pyfa/efs_stat_export.py

import inspect
import os
import platform
import re
import sys
import traceback
from math import log

import eos.db

import json
from service.fit import Fit
from service.market import Market
from eos.enum import Enum
from eos.saveddata.module import Hardpoint, Slot, Module
from eos.saveddata.drone import Drone
from eos.effectHandlerHelpers import HandledList
from eos.db import gamedata_session, getItemsByCategory, getCategory, getAttributeInfo, getGroup
from eos.gamedata import Category, Group, Item, Traits, Attribute, Effect, ItemEffect

eos.db.saveddata_meta.create_all()


class RigSize(Enum):
    # Matches to item attribute 'rigSize' on ship and rig items
    SMALL = 1
    MEDIUM = 2
    LARGE = 3
    CAPITAL = 4


def attrDirectMap(values, target, source):
    for val in values:
        target[val] = source.itemModifiedAttributes[val]


def getT2MwdSpeed(fit, fitL):
    fitID = fit.ID
    propID = None
    shipHasMedSlots = fit.ship.itemModifiedAttributes['medSlots'] > 0
    shipPower = fit.ship.itemModifiedAttributes['powerOutput']
    # Monitors have a 99% reduction to prop mod power requirements
    if fit.ship.name == 'Monitor':
        shipPower *= 100
    rigSize = fit.ship.itemModifiedAttributes['rigSize']
    if not shipHasMedSlots:
        return None

    filterVal = Item.groupID == getGroup('Propulsion Module').ID
    propMods = gamedata_session.query(Item).options().filter(filterVal).all()
    mapPropData = lambda propName: \
                  next(map(lambda propMod: {'id': propMod.typeID, 'powerReq': propMod.attributes['power'].value},
                           (filter(lambda mod: mod.name == propName, propMods))))
    mwd5mn = mapPropData('5MN Microwarpdrive II')
    mwd50mn = mapPropData('50MN Microwarpdrive II')
    mwd500mn = mapPropData('500MN Microwarpdrive II')
    mwd50000mn = mapPropData('50000MN Microwarpdrive II')
    if rigSize == RigSize.SMALL or rigSize is None:
        propID = mwd5mn['id'] if shipPower > mwd5mn['powerReq'] else None
    elif rigSize == RigSize.MEDIUM:
        propID = mwd50mn['id'] if shipPower > mwd50mn['powerReq'] else mwd5mn['id']
    elif rigSize == RigSize.LARGE:
        propID = mwd500mn['id'] if shipPower > mwd500mn['powerReq'] else mwd50mn['id']
    elif rigSize == RigSize.CAPITAL:
        propID = mwd50000mn['id'] if shipPower > mwd50000mn['powerReq'] else mwd500mn['id']

    if propID is None:
        return None
    fitL.appendModule(fitID, propID)
    fitL.recalc(fit)
    fit = eos.db.getFit(fitID)
    mwdPropSpeed = fit.maxSpeed
    mwdPosition = list(filter(lambda mod: mod.item and mod.item.ID == propID, fit.modules))[0].position
    fitL.removeModule(fitID, mwdPosition)
    fitL.recalc(fit)
    fit = eos.db.getFit(fitID)
    return mwdPropSpeed


def getPropData(fit, fitL):
    fitID = fit.ID
    propGroupId = getGroup('Propulsion Module').ID
    propMods = filter(lambda mod: mod.item and mod.item.groupID == propGroupId, fit.modules)
    activePropWBloomFilter = lambda mod: mod.state > 0 and 'signatureRadiusBonus' in mod.item.attributes
    propWithBloom = next(filter(activePropWBloomFilter, propMods), None)
    if propWithBloom is not None:
        oldPropState = propWithBloom.state
        propWithBloom.state = 0
        fitL.recalc(fit)
        fit = eos.db.getFit(fitID)
        sp = fit.maxSpeed
        sig = fit.ship.itemModifiedAttributes['signatureRadius']
        propWithBloom.state = oldPropState
        fitL.recalc(fit)
        fit = eos.db.getFit(fitID)
        return {'usingMWD': True, 'unpropedSpeed': sp, 'unpropedSig': sig}
    return {
        'usingMWD': False,
        'unpropedSpeed': fit.maxSpeed,
        'unpropedSig': fit.ship.itemModifiedAttributes['signatureRadius']
    }


