def readGroundNodesAndGroups(xmlCtx, section):
if section['groundNodes'] is None:
return (component_constants.EMPTY_TUPLE,
component_constants.EMPTY_TUPLE)
else:
groundGroups = []
groundNodes = []
for sname, subsection in _xml.getChildren(xmlCtx, section,
'groundNodes'):
if sname == 'group':
ctx = (xmlCtx, 'groundNodes/group')
group = chassis_components.GroundNodeGroup(
isLeft=_xml.readBool(ctx, subsection, 'isLeft'),
minOffset=_xml.readFloat(ctx, subsection, 'minOffset'),
maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'),
template=intern(
_xml.readNonEmptyString(ctx, subsection, 'template')),
count=_xml.readInt(ctx, subsection, 'count', 1),
startIndex=subsection.readInt('startIndex', 0))
groundGroups.append(group)
if sname == 'node':
ctx = (xmlCtx, 'groundNodes/node')
groundNode = chassis_components.GroundNode(
name=intern(
_xml.readNonEmptyString(ctx, subsection, 'name')),
isLeft=_xml.readBool(ctx, subsection, 'isLeft'),
minOffset=_xml.readFloat(ctx, subsection, 'minOffset'),
maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'))
groundNodes.append(groundNode)
return (tuple(groundGroups), tuple(groundNodes))
def readGroundNodesAndGroups(xmlCtx, section):
"""Reads section 'groundNodes' for each chassis if it has.
:param xmlCtx: tuple(root ctx or None, path to section).
:param section: instance of DataSection.
:return: tuple(sequence of groups, sequence of nodes).
"""
if section['groundNodes'] is None:
return (component_constants.EMPTY_TUPLE,
component_constants.EMPTY_TUPLE)
else:
groundGroups = []
groundNodes = []
for sname, subsection in _xml.getChildren(xmlCtx, section,
'groundNodes'):
if sname == 'group':
ctx = (xmlCtx, 'groundNodes/group')
group = chassis_components.GroundNodeGroup(
isLeft=_xml.readBool(ctx, subsection, 'isLeft'),
minOffset=_xml.readFloat(ctx, subsection, 'minOffset'),
maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'),
template=_xml.readNonEmptyString(ctx, subsection,
'template'),
count=_xml.readInt(ctx, subsection, 'count', 1),
startIndex=subsection.readInt('startIndex', 0))
groundGroups.append(group)
elif sname == 'node':
ctx = (xmlCtx, 'groundNodes/node')
groundNode = chassis_components.GroundNode(
name=_xml.readNonEmptyString(ctx, subsection, 'name'),
isLeft=_xml.readBool(ctx, subsection, 'isLeft'),
minOffset=_xml.readFloat(ctx, subsection, 'minOffset'),
maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'))
groundNodes.append(groundNode)
return (tuple(groundGroups), tuple(groundNodes))
def readGroundNodesAndGroups(xmlCtx, section, cache):
if section['groundNodes'] is None:
return (component_constants.EMPTY_TUPLE,
component_constants.EMPTY_TUPLE,
False,
None)
else:
groundGroups = []
groundNodes = []
for sname, subsection in _xml.getChildren(xmlCtx, section, 'groundNodes'):
if sname == 'group':
ctx = (xmlCtx, 'groundNodes/group')
group = chassis_components.GroundNodeGroup(isLeft=_xml.readBool(ctx, subsection, 'isLeft'), minOffset=_xml.readFloat(ctx, subsection, 'minOffset'), maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'), nodesTemplate=intern(_xml.readNonEmptyString(ctx, subsection, 'template')), affectedWheelsTemplate=_xml.readStringOrNone(ctx, subsection, 'affectedWheelsTemplate'), nodesCount=_xml.readInt(ctx, subsection, 'count', 1), startIndex=subsection.readInt('startIndex', 0), collisionSamplesCount=subsection.readInt('collisionSamplesCount', 1), hasLiftMode=_xml.readBool(ctx, subsection, 'hasLiftMode', False))
groundGroups.append(group)
if sname == 'node':
ctx = (xmlCtx, 'groundNodes/node')
groundNode = chassis_components.GroundNode(nodeName=intern(_xml.readNonEmptyString(ctx, subsection, 'name')), affectedWheelName=_xml.readStringOrEmpty(ctx, subsection, 'affectedWheelName'), isLeft=_xml.readBool(ctx, subsection, 'isLeft'), minOffset=_xml.readFloat(ctx, subsection, 'minOffset'), maxOffset=_xml.readFloat(ctx, subsection, 'maxOffset'), collisionSamplesCount=_xml.readInt(ctx, subsection, 'collisionSamplesCount', 1), hasLiftMode=_xml.readBool(ctx, subsection, 'hasLiftMode', False))
