getInstance().all5() self.booster = False self.dirtyFitIDs = set() serviceFittingDefaultOptions = {"useGlobalCharacter": False, "useGlobalDamagePattern": False, "defaultCharacter": self.character.ID, "useGlobalForceReload": False} self.serviceFittingOptions = SettingsProvider.getInstance().getSettings("pyfaServiceFittingOptions", serviceFittingDefaultOptions) def getAllFits(self): fits = eos.db.getFitList() names = [] for fit in fits: names.append((fit.ID, fit.name)) return names def getFitsWithShip(self, id): ''' Lists fits of shipID, used with shipBrowser ''' fits = eos.db.getFitsWithShip(id) names = [] for fit in fits: names.append((fit.ID, fit.name, fit.booster, fit.timestamp)) return names def getBoosterFits(self): ''' Lists fits flagged as booster ''' fits = eos.db.getBoosterFits() names = [] for fit in fits: names.append((fit.ID, fit.name, fit.shipID)) return names def countFitsWithShip(self, id): count = eos.db.countFitsWithShip(id) return count def groupHasFits(self, id): sMkt = Market.getInstance() grp = sMkt.getGroup(id, eager=("items", "group")) items = sMkt.getItemsByGroup(grp) for item in items: if self.countFitsWithShip(item.ID) > 0: return True return False def getModule(self, fitID, pos): fit = eos.db.getFit(fitID) return fit.modules[pos] def newFit(self, shipID, name=None): fit = eos.types.Fit() fit.ship = eos.types.Ship(eos.db.getItem(shipID)) fit.name = name if name is not None else "New %s" % fit.ship.item.name fit.damagePattern = self.pattern fit.character = self.character fit.booster = self.booster eos.db.save(fit) self.recalc(fit) return fit.ID def toggleBoostFit(self, fitID): fit = eos.db.getFit(fitID) fit.booster = not fit.booster eos.db.commit() def renameFit(self, fitID, newName): fit = eos.db.getFit(fitID) fit.name = newName eos.db.commit() def deleteFit(self, fitID): fit = eos.db.getFit(fitID) sFlt = Fleet.getInstance() sFlt.removeAssociatedFleetData(fit) eos.db.remove(fit) def copyFit(self, fitID): fit = eos.db.getFit(fitID) newFit = copy.deepcopy(fit) eos.db.save(newFit) return newFit.ID def clearFit(self, fitID): if fitID is None: return None fit = eos.db.getFit(fitID) fit.clear() return fit def toggleFactorReload(self, fitID): if fitID is None: return None fit = eos.db.getFit(fitID) fit.factorReload = not fit.factorReload eos.db.commit() self.recalc(fit) def switchFit(self, fitID): if fitID is None: return None fit = eos.db.getFit(fitID) if self.serviceFittingOptions["useGlobalCharacter"]: if fit.character != self.character: fit.character = self.character if self.serviceFittingOptions["useGlobalDamagePattern"]: if fit.damagePattern != self.pattern: fit.damagePattern = self.pattern eos.db.commit() self.recalc(fit, withBoosters=True) def getFit(self, fitID): if fitID is None: return None fit = eos.db.getFit(fitID) inited = getattr(fit, "inited", None) if inited is None or inited is False: sFlt = Fleet.getInstance() f = sFlt.getLinearFleet(fit) if f is None: sFlt.removeAssociatedFleetData(fit) fit.fleet = None else: fit.fleet = f self.recalc(fit, withBoosters=True) fit.fill() eos.db.commit() fit.inited = True return fit def searchFits(self, name): results = eos.db.searchFits(name) fits = [] for fit in results: fits.append((fit.ID, fit.name, fit.ship.item.ID, fit.ship.item.name, fit.booster, fit.timestamp)) return fits def addImplant(self, fitID, itemID): if fitID is None: return False fit = eos.db.getFit(fitID) item = eos.db.getItem(itemID, eager="attributes") try: implant = eos.types.Implant(item) except ValueError: return False