def getOutgoingProjectionData(fit):
    # This is a subset of module groups capable of projection and a superset of those currently used by efs
    modGroupNames = [
        'Remote Shield Booster', 'Warp Scrambler', 'Stasis Web', 'Remote Capacitor Transmitter',
        'Energy Nosferatu', 'Energy Neutralizer', 'Burst Jammer', 'ECM', 'Sensor Dampener',
        'Weapon Disruptor', 'Remote Armor Repairer', 'Target Painter', 'Remote Hull Repairer',
        'Burst Projectors', 'Warp Disrupt Field Generator', 'Armor Resistance Shift Hardener',
        'Target Breaker', 'Micro Jump Drive', 'Ship Modifiers', 'Stasis Grappler',
        'Ancillary Remote Shield Booster', 'Ancillary Remote Armor Repairer',
        'Titan Phenomena Generator', 'Non-Repeating Hardeners'
    ]
    modGroupIds = list(map(lambda s: getGroup(s).ID, modGroupNames))
    modGroupData = dict(map(lambda name, gid: (name, {'name': name, 'id': gid}),
                                modGroupNames, modGroupIds))
    projectedMods = list(filter(lambda mod: mod.item and mod.item.groupID in modGroupIds, fit.modules))
    projections = []
    for mod in projectedMods:
        stats = {}
        if mod.item.groupID in [modGroupData['Stasis Web']['id'], modGroupData['Stasis Grappler']['id']]:
            stats['type'] = 'Stasis Web'
            stats['optimal'] = mod.itemModifiedAttributes['maxRange']
            attrDirectMap(['duration', 'speedFactor'], stats, mod)
        elif mod.item.groupID == modGroupData['Weapon Disruptor']['id']:
            stats['type'] = 'Weapon Disruptor'
            stats['optimal'] = mod.itemModifiedAttributes['maxRange']
            stats['falloff'] = mod.itemModifiedAttributes['falloffEffectiveness']
            attrDirectMap([
                'trackingSpeedBonus', 'maxRangeBonus', 'falloffBonus', 'aoeCloudSizeBonus',
                'aoeVelocityBonus', 'missileVelocityBonus', 'explosionDelayBonus'
            ], stats, mod)
        elif mod.item.groupID == modGroupData['Energy Nosferatu']['id']:
            stats['type'] = 'Energy Nosferatu'
            attrDirectMap(['powerTransferAmount', 'energyNeutralizerSignatureResolution'], stats, mod)
        elif mod.item.groupID == modGroupData['Energy Neutralizer']['id']:
            stats['type'] = 'Energy Neutralizer'
            attrDirectMap([
                'energyNeutralizerSignatureResolution', 'entityCapacitorLevelModifierSmall',
                'entityCapacitorLevelModifierMedium', 'entityCapacitorLevelModifierLarge',
                'energyNeutralizerAmount'
            ], stats, mod)
        elif mod.item.groupID in [modGroupData['Remote Shield Booster']['id'],
                                  modGroupData['Ancillary Remote Shield Booster']['id']]:
            stats['type'] = 'Remote Shield Booster'
            attrDirectMap(['shieldBonus'], stats, mod)
        elif mod.item.groupID in [modGroupData['Remote Armor Repairer']['id'],
                                  modGroupData['Ancillary Remote Armor Repairer']['id']]:
            stats['type'] = 'Remote Armor Repairer'
            attrDirectMap(['armorDamageAmount'], stats, mod)
        elif mod.item.groupID == modGroupData['Warp Scrambler']['id']:
            stats['type'] = 'Warp Scrambler'
            attrDirectMap(['activationBlockedStrenght', 'warpScrambleStrength'], stats, mod)
        elif mod.item.groupID == modGroupData['Target Painter']['id']:
            stats['type'] = 'Target Painter'
            attrDirectMap(['signatureRadiusBonus'], stats, mod)
        elif mod.item.groupID == modGroupData['Sensor Dampener']['id']:
            stats['type'] = 'Sensor Dampener'
            attrDirectMap(['maxTargetRangeBonus', 'scanResolutionBonus'], stats, mod)
        elif mod.item.groupID == modGroupData['ECM']['id']:
            stats['type'] = 'ECM'
            attrDirectMap([
                'scanGravimetricStrengthBonus', 'scanMagnetometricStrengthBonus',
                'scanRadarStrengthBonus', 'scanLadarStrengthBonus',
            ], stats, mod)
        elif mod.item.groupID == modGroupData['Burst Jammer']['id']:
            stats['type'] = 'Burst Jammer'
            mod.itemModifiedAttributes['maxRange'] = mod.itemModifiedAttributes['ecmBurstRange']
            attrDirectMap([
                'scanGravimetricStrengthBonus', 'scanMagnetometricStrengthBonus',
                'scanRadarStrengthBonus', 'scanLadarStrengthBonus',
            ], stats, mod)
        elif mod.item.groupID == modGroupData['Micro Jump Drive']['id']:
            stats['type'] = 'Micro Jump Drive'
            mod.itemModifiedAttributes['maxRange'] = 0
            attrDirectMap(['moduleReactivationDelay'], stats, mod)
        if mod.itemModifiedAttributes['maxRange'] is None:
            print(mod.item.name)
            print(mod.itemModifiedAttributes.items())
            raise ValueError('Projected module lacks a maxRange')
        stats['optimal'] = mod.itemModifiedAttributes['maxRange']
        stats['falloff'] = mod.itemModifiedAttributes['falloffEffectiveness'] or 0
        attrDirectMap(['duration', 'capacitorNeed'], stats, mod)
        projections.append(stats)
    return projections