groundNodes.append(groundNode)
activePostmortem = _xml.readBool(xmlCtx, section, 'groundNodes/activePostmortem', False)
lodSettingsSection = section['groundNodes/lodSettings']
if lodSettingsSection is not None:
lodSettings = shared_readers.readLodSettings(xmlCtx, section['groundNodes'], cache)
else:
lodSettings = None
return (tuple(groundGroups),
tuple(groundNodes),
activePostmortem,
lodSettings)
def apply(vDesc, modelDesc, modelsSet):
for key in chassis_params:
obj = copy.deepcopy(modelDesc['chassis'][key])
if key == 'traces':
obj['size'] = tuple(obj['size'])
obj = cc.Traces(**obj)
elif key == 'tracks':
obj = cc.TrackBasicParams(**obj)
elif key == 'wheels':
obj = cc.WheelsConfig(groups=tuple(cc.WheelGroup(**d) for d in obj['groups']),
wheels=tuple(cc.Wheel(**d) for d in obj['wheels']))
elif key == 'groundNodes':
obj = NodesAndGroups(nodes=tuple(cc.GroundNode(**d) for d in obj['nodes']),
groups=tuple(cc.GroundNodeGroup(**d) for d in obj['groups']),
activePostmortem=obj['activePostmortem'], lodSettings=obj['lodSettings'])
elif key == 'trackNodes':
obj = NodesAndGroups(nodes=tuple(cc.TrackNode(**d) for d in obj['nodes']), groups=(),
activePostmortem=obj['activePostmortem'], lodSettings=obj['lodSettings'])
elif key == 'splineDesc':
obj = cc.SplineConfig(({modelsSet: cc.SplineSegmentModelSet(**obj['segmentModelSets'])} or None),
**{k: v for k, v in obj.items() if k != 'segmentModelSets'})
elif key == 'trackSplineParams':
obj = cc.TrackSplineParams(**obj)
elif key == 'leveredSuspension':
if obj is not None:
obj = cc.LeveredSuspensionConfig(([cc.SuspensionLever(**d) for d in obj['levers']] or None),
**{k: v for k, v in obj.items() if k != 'levers'})
setattr(vDesc.chassis, key, obj)
vDesc.chassis.chassisLodDistance = modelDesc['chassis']['chassisLodDistance']
vDesc.chassis.physicalTracks = {}
if modelDesc['chassis']['AODecals']:
AODecalsOffset = vDesc.chassis.hullPosition - Math.Vector3(*modelDesc['chassis']['hullPosition'])
vDesc.chassis.AODecals = copy.deepcopy(modelDesc['chassis']['AODecals'])
vDesc.chassis.AODecals[0].setElement(3, 1, AODecalsOffset.y)
exclMask = modelDesc['common']['camouflage']['exclusionMask']
vDesc.type.camouflage = Camouflage(
modelDesc['common']['camouflage']['tiling'] if exclMask else vDesc.type.camouflage.tiling, exclMask, None, None)
for partName in TankPartNames.ALL:
part = getattr(vDesc, partName)
models = part.modelsSets[modelsSet]
part.modelsSets[modelsSet] = ModelStatesPaths(modelDesc[partName]['undamaged'], models.destroyed, models.exploded)
part.models = part.modelsSets['default']
part.emblemSlots = tuple(modelDesc[partName]['emblemSlots'])
if partName == 'chassis':
continue
camoData = modelDesc[partName]['camouflage']
exclMask = camoData['exclusionMask']
if exclMask:
part.camouflage = Camouflage(camoData['tiling'], exclMask, None, None)
vDesc.gun.drivenJoints = modelDesc['gun']['drivenJoints']
exhaust = modelDesc['hull']['exhaust']
for effectDesc in vDesc.hull.customEffects:
if exhaust['nodes']:
effectDesc.nodes[:] = exhaust['nodes']
effectDesc._selectorDesc = g_cache._customEffects['exhaust'].get(exhaust['pixie'], effectDesc._selectorDesc)
nationID = vDesc.type.id[0]
for partName, cacheName, cacheIDs in (
('chassis', 'chassis', 'chassisIDs'), ('engine', 'engines', 'engineIDs'), ('gun', 'guns', 'gunIDs')):
soundID = modelDesc[partName].get('soundID')
if soundID:
part = getattr(vDesc, partName)
pickFrom = getattr(g_cache, cacheName)(nationID).get(getattr(g_cache, cacheIDs)(nationID).get(soundID))
if pickFrom is not None:
if partName != 'gun':
part.sounds = pickFrom.sounds
else:
part.effects = pickFrom.effects
part.reloadEffect = pickFrom.reloadEffect