fit.implants.freeSlot(implant) fit.implants.append(implant) self.recalc(fit) return True def removeImplant(self, fitID, position): if fitID is None: return False fit = eos.db.getFit(fitID) implant = fit.implants[position] fit.implants.remove(implant) self.recalc(fit) return True def addBooster(self, fitID, itemID): if fitID is None: return False fit = eos.db.getFit(fitID) item = eos.db.getItem(itemID, eager="attributes") try: booster = eos.types.Booster(item) except ValueError: return False fit.boosters.freeSlot(booster) fit.boosters.append(booster) self.recalc(fit) return True def removeBooster(self, fitID, position): if fitID is None: return False fit = eos.db.getFit(fitID) booster = fit.boosters[position] fit.boosters.remove(booster) self.recalc(fit) return True def project(self, fitID, thing): fit = eos.db.getFit(fitID) if isinstance(thing, eos.types.Fit): if thing.ID == fitID: return fit.projectedFits.append(thing) elif thing.category.name == "Drone": drone = None for d in fit.projectedDrones.find(thing): if d is None or d.amountActive == d.amount or d.amount >= 5: drone = d break if drone is None: drone = eos.types.Drone(thing) fit.projectedDrones.append(drone) drone.amount += 1 elif thing.group.name == "Effect Beacon": module = eos.types.Module(thing) module.state = State.ONLINE fit.projectedModules.append(module) else: module = eos.types.Module(thing) module.state = State.ACTIVE if not module.canHaveState(module.state, fit): module.state = State.OFFLINE fit.projectedModules.append(module) eos.db.commit() self.recalc(fit) def toggleProjected(self, fitID, thing, click): fit = eos.db.getFit(fitID) if isinstance(thing, eos.types.Drone): if thing.amountActive == 0 and thing.canBeApplied(fit): thing.amountActive = thing.amount else: thing.amountActive = 0 elif isinstance(thing, eos.types.Module): thing.state = self.__getProposedState(thing, click) if not thing.canHaveState(thing.state, fit): thing.state = State.OFFLINE eos.db.commit() self.recalc(fit) def removeProjected(self, fitID, thing): fit = eos.db.getFit(fitID) if isinstance(thing, eos.types.Drone): fit.projectedDrones.remove(thing) elif isinstance(thing, eos.types.Module): fit.projectedModules.remove(thing) else: fit.projectedFits.remove(thing) eos.db.commit() self.recalc(fit) def appendModule(self, fitID, itemID): fit = eos.db.getFit(fitID) item = eos.db.getItem(itemID, eager=("attributes", "group.category")) try: m = eos.types.Module(item) except ValueError: return False if m.item.category.name == "Subsystem": fit.modules.freeSlot(m.getModifiedItemAttr("subSystemSlot")) if m.fits(fit): m.owner = fit numSlots = len(fit.modules) fit.modules.append(m) if m.isValidState(State.ACTIVE): m.state = State.ACTIVE self.recalc(fit) self.checkStates(fit, m) fit.fill() eos.db.commit() return numSlots != len(fit.modules) else: return None def removeModule(self, fitID, position): fit = eos.db.getFit(fitID) if fit.modules[position].isEmpty: return None numSlots = len(fit.modules) fit.modules.toDummy(position) self.recalc(fit) self.checkStates(fit, None) fit.fill() eos.db.commit() return numSlots != len(fit.modules) def swapModules(self, fitID, src, dst): fit = eos.db.getFit(fitID) m = fit.modules[src] fit.modules.remove(m) fit.modules.insert(dst, m) def cloneModule(self, fitID, src, dst): #need implementation of module clone based on module positions (also make sure the dst is empty else do nothing) pass def addDrone(self, fitID, itemID): if fitID == None: return False fit = eos.db.getFit(fitID) item = eos.db.getItem(itemID, eager=("attributes", "group.category")) if item.category.name == "Drone": drone = None for d in fit.drones.find(item): if d is not None and d.amountActive == 0 and d.amount < max(5, fit.extraAttributes["maxActiveDrones"]): drone = d break if drone is None: drone = eos.types.Drone(item) if drone.fits(fit) is True: fit.drones.append(drone) else: return False drone.amount += 1 eos.db.commit() self.recalc(fit) return True else: return False def mergeDrones(self, fitID, d1, d2, projected=False): if fitID == None: return False fit = eos.db.getFit(fitID) if d1.item != d2.item: return False if projected: fit.projectedDrones.remove(d1) else: fit.drones.remove(d1) d2.amount += d1.amount d2.amountActive += d1.amountActive if d1.amountActive > 0 else -d2.amountActive eos.db.commit() self.recalc(fit) return True def splitDrones(self, fit, d, amount, l): total = d.amount active = d.amountActive > 0 d.amount = amount d.amountActive = amount if active else 0 newD = eos.types.Drone(d.item) newD.amount = total - amount newD.amountActive = newD.amount if active else 0 l.append(newD) eos.db.commit() def splitProjectedDroneStack(self, fitID, d, amount): if fitID == None: return False fit = eos.db.getFit(fitID) self.splitDrones(fit, d, amount, fit.projectedDrones) def splitDroneStack(self, fitID, d, amount): if fitID == None: return False fit = eos.db.getFit(fitID) self.splitDrones(fit, d, amount, fit.drones) def removeDrone(self, fitID, i, numDronesToRemove=1): fit = eos.db.getFit(fitID) d = fit.drones[i] d.amount -= numDronesToRemove if d.amountActive > 0: d.amountActive -= numDronesToRemove if d.amount == 0: del fit.drones[i] eos.db.commit() self.recalc(fit) return True def toggleDrone(self, fitID, i): fit = eos.db.getFit(fitID) d = fit.drones[i] if d.amount == d.amountActive: d.amountActive = 0 else: d.amountActive = d.amount eos.db.commit() self.recalc(fit) return True def toggleImplant(self, fitID, i): fit = eos.db.getFit(fitID) implant = fit.implants[i] implant.active = not implant.active eos.db.commit() self.recalc(fit) return True def toggleBooster(self, fitID, i): fit = eos.db.getFit(fitID) booster = fit.boosters[i] booster.active = not booster.active eos.db.commit() self.recalc(fit) return True def changeChar(self, fitID, charID): if fitID is None or charID is None: if charID is not None: self.character = Character.getInstance().all5() return fit = eos.db.getFit(fitID) fit.character = self.character = eos.db.getCharacter(charID) self.recalc(fit) def isAmmo(self, itemID): return eos.db.getItem(itemID).category.name == "Charge" def setAmmo(self, fitID, ammoID, modules): if fitID is None: return fit = eos.db.getFit(fitID) ammo = eos.db.getItem(ammoID) if ammoID else None for mod in modules: if mod.isValidCharge(ammo): mod.charge = ammo self.recalc(fit) def getDamagePattern(self, fitID): if fitID is None: return fit = eos.db.getFit(fitID) return fit.damagePattern def setDamagePattern(self, fitID, pattern): if fitID is None: return fit = eos.db.getFit(fitID) fit.damagePattern = self.pattern = pattern eos.db.commit() self.recalc(fit) def setAsPattern(self, fitID, ammo): if fitID is None: return sDP = DamagePattern.getInstance() dp = sDP.getDamagePattern("Selected Ammo") if dp is None: dp = eos.types.DamagePattern() dp.name = "Selected Ammo" fit = eos.db.getFit(fitID) for attr in ("em", "thermal", "kinetic", "explosive"): setattr(dp, "%sAmount" % attr, ammo.getAttribute("%sDamage" % attr)) fit.damagePattern = dp self.recalc(fit) def exportFit(self, fitID): fit = eos.db.getFit(fitID) return fit.exportEft() def exportEftImps(self, fitID): fit = eos.db.getFit(fitID) return