def getModuleNames(fit):
    moduleNames = []
    highSlotNames = []
    midSlotNames = []
    lowSlotNames = []
    rigSlotNames = []
    miscSlotNames = []  # subsystems ect
    for mod in fit.modules:
        if mod.slot == 3:
            modSlotNames = highSlotNames
        elif mod.slot == 2:
            modSlotNames = midSlotNames
        elif mod.slot == 1:
            modSlotNames = lowSlotNames
        elif mod.slot == 4:
            modSlotNames = rigSlotNames
        elif mod.slot == 5:
            modSlotNames = miscSlotNames
        try:
            if mod.item is not None:
                if mod.charge is not None:
                    modSlotNames.append(mod.item.name + ':  ' + mod.charge.name)
                else:
                    modSlotNames.append(mod.item.name)
            else:
                modSlotNames.append('Empty Slot')
        except:
            print(vars(mod))
            print('could not find name for module')
            print(fit.modules)
    for modInfo in [
        ['High Slots:'], highSlotNames, ['', 'Med Slots:'], midSlotNames,
        ['', 'Low Slots:'], lowSlotNames, ['', 'Rig Slots:'], rigSlotNames
    ]:
        moduleNames.extend(modInfo)

    if len(miscSlotNames) > 0:
        moduleNames.append('')
        moduleNames.append('Subsystems:')
        moduleNames.extend(miscSlotNames)
    droneNames = []
    fighterNames = []
    for drone in fit.drones:
        if drone.amountActive > 0:
            droneNames.append("%s x%s" % (drone.item.name, drone.amount))
    for fighter in fit.fighters:
        if fighter.amountActive > 0:
            fighterNames.append("%s x%s" % (fighter.item.name, fighter.amountActive))
    if len(droneNames) > 0:
        moduleNames.append('')
        moduleNames.append('Drones:')
        moduleNames.extend(droneNames)
    if len(fighterNames) > 0:
        moduleNames.append('')
        moduleNames.append('Fighters:')
        moduleNames.extend(fighterNames)
    if len(fit.implants) > 0:
        moduleNames.append('')
        moduleNames.append('Implants:')
        for implant in fit.implants:
            moduleNames.append(implant.item.name)
    if len(fit.commandFits) > 0:
        moduleNames.append('')
        moduleNames.append('Command Fits:')
        for commandFit in fit.commandFits:
            moduleNames.append(commandFit.name)
    return moduleNames


