def write_gas(self) -> Gas:
node_sections = [Section('t:snode,n:' + snode.guid.to_str_lower(), [
Attribute('bounds_camera', snode.bounds_camera),
Attribute('camera_fade', snode.camera_fade),
Attribute('guid', snode.guid),
Attribute('mesh_guid', Hex(snode.mesh_guid)),
Attribute('nodelevel', snode.nodelevel),
Attribute('nodeobject', snode.nodeobject),
Attribute('nodesection', snode.nodesection),
Attribute('occludes_camera', snode.occludes_camera),
Attribute('occludes_light', snode.occludes_light),
Attribute('texsetabbr', snode.texsetabbr),
] + [Section('door*', [
Attribute('fardoor', door.fardoor),
Attribute('farguid', door.farguid),
Attribute('id', door.id),
]) for door in snode.doors]) for snode in self.nodes]
return Gas([
Section('t:terrain_nodes,n:siege_node_list', [
Attribute('ambient_color', Hex(self.ambient_color)),
Attribute('ambient_intensity', float(self.ambient_intensity)),
Attribute('object_ambient_color', Hex(self.object_ambient_color)),
Attribute('object_ambient_intensity', float(self.object_ambient_intensity)),
Attribute('actor_ambient_color', Hex(self.actor_ambient_color)),
Attribute('actor_ambient_intensity', float(self.actor_ambient_intensity)),
Attribute('targetnode', self.targetnode)
] + node_sections)
])
def to_gas(self) -> Gas:
map_section = Section('t:map,n:map', [
Attribute('name', self.name),
Attribute('screen_name', self.screen_name),
Attribute('description', self.description),
Attribute('dev_only', self.dev_only),
Attribute('timeofday', self.timeofday),
Attribute('use_node_mesh_index', self.use_node_mesh_index),
Attribute('use_player_journal', self.use_player_journal),
Section('camera', [
Attribute('azimuth', self.camera.azimuth),
Attribute('distance', self.camera.distance),
Attribute('position', self.camera.position)
])
])
if self.worlds is not None:
world_sections: list[Section] = []
for name, world in self.worlds.items():
world_sections.append(Section(name, [
Attribute('screen_name', world.screen_name),
Attribute('description', world.description),
Attribute('required_level', str(world.required_level))
]))
map_section.items.append(Section('worlds', world_sections))
map_main_gas = Gas([map_section])
return map_main_gas
def store_start_positions(self):
assert self.start_positions is not None
info_dir = self.gas_dir.get_or_create_subdir('info')
start_group_sections = []
gas_file = info_dir.get_or_create_gas_file('start_positions')
gas_file.gas = Gas([
Section('start_positions', start_group_sections)
])
for sg_name, sg in self.start_positions.start_groups.items():
sp_sections: list = [
Section('start_position', [
Attribute('id', sp.id),
Attribute('position', str(sp.position)),
Section('camera', [
Attribute('azimuth', float(sp.camera.azimuth)),
Attribute('distance', float(sp.camera.distance)),
Attribute('orbit', float(sp.camera.orbit)),
Attribute('position', str(sp.camera.position))
])
]) for sp in sg.start_positions
]
start_group_sections.append(Section('t:start_group,n:' + sg_name, [
Attribute('default', self.start_positions.default == sg_name),
Attribute('description', sg.description),
Attribute('dev_only', sg.dev_only),
Attribute('id', sg.id),
Attribute('screen_name', sg.screen_name)
] + sp_sections))
def store_terrain(self):
# index
mesh_index = self.terrain.get_mesh_index()
mesh_index = {
Hex.parse('0x{:03X}{:05X}'.format(self.data.mesh_range,
mesh_guid)): mesh_name
for mesh_guid, mesh_name in mesh_index.items()
}
self.gas_dir.create_subdir(
'index', {
'node_mesh_index':
Gas([
Section('node_mesh_index', [
Attribute(str(mesh_guid), mesh_name)
for mesh_guid, mesh_name in mesh_index.items()
])
]),
'streamer_node_index':
Gas([
Section('streamer_node_index', [
Attribute('*', node.guid)