fit.exportEftImps() def exportDna(self, fitID): fit = eos.db.getFit(fitID) return fit.exportDna() def exportXml(self, *fitIDs): fits = map(lambda id: eos.db.getFit(id), fitIDs) return eos.types.Fit.exportXml(*fits) def backupFits(self, path, callback): thread = FitBackupThread(path, callback) thread.start() def importFitsThreaded(self, paths, callback): thread = FitImportThread(paths, callback) thread.start() def importFit(self, path): filename = os.path.split(path)[1] defcodepage = locale.getpreferredencoding() file = open(path, "r") srcString = file.read() # If file had ANSI encoding, convert it to unicode using system # default codepage, or use fallback cp1252 on any encoding errors if isinstance(srcString, str): try: srcString = unicode(srcString, defcodepage) except UnicodeDecodeError: srcString = unicode(srcString, "cp1252") type, fits = eos.types.Fit.importAuto(srcString, filename) for fit in fits: fit.character = self.character fit.damagePattern = self.pattern return fits def importFitFromBuffer(self, buffer): type,fits = eos.types.Fit.importAuto(buffer) for fit in fits: fit.character = self.character fit.damagePattern = self.pattern return fits def saveImportedFits(self, fits): IDs = [] for fit in fits: eos.db.save(fit) IDs.append(fit.ID) return IDs def checkStates(self, fit, base): changed = False for mod in fit.modules: if mod != base: if not mod.canHaveState(mod.state): mod.state = State.ONLINE changed = True for mod in fit.projectedModules: if not mod.canHaveState(mod.state, fit): mod.state = State.OFFLINE changed = True for drone in fit.projectedDrones: if drone.amountActive > 0 and not drone.canBeApplied(fit): drone.amountActive = 0 changed = True return changed def toggleModulesState(self, fitID, base, modules, click): proposedState = self.__getProposedState(base, click) if proposedState != base.state: base.state = proposedState for mod in modules: if mod != base: mod.state = self.__getProposedState(mod, click, proposedState) eos.db.commit() fit = eos.db.getFit(fitID) # As some items may affect state-limiting attributes of the ship, calculate new attributes first self.recalc(fit) # Then, check states of all modules and change where needed changed = self.checkStates(fit, base) # If any state was changed, recalulate attributes again if changed is True: self.recalc(fit) # Old state : New State localMap = {State.OVERHEATED: State.ACTIVE, State.ACTIVE: State.ONLINE, State.OFFLINE: State.ONLINE, State.ONLINE: State.ACTIVE} projectedMap = {State.OVERHEATED: State.ACTIVE, State.ACTIVE: State.OFFLINE, State.OFFLINE: State.ACTIVE, State.ONLINE: State.ACTIVE} # Just in case def __getProposedState(self, mod, click, proposedState=None): if mod.slot in (Slot.RIG, Slot.SUBSYSTEM) or mod.isEmpty: return State.ONLINE currState = state = mod.state transitionMap = self.projectedMap if mod.projected else self.localMap if proposedState is not None: state = proposedState elif click == "right": state = State.OVERHEATED elif click == "ctrl": state = State.OFFLINE else: state = transitionMap[currState] if not mod.isValidState(state): state =- 1 if mod.isValidState(state): return state else: return currState def refreshFit(self, fitID): if fitID is None: return None fit = eos.db.getFit(fitID) eos.db.commit() self.recalc(fit) def recalc(self, fit, withBoosters=False): if fit.factorReload is not self.serviceFittingOptions["useGlobalForceReload"]: fit.factorReload = self.serviceFittingOptions["useGlobalForceReload"] fit.clear() fit.calculateModifiedAttributes(withBoosters=withBoosters, dirtyStorage=self.dirtyFitIDs)