def getFighterAbilityData(fighterAttr, fighter, baseRef):
    baseRefDam = baseRef + 'Damage'
    abilityName = 'RegularAttack' if baseRef == 'fighterAbilityAttackMissile' else 'MissileAttack'
    rangeSuffix = 'RangeOptimal' if baseRef == 'fighterAbilityAttackMissile' else 'Range'
    reductionRef = baseRef if baseRef == 'fighterAbilityAttackMissile' else baseRefDam
    damageReductionFactor = log(fighterAttr[reductionRef + 'ReductionFactor']) / log(fighterAttr[reductionRef + 'ReductionSensitivity'])
    damTypes = ['EM', 'Therm', 'Exp', 'Kin']
    abBaseDamage = sum(map(lambda damType: fighterAttr[baseRefDam + damType], damTypes))
    abDamage = abBaseDamage * fighterAttr[baseRefDam + 'Multiplier']
    return {
        'name': abilityName, 'volley': abDamage * fighter.amountActive, 'explosionRadius': fighterAttr[baseRef + 'ExplosionRadius'],
        'explosionVelocity': fighterAttr[baseRef + 'ExplosionVelocity'], 'optimal': fighterAttr[baseRef + rangeSuffix],
        'damageReductionFactor': damageReductionFactor, 'rof': fighterAttr[baseRef + 'Duration'],
    }


def getWeaponSystemData(fit):
    weaponSystems = []
    groups = {}
    for mod in fit.modules:
        if mod.dps > 0:
            # Group weapon + ammo combinations that occur more than once
            keystr = str(mod.itemID) + '-' + str(mod.chargeID)
            if keystr in groups:
                groups[keystr][1] += 1
            else:
                groups[keystr] = [mod, 1]
    for wepGroup in groups.values():
        stats = wepGroup[0]
        n = wepGroup[1]
        tracking = 0
        maxVelocity = 0
        explosionDelay = 0
        damageReductionFactor = 0
        explosionRadius = 0
        explosionVelocity = 0
        aoeFieldRange = 0
        if stats.hardpoint == Hardpoint.TURRET:
            tracking = stats.itemModifiedAttributes['trackingSpeed']
            typeing = 'Turret'
            name = stats.item.name + ', ' + stats.charge.name
        # Bombs share most attributes with missiles despite not needing the hardpoint
        elif stats.hardpoint == Hardpoint.MISSILE or 'Bomb Launcher' in stats.item.name:
            maxVelocity = stats.chargeModifiedAttributes['maxVelocity']
            explosionDelay = stats.chargeModifiedAttributes['explosionDelay']
            damageReductionFactor = stats.chargeModifiedAttributes['aoeDamageReductionFactor']
            explosionRadius = stats.chargeModifiedAttributes['aoeCloudSize']
            explosionVelocity = stats.chargeModifiedAttributes['aoeVelocity']
            typeing = 'Missile'
            name = stats.item.name + ', ' + stats.charge.name
        elif stats.hardpoint == Hardpoint.NONE:
            aoeFieldRange = stats.itemModifiedAttributes['empFieldRange']
            # This also covers non-bomb weapons with dps values and no hardpoints, most notably targeted doomsdays.
            typeing = 'SmartBomb'
            name = stats.item.name
        statDict = {
            'dps': stats.dps * n, 'capUse': stats.capUse * n, 'falloff': stats.falloff,
            'type': typeing, 'name': name, 'optimal': stats.maxRange,
            'numCharges': stats.numCharges, 'numShots': stats.numShots, 'reloadTime': stats.reloadTime,
            'cycleTime': stats.cycleTime, 'volley': stats.volley * n, 'tracking': tracking,
            'maxVelocity': maxVelocity, 'explosionDelay': explosionDelay, 'damageReductionFactor': damageReductionFactor,
            'explosionRadius': explosionRadius, 'explosionVelocity': explosionVelocity, 'aoeFieldRange': aoeFieldRange
        }
        weaponSystems.append(statDict)
    for drone in fit.drones:
        if drone.dps[0] > 0 and drone.amountActive > 0:
            droneAttr = drone.itemModifiedAttributes
            # Drones are using the old tracking formula for trackingSpeed. This updates it to match turrets.
            newTracking = droneAttr['trackingSpeed'] / (droneAttr['optimalSigRadius'] / 40000)
            statDict = {
                'dps': drone.dps[0], 'cycleTime': drone.cycleTime, 'type': 'Drone',
                'optimal': drone.maxRange, 'name': drone.item.name, 'falloff': drone.falloff,
                'maxSpeed': droneAttr['maxVelocity'], 'tracking': newTracking,
                'volley': drone.dps[1]
            }
            weaponSystems.append(statDict)
    for fighter in fit.fighters:
        if fighter.dps[0] > 0 and fighter.amountActive > 0:
            fighterAttr = fighter.itemModifiedAttributes
            abilities = []
            if 'fighterAbilityAttackMissileDamageEM' in fighterAttr:
                baseRef = 'fighterAbilityAttackMissile'
                ability = getFighterAbilityData(fighterAttr, fighter, baseRef)
                abilities.append(ability)
            if 'fighterAbilityMissilesDamageEM' in fighterAttr:
                baseRef = 'fighterAbilityMissiles'
                ability = getFighterAbilityData(fighterAttr, fighter, baseRef)
                abilities.append(ability)
            statDict = {
                'dps': fighter.dps[0], 'type': 'Fighter', 'name': fighter.item.name,
                'maxSpeed': fighterAttr['maxVelocity'], 'abilities': abilities,
                'ehp': fighterAttr['shieldCapacity'] / 0.8875 * fighter.amountActive,
                'volley': fighter.dps[1], 'signatureRadius': fighterAttr['signatureRadius']
            }
            weaponSystems.append(statDict)
    return weaponSystems