for node in self.terrain.nodes
])
])
})
# terrain_nodes
nodes_gas = NodesGas()
nodes_gas.ambient_color = self.terrain.ambient_light.terrain_color
nodes_gas.ambient_intensity = self.terrain.ambient_light.terrain_intensity
nodes_gas.object_ambient_color = self.terrain.ambient_light.object_color
nodes_gas.object_ambient_intensity = self.terrain.ambient_light.object_intensity
nodes_gas.actor_ambient_color = self.terrain.ambient_light.actor_color
nodes_gas.actor_ambient_intensity = self.terrain.ambient_light.actor_intensity
nodes_gas.targetnode = self.terrain.target_node.guid
snodes = list()
for node in self.terrain.nodes:
mesh_guid = Terrain.mesh_index_lookup[node.mesh_name]
mesh_guid = Hex.parse('0x{:03X}{:05X}'.format(
self.data.mesh_range, mesh_guid))
doors = [
Door(door_id, far_node.guid, far_door)
for door_id, (far_node, far_door) in node.doors.items()
]
nodesection = Hex(
node.section if node.section != -1 else 0xffffffff)
nodelevel = Hex(node.section if node.section != -1 else 0xffffffff)
nodeobject = Hex(
node.section if node.section != -1 else 0xffffffff)
snode = SNode(node.guid, mesh_guid, node.texture_set, True, False,
False, True, nodesection, nodelevel, nodeobject,
doors)
snodes.append(snode)
nodes_gas.nodes = snodes
self.gas_dir.create_subdir('terrain_nodes',
{'nodes': nodes_gas.write_gas()})
def make_gas(self) -> Section:
items = []
if self.dev_instance_text is not None:
items.append(Attribute('dev_instance_text',
self.dev_instance_text))
if self.instance_triggers is not None:
items.append(
Section('instance_triggers',
[ti.make_gas() for ti in self.instance_triggers]))
return Section('common', items)
def ensure_north_vector(self):
editor_subdir = self.gas_dir.get_or_create_subdir('editor')
if not editor_subdir.has_gas_file('hotpoints'):
hotpoints_gas = Gas([
Section('hotpoints', [
Section('t:hotpoint_directional,n:' + str(Hex(1)), [
Attribute('direction', '0,0,-1'),
Attribute('id', Hex(1))
])
])
])
editor_subdir.create_gas_file('hotpoints', hotpoints_gas)
def make_gas(self) -> Section:
attrs = []
if self.orientation is not None:
attrs.append(Attribute('orientation', self.orientation))
if self.position is not None:
attrs.append(Attribute('position', self.position))
return Section('placement', attrs)
def to_gas_section(self, is_pos):
return Section('position' if is_pos else 'direction', [
Attribute('node', self.node_guid),
Attribute('x', self.x),
Attribute('y', self.y),
Attribute('z', self.z),
])
def write_gas(self) -> Gas:
se_sections = [
Section(f't:stitch_editor,n:{se.dest_region}', [
Attribute('dest_region', se.dest_region),
Section('node_ids', [
Attribute(
Hex(stitch_id).to_str_lower(), f'{node_guid},{door}')
for stitch_id, (node_guid, door) in se.node_ids.items()
])
]) for se in self.stitch_editors
]
return Gas([
Section('stitch_helper_data', [
Attribute('source_region_guid', Hex(self.source_region_guid)),
Attribute('source_region_name', self.source_region_name),
] + se_sections)
])
def load_templates_rec(self, section: Section):
if section.header.lower().startswith('t:template,'):
template = Template(section)
assert template.name.lower(
) not in self.templates, 'duplicate template name'
self.templates[template.name.lower()] = template
for subsection in section.get_sections():
self.load_templates_rec(subsection)
def make_gas(self) -> Section:
sections = []
if self.aspect is not None:
sections.append(self.aspect.make_gas())
if self.common is not None:
sections.append(self.common.make_gas())
if self.placement is not None:
sections.append(self.placement.make_gas())
return Section(f't:{self.template_name},n:{self.scid}', sections)
def from_gas(cls, decal_section: Section) -> Decal:
