io_scene_3ds: Added scale factor to 3ds export #104767

Merged
Sebastian Sille merged 3 commits from :main into main 2023-07-21 23:44:22 +02:00
3 changed files with 137 additions and 25 deletions
Showing only changes of commit 0d26a2a017 - Show all commits

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@ -16,7 +16,7 @@ import bpy
bl_info = { bl_info = {
"name": "Autodesk 3DS format", "name": "Autodesk 3DS format",
"author": "Bob Holcomb, Campbell Barton, Andreas Atteneder, Sebastian Schrand", "author": "Bob Holcomb, Campbell Barton, Andreas Atteneder, Sebastian Schrand",
"version": (2, 4, 1), "version": (2, 4, 3),
"blender": (3, 6, 0), "blender": (3, 6, 0),
"location": "File > Import-Export", "location": "File > Import-Export",
"description": "3DS Import/Export meshes, UVs, materials, textures, " "description": "3DS Import/Export meshes, UVs, materials, textures, "
@ -109,6 +109,11 @@ class Export3DS(bpy.types.Operator, ExportHelper):
description="Export selected objects only", description="Export selected objects only",
default=False, default=False,
) )
use_hierarchy: bpy.props.BoolProperty(
name="Export Hierarchy",
description="Export hierarchy chunks",
default=False,
)
write_keyframe: BoolProperty( write_keyframe: BoolProperty(
name="Write Keyframe", name="Write Keyframe",
description="Write the keyframe data", description="Write the keyframe data",

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@ -87,6 +87,8 @@ MASTERSCALE = 0x0100 # Master scale factor
OBJECT_MESH = 0x4100 # This lets us know that we are reading a new object OBJECT_MESH = 0x4100 # This lets us know that we are reading a new object
OBJECT_LIGHT = 0x4600 # This lets us know we are reading a light object OBJECT_LIGHT = 0x4600 # This lets us know we are reading a light object
OBJECT_CAMERA = 0x4700 # This lets us know we are reading a camera object OBJECT_CAMERA = 0x4700 # This lets us know we are reading a camera object
OBJECT_HIERARCHY = 0x4F00 # Hierarchy id of the object
OBJECT_PARENT = 0x4F10 # Parent id of the object
# >------ Sub defines of LIGHT # >------ Sub defines of LIGHT
LIGHT_MULTIPLIER = 0x465B # The light energy factor LIGHT_MULTIPLIER = 0x465B # The light energy factor
@ -1477,7 +1479,7 @@ def make_ambient_node(world):
# EXPORT # # EXPORT #
########## ##########
def save(operator, context, filepath="", use_selection=False, write_keyframe=False, global_matrix=None): def save(operator, context, filepath="", use_selection=False, use_hierarchy=False, write_keyframe=False, global_matrix=None):
"""Save the Blender scene to a 3ds file.""" """Save the Blender scene to a 3ds file."""
# Time the export # Time the export
@ -1608,6 +1610,7 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
scale = {} scale = {}
# Give all objects a unique ID and build a dictionary from object name to object id # Give all objects a unique ID and build a dictionary from object name to object id
object_id = {}
name_id = {} name_id = {}
for ob, data, matrix in mesh_objects: for ob, data, matrix in mesh_objects:
@ -1615,6 +1618,7 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
rotation[ob.name] = ob.rotation_euler.to_quaternion().inverted() rotation[ob.name] = ob.rotation_euler.to_quaternion().inverted()
scale[ob.name] = ob.scale scale[ob.name] = ob.scale
name_id[ob.name] = len(name_id) name_id[ob.name] = len(name_id)
object_id[ob.name] = len(object_id)
for ob in empty_objects: for ob in empty_objects:
translation[ob.name] = ob.location translation[ob.name] = ob.location
@ -1622,6 +1626,12 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
scale[ob.name] = ob.scale scale[ob.name] = ob.scale
name_id[ob.name] = len(name_id) name_id[ob.name] = len(name_id)
for ob in light_objects:
object_id[ob.name] = len(object_id)
for ob in camera_objects:
object_id[ob.name] = len(object_id)
# Create object chunks for all meshes # Create object chunks for all meshes
i = 0 i = 0
for ob, mesh, matrix in mesh_objects: for ob, mesh, matrix in mesh_objects:
@ -1633,20 +1643,32 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
# Make a mesh chunk out of the mesh # Make a mesh chunk out of the mesh
object_chunk.add_subchunk(make_mesh_chunk(ob, mesh, matrix, materialDict, translation)) object_chunk.add_subchunk(make_mesh_chunk(ob, mesh, matrix, materialDict, translation))
# Ensure the mesh has no over sized arrays, skip ones that do! # Add hierachy chunk with ID from object_id dictionary
if use_hierarchy:
obj_hierarchy_chunk = _3ds_chunk(OBJECT_HIERARCHY)
obj_hierarchy_chunk.add_variable("hierarchy", _3ds_ushort(object_id[ob.name]))
# Add parent chunk if object has a parent
if ob.parent is not None and (ob.parent.name in object_id):
obj_parent_chunk = _3ds_chunk(OBJECT_PARENT)
obj_parent_chunk.add_variable("parent", _3ds_ushort(object_id[ob.parent.name]))
obj_hierarchy_chunk.add_subchunk(obj_parent_chunk)
object_chunk.add_subchunk(obj_hierarchy_chunk)
# ensure the mesh has no over sized arrays - skip