wepTestSet = {}


def getTestSet(setType):
    def GetT2ItemsWhere(additionalFilter, mustBeOffensive=False, category='Module'):
        # Used to obtain a smaller subset of items while still containing examples of each group.
        T2_META_LEVEL = 5
        metaLevelAttrID = getAttributeInfo('metaLevel').attributeID
        categoryID = getCategory(category).categoryID
        result = gamedata_session.query(Item).join(ItemEffect, Group, Attribute).\
                  filter(
                      additionalFilter,
                      Attribute.attributeID == metaLevelAttrID,
                      Attribute.value == T2_META_LEVEL,
                      Group.categoryID == categoryID,
                  ).all()
        if mustBeOffensive:
            result = filter(lambda t: t.offensive is True, result)
        return list(result)

    def getChargeType(item, setType):
        if setType == 'turret':
            return str(item.attributes['chargeGroup1'].value) + '-' + str(item.attributes['chargeSize'].value)
        return str(item.attributes['chargeGroup1'].value)

    if setType in wepTestSet.keys():
        return wepTestSet[setType]
    else:
        wepTestSet[setType] = []
    modSet = wepTestSet[setType]

    if setType == 'drone':
        ilist = GetT2ItemsWhere(True, True, 'Drone')
        for item in ilist:
            drone = Drone(item)
            drone.amount = 1
            drone.amountActive = 1
            drone.itemModifiedAttributes.parent = drone
            modSet.append(drone)
        return modSet

    turretFittedEffectID = gamedata_session.query(Effect).filter(Effect.name == 'turretFitted').first().effectID
    launcherFittedEffectID = gamedata_session.query(Effect).filter(Effect.name == 'launcherFitted').first().effectID
    if setType == 'launcher':
        effectFilter = ItemEffect.effectID == launcherFittedEffectID
        reqOff = False
    else:
        effectFilter = ItemEffect.effectID == turretFittedEffectID
        reqOff = True
    ilist = GetT2ItemsWhere(effectFilter, reqOff)
    previousChargeTypes = []
    # Get modules from item list
    for item in ilist:
        chargeType = getChargeType(item, setType)
        # Only add turrets if we don't already have one with the same size and ammo type.
        if setType == 'launcher' or chargeType not in previousChargeTypes:
            previousChargeTypes.append(chargeType)
            mod = Module(item)
            modSet.append(mod)