assert decal_section.header == 't:decal,n:*'
guid = decal_section.get_attr_value('guid')
texture = decal_section.get_attr_value('texture')
near_plane = decal_section.get_attr_value('near_plane')
far_plane = decal_section.get_attr_value('far_plane')
vertical_meters = decal_section.get_attr_value('vertical_meters')
horizontal_meters = decal_section.get_attr_value('horizontal_meters')
decal_origin = Position.parse(
decal_section.get_attr_value('decal_origin'))
decal_orientation = [
float(x) for x in decal_section.get_attr_value(
'decal_orientation').split(',')
]
lod = decal_section.get_attr_value('lod')
return Decal(guid, texture, near_plane, far_plane, vertical_meters,
horizontal_meters, decal_origin, decal_orientation, lod)
def to_gas(self) -> Section:
return Section('t:decal,n:*', [
Attribute('decal_orientation', ','.join(
[str(x) for x in self.decal_orientation])),
Attribute('decal_origin', str(self.decal_origin)),
Attribute('far_plane', self.far_plane),
Attribute('guid', self.guid),
Attribute('horizontal_meters', self.horizontal_meters),
Attribute('lod', self.lod),
Attribute('near_plane', self.near_plane),
Attribute('texture', self.texture),
Attribute('vertical_meters', self.vertical_meters)
])
def load_profiles(cls, parent_section: Section,
name) -> SingleProfile | ProfileVariants | None:
profiles_section = parent_section.get_section(name)
if profiles_section is None:
return None
profile_attr = profiles_section.get_attr('profile')
if profile_attr is not None:
profile_name = profile_attr.value
return SingleProfile(profile_name)
perlin_name = profiles_section.get_attr_value('perlin').strip()
tx = profiles_section.get_attr_value('tx').strip()
variant_a = cls.load_profiles(profiles_section, 'a')
variant_b = cls.load_profiles(profiles_section, 'b')
return ProfileVariants(variant_a, variant_b, perlin_name, tx)
def __init__(self, section: Section):
self.section = section
[t, n] = section.header.split(',')
assert t.startswith('t:')
assert n.startswith('n:')
gas_obj_type = t[2:]
assert gas_obj_type.lower() == 'template'
self.name: str = n[2:]
specializes = None
specializes_attr = section.get_attr('specializes')
if specializes_attr is not None:
specializes = specializes_attr.value
if specializes.startswith('"') and specializes.endswith('"'):
specializes = specializes[1:-1]
self.specializes: str = specializes
self.parent_template = None
self.child_templates = []
def store_lights(self):
# Note: storing directional / point / spot lights; ambient light is part of terrain.
# prepare
if self.terrain is not None:
target_node = self.terrain.target_node
for light in self.lights:
if isinstance(light, DirectionalLight):
if light.direction.node_guid is None:
light.direction.node_guid = target_node.guid
# store
lights_dir = self.gas_dir.get_or_create_subdir('lights', False)
lights_dir.get_or_create_gas_file('lights').gas = Gas([
Section('lights',
[light.to_gas_section() for light in self.lights])
])
def _to_gas_section(self,
type_name,
direction: PosDir = None,
position: PosDir = None) -> Section:
section = Section(f't:{type_name},n:light_{self.id.to_str_lower()}', [
Attribute('active', self.active),
Attribute('affects_actors', self.affects_actors),
Attribute('affects_items', self.affects_items),
Attribute('affects_terrain', self.affects_terrain),
Attribute('color', self.color),
Attribute('draw_shadow', self.draw_shadow),
Attribute('inner_radius', float(self.inner_radius)),
Attribute('intensity', float(self.intensity)),
Attribute('occlude_geometry', self.occlude_geometry),
Attribute('on_timer', self.on_timer),
Attribute('outer_radius', float(self.outer_radius))
])
if direction is not None:
section.items.append(direction.to_gas_section(False))
