# ============================================================================= # 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 wx from graphs.data.base import FitGraph, Input, InputCheckbox, XDef, YDef from service.const import GraphCacheCleanupReason from .cache import TimeCache from .getter import Distance2RepAmountGetter, Distance2RpsGetter, Time2RepAmountGetter, Time2RpsGetter _t = wx.GetTranslation class FitRemoteRepsGraph(FitGraph): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self._timeCache = TimeCache() def _clearInternalCache(self, reason, extraData): # Here, we care only about fit changes, graph changes and option switches # - Input changes are irrelevant as time cache cares only about # time input, and it regenerates once time goes beyond cached value if reason in (GraphCacheCleanupReason.fitChanged, GraphCacheCleanupReason.fitRemoved): self._timeCache.clearForFit(extraData) elif reason == GraphCacheCleanupReason.graphSwitched: self._timeCache.clearAll() # UI stuff internalName = 'remoteRepsGraph' name = _t('Remote Repairs') xDefs = [ XDef(handle='distance', unit='km', label=_t('Distance'), mainInput=('distance', 'km')), XDef(handle='time', unit='s', label=_t('Time'), mainInput=('time', 's'))] yDefs = [ YDef(handle='rps', unit='HP/s', label=_t('Repair speed')), YDef(handle='total', unit='HP', label=_t('Total repaired'))] inputs = [ Input(handle='time', unit='s', label=_t('Time'), iconID=1392, defaultValue=None, defaultRange=(0, 80), secondaryTooltip=_t('When set, uses repairing ship\'s exact RR stats at a given time\nWhen not set, uses repairing ship\'s RR stats as shown in stats panel of main window')), Input(handle='distance', unit='km', label=_t('Distance'), iconID=1391, defaultValue=None, defaultRange=(0, 100), mainTooltip=_t('Distance between the repairing ship and the target, as seen in overview (surface-to-surface)'), secondaryTooltip=_t('Distance between the repairing ship and the target, as seen in overview (surface-to-surface)'))] srcExtraCols = ('ShieldRR', 'ArmorRR', 'HullRR') checkboxes = [InputCheckbox(handle='ancReload', label=_t('Reload ancillary RRs'), defaultValue=True)] # Calculation stuff _normalizers = {('distance', 'km'): lambda v, src, tgt: None if v is None else v * 1000} _limiters = {'time': lambda src, tgt: (0, 2500)} _getters = { ('distance', 'rps'): Distance2RpsGetter, ('distance', 'total'): Distance2RepAmountGetter, ('time', 'rps'): Time2RpsGetter, ('time', 'total'): Time2RepAmountGetter} _denormalizers = {('distance', 'km'): lambda v, src, tgt: None if v is None else v / 1000}