    mkt = Market.getInstance()
    # Due to typed missile damage bonuses we'll need to add extra launchers to cover all four types.
    additionalLaunchers = []
    for mod in modSet:
        clist = list(gamedata_session.query(Item).options().
                filter(Item.groupID == mod.itemModifiedAttributes['chargeGroup1']).all())
        mods = [mod]
        charges = [clist[0]]
        if setType == 'launcher':
            # We don't want variations of missiles we already have
            prevCharges = list(mkt.getVariationsByItems(charges))
            testCharges = []
            for charge in clist:
                if charge not in prevCharges:
                    testCharges.append(charge)
                    prevCharges += mkt.getVariationsByItems([charge])
            for c in testCharges:
                charges.append(c)
                additionalLauncher = Module(mod.item)
                mods.append(additionalLauncher)
        for i in range(len(mods)):
            mods[i].charge = charges[i]
            mods[i].reloadForce = True
            mods[i].state = 2
            if setType == 'launcher' and i > 0:
                additionalLaunchers.append(mods[i])
    modSet += additionalLaunchers
    return modSet


def getWeaponBonusMultipliers(fit):
    def sumDamage(attr):
        totalDamage = 0
        for damageType in ['emDamage', 'thermalDamage', 'kineticDamage', 'explosiveDamage']:
            if attr[damageType] is not None:
                totalDamage += attr[damageType]
        return totalDamage

    def getCurrentMultipliers(tf):
        fitMultipliers = {}
        getDroneMulti = lambda d: sumDamage(d.itemModifiedAttributes) * d.itemModifiedAttributes['damageMultiplier']
        fitMultipliers['drones'] = list(map(getDroneMulti, tf.drones))

        getFitTurrets = lambda f: filter(lambda mod: mod.hardpoint == Hardpoint.TURRET, f.modules)
        getTurretMulti = lambda mod: mod.itemModifiedAttributes['damageMultiplier'] / mod.cycleTime
        fitMultipliers['turrets'] = list(map(getTurretMulti, getFitTurrets(tf)))

        getFitLaunchers = lambda f: filter(lambda mod: mod.hardpoint == Hardpoint.MISSILE, f.modules)
        getLauncherMulti = lambda mod: sumDamage(mod.chargeModifiedAttributes) / mod.cycleTime
        fitMultipliers['launchers'] = list(map(getLauncherMulti, getFitLaunchers(tf)))
        return fitMultipliers

    multipliers = {'turret': 1, 'launcher': 1, 'droneBandwidth': 1}
    drones = getTestSet('drone')
    launchers = getTestSet('launcher')
    turrets = getTestSet('turret')
    for weaponTypeSet in [turrets, launchers, drones]:
        for mod in weaponTypeSet:
            mod.owner = fit
    turrets = list(filter(lambda mod: mod.itemModifiedAttributes['damageMultiplier'], turrets))
    launchers = list(filter(lambda mod: sumDamage(mod.chargeModifiedAttributes), launchers))
    # Since the effect modules are fairly opaque a mock test fit is used to test the impact of traits.
    tf = Fit.getInstance()
    tf.modules = HandledList(turrets + launchers)
    tf.character = fit.character
    tf.ship = fit.ship
    tf.drones = HandledList(drones)
    tf.fighters = HandledList([])
    tf.boosters = HandledList([])
    tf.extraAttributes = fit.extraAttributes
    tf.mode = fit.mode
    preTraitMultipliers = getCurrentMultipliers(tf)
    for effect in fit.ship.item.effects.values():
        if effect._Effect__effectModule is not None:
            effect.handler(tf, tf.ship, [])
    # Factor in mode effects for T3 Destroyers
    if fit.mode is not None:
        for effect in fit.mode.item.effects.values():
            if effect._Effect__effectModule is not None:
                effect.handler(tf, fit.mode, [])
    if fit.ship.item.groupID == getGroup('Strategic Cruiser').ID:
        subSystems = list(filter(lambda mod: mod.slot == Slot.SUBSYSTEM and mod.item, fit.modules))
        for sub in subSystems:
            for effect in sub.item.effects.values():
                if effect._Effect__effectModule is not None:
                    effect.handler(tf, sub, [])
    postTraitMultipliers = getCurrentMultipliers(tf)
    getMaxRatio = lambda dictA, dictB, key: max(map(lambda a, b: b / a, dictA[key], dictB[key]))
    multipliers['turret'] = round(getMaxRatio(preTraitMultipliers, postTraitMultipliers, 'turrets'), 6)
    multipliers['launcher'] = round(getMaxRatio(preTraitMultipliers, postTraitMultipliers, 'launchers'), 6)
    multipliers['droneBandwidth'] = round(getMaxRatio(preTraitMultipliers, postTraitMultipliers, 'drones'), 6)
    tf.recalc(fit)
    return multipliers