if position is not None:
section.items.append(position.to_gas_section(True))
return section
def convert_region(region: Region, nmg: NodeMeshGuids):
index_dir = region.gas_dir.get_subdir('index')
if index_dir.has_gas_file('node_mesh_index'):
return
nodes_file = region.gas_dir.get_subdir('terrain_nodes').get_gas_file(
'nodes')
node_gas = nodes_file.get_gas()
nodes_section: Section = node_gas.items[0]
node_sections = nodes_section.get_sections()
mesh_guid_attrs = [ns.get_attr('mesh_guid') for ns in node_sections]
node_mesh_index = {}
node_mesh_guids = nmg.get_node_mesh_guids()
for mesh_guid_attr in mesh_guid_attrs:
mesh_guid = mesh_guid_attr.value.to_str_lower()
assert mesh_guid in node_mesh_guids, str(
mesh_guid) + ' is not in ' + str(node_mesh_guids)
if mesh_guid not in node_mesh_index:
node_mesh_index[mesh_guid] = Hex(len(node_mesh_index) + 1)
mesh_id = node_mesh_index[mesh_guid]
mesh_guid_attr.value = mesh_id
nodes_file.save()
node_mesh_index_attrs = [
Attribute(mesh_id, node_mesh_guids[mesh_guid])
for mesh_guid, mesh_id in node_mesh_index.items()
]
index_dir.create_gas_file(
'node_mesh_index',
Gas([Section('node_mesh_index', node_mesh_index_attrs)])).save()
region_data = region.get_data()
if region_data.mesh_range == 0:
if 0 < region_data.scid_range < Hex.parse('0x00001000'):
region_data.mesh_range = region_data.scid_range
elif 0 < region_data.id < Hex.parse('0x00001000'):
region_data.mesh_range = region_data.id
if region_data.mesh_range != 0:
region.save()
print(f'Converted region {region.get_name()} to NMI')
def from_gas_section(cls, section: Section):
assert section.has_t_n_header()
type_name, n = section.get_t_n_header()
assert type_name in ['point', 'spot', 'directional']
assert n.startswith('light_')
light: Light = PointLight() if type_name == 'point' else SpotLight(
) if type_name == 'spot' else DirectionalLight()
light.id = Hex.parse(n[6:])
light.active = section.get_attr_value('active')
light.affects_actors = section.get_attr_value('affects_actors')
light.affects_items = section.get_attr_value('affects_items')
light.affects_terrain = section.get_attr_value('affects_terrain')
light.color = Color(section.get_attr_value('color'))
light.draw_shadow = section.get_attr_value('draw_shadow')
light.inner_radius = section.get_attr_value('inner_radius')
light.intensity = section.get_attr_value('intensity')
light.occlude_geometry = section.get_attr_value('occlude_geometry')
light.on_timer = section.get_attr_value('on_timer')
light.outer_radius = section.get_attr_value('outer_radius')
if type_name in ['point', 'spot']:
light.position = PosDir.from_gas_section(
section.get_section('position'))
if type_name in ['directional', 'spot']:
light.direction = PosDir.from_gas_section(
section.get_section('direction'))
return light
def make_gas(self) -> Section:
attrs = []
if self.scale_multiplier is not None:
attrs.append(Attribute('scale_multiplier', self.scale_multiplier))
return Section('aspect', attrs)
def make_gas(self) -> Section:
return Section('*', [
Attribute('condition*', self.condition),
Attribute('action*', self.action)
])
def load_gas(cls, section: Section) -> ProgressionStep:
plants_profile = cls.load_profiles(section, 'plants')
enemies_profile = cls.load_profiles(section, 'enemies')
node_set = section.get_attr_value('node_set')
return ProgressionStep(plants_profile, enemies_profile, node_set)
def from_gas_section(cls, section: Section):
x = section.get_attr_value('x')
y = section.get_attr_value('y')
z = section.get_attr_value('z')
node = section.get_attr_value('node')
return PosDir(x, y, z, node)
def write_gas(self) -> Gas:
return Gas(
[Section('decals', [decal.to_gas() for decal in self.decals])])