def getShipSize(groupID):
    # Size groupings are somewhat arbitrary but allow for a more managable number of top level groupings in a tree structure.
    frigateGroupNames = ['Frigate', 'Shuttle', 'Corvette', 'Assault Frigate', 'Covert Ops', 'Interceptor',
                         'Stealth Bomber', 'Electronic Attack Ship', 'Expedition Frigate', 'Logistics Frigate']
    destroyerGroupNames = ['Destroyer', 'Interdictor', 'Tactical Destroyer', 'Command Destroyer']
    cruiserGroupNames = ['Cruiser', 'Heavy Assault Cruiser', 'Logistics', 'Force Recon Ship',
                         'Heavy Interdiction Cruiser', 'Combat Recon Ship', 'Strategic Cruiser']
    bcGroupNames = ['Combat Battlecruiser', 'Command Ship', 'Attack Battlecruiser']
    bsGroupNames = ['Battleship', 'Elite Battleship', 'Black Ops', 'Marauder']
    capitalGroupNames = ['Titan', 'Dreadnought', 'Freighter', 'Carrier', 'Supercarrier',
                         'Capital Industrial Ship', 'Jump Freighter', 'Force Auxiliary']
    indyGroupNames = ['Industrial', 'Deep Space Transport', 'Blockade Runner',
                      'Mining Barge', 'Exhumer', 'Industrial Command Ship']
    miscGroupNames = ['Capsule', 'Prototype Exploration Ship']
    shipSizes = [
        {'name': 'Frigate', 'groupIDs': map(lambda s: getGroup(s).ID, frigateGroupNames)},
        {'name': 'Destroyer', 'groupIDs': map(lambda s: getGroup(s).ID, destroyerGroupNames)},
        {'name': 'Cruiser', 'groupIDs': map(lambda s: getGroup(s).ID, cruiserGroupNames)},
        {'name': 'Battlecruiser', 'groupIDs': map(lambda s: getGroup(s).ID, bcGroupNames)},
        {'name': 'Battleship', 'groupIDs': map(lambda s: getGroup(s).ID, bsGroupNames)},
        {'name': 'Capital', 'groupIDs': map(lambda s: getGroup(s).ID, capitalGroupNames)},
        {'name': 'Industrial', 'groupIDs': map(lambda s: getGroup(s).ID, indyGroupNames)},
        {'name': 'Misc', 'groupIDs': map(lambda s: getGroup(s).ID, miscGroupNames)}
    ]
    for size in shipSizes:
        if groupID in size['groupIDs']:
            return size['name']
    sizeNotFoundMsg = 'ShipSize not found for groupID: ' + str(groupID)
    print(sizeNotFoundMsg)
    return sizeNotFoundMsg


def parseNeededFitDetails(fit, groupID):
    includeShipTypeData = groupID > 0
    fitID = fit.ID
    if includeShipTypeData:
        fitName = fit.name
    else:
        fitName = fit.ship.name + ': ' + fit.name
    print('')
    print('name: ' + fit.name)
    fitL = Fit.getInstance()
    fitL.recalc(fit)
    fit = eos.db.getFit(fitID)
    fitModAttr = fit.ship.itemModifiedAttributes
    propData = getPropData(fit, fitL)
    mwdPropSpeed = fit.maxSpeed
    if includeShipTypeData:
        mwdPropSpeed = getT2MwdSpeed(fit, fitL)
    projections = getOutgoingProjectionData(fit)
    moduleNames = getModuleNames(fit)
    weaponSystems = getWeaponSystemData(fit)

    turretSlots = fitModAttr['turretSlotsLeft'] if fitModAttr['turretSlotsLeft'] is not None else 0
    launcherSlots = fitModAttr['launcherSlotsLeft'] if fitModAttr['launcherSlotsLeft'] is not None else 0
    droneBandwidth = fitModAttr['droneBandwidth'] if fitModAttr['droneBandwidth'] is not None else 0
    weaponBonusMultipliers = getWeaponBonusMultipliers(fit)
    effectiveTurretSlots = round(turretSlots * weaponBonusMultipliers['turret'], 2)
    effectiveLauncherSlots = round(launcherSlots * weaponBonusMultipliers['launcher'], 2)
    effectiveDroneBandwidth = round(droneBandwidth * weaponBonusMultipliers['droneBandwidth'], 2)
    # Assume a T2 siege module for dreads
    if groupID == getGroup('Dreadnought').ID:
        effectiveTurretSlots *= 9.4
        effectiveLauncherSlots *= 15
    hullResonance = {
        'exp': fitModAttr['explosiveDamageResonance'], 'kin': fitModAttr['kineticDamageResonance'],
        'therm': fitModAttr['thermalDamageResonance'], 'em': fitModAttr['emDamageResonance']
    }
    armorResonance = {
        'exp': fitModAttr['armorExplosiveDamageResonance'], 'kin': fitModAttr['armorKineticDamageResonance'],
        'therm': fitModAttr['armorThermalDamageResonance'], 'em': fitModAttr['armorEmDamageResonance']
    }
    shieldResonance = {
        'exp': fitModAttr['shieldExplosiveDamageResonance'], 'kin': fitModAttr['shieldKineticDamageResonance'],
        'therm': fitModAttr['shieldThermalDamageResonance'], 'em': fitModAttr['shieldEmDamageResonance']
    }
    resonance = {'hull': hullResonance, 'armor': armorResonance, 'shield': shieldResonance}
    shipSize = getShipSize(groupID)

    try:
        dataDict = {
            'name': fitName, 'ehp': fit.ehp, 'droneDPS': fit.droneDPS,
            'droneVolley': fit.droneVolley, 'hp': fit.hp, 'maxTargets': fit.maxTargets,
            'maxSpeed': fit.maxSpeed, 'weaponVolley': fit.weaponVolley, 'totalVolley': fit.totalVolley,
            'maxTargetRange': fit.maxTargetRange, 'scanStrength': fit.scanStrength,
            'weaponDPS': fit.weaponDPS, 'alignTime': fit.alignTime, 'signatureRadius': fitModAttr['signatureRadius'],
            'weapons': weaponSystems, 'scanRes': fitModAttr['scanResolution'],
            'projectedModules': fit.projectedModules, 'capUsed': fit.capUsed, 'capRecharge': fit.capRecharge,
            'rigSlots': fitModAttr['rigSlots'], 'lowSlots': fitModAttr['lowSlots'],
            'midSlots': fitModAttr['medSlots'], 'highSlots': fitModAttr['hiSlots'],
            'turretSlots': fitModAttr['turretSlotsLeft'], 'launcherSlots': fitModAttr['launcherSlotsLeft'],
            'powerOutput': fitModAttr['powerOutput'], 'cpuOutput': fitModAttr['cpuOutput'],
            'rigSize': fitModAttr['rigSize'], 'effectiveTurrets': effectiveTurretSlots,
            'effectiveLaunchers': effectiveLauncherSlots, 'effectiveDroneBandwidth': effectiveDroneBandwidth,
            'resonance': resonance, 'typeID': fit.shipID, 'groupID': groupID, 'shipSize': shipSize,
            'droneControlRange': fitModAttr['droneControlRange'], 'mass': fitModAttr['mass'],
            'moduleNames': moduleNames, 'projections': projections,
            'unpropedSpeed': propData['unpropedSpeed'], 'unpropedSig': propData['unpropedSig'],
            'usingMWD': propData['usingMWD'], 'mwdPropSpeed': mwdPropSpeed
        }
    except TypeError:
        print('Error parsing fit:' + str(fit))
        print(TypeError)
        dataDict = {'name': fitName + 'Fit could not be correctly parsed'}
    export = json.dumps(dataDict, skipkeys=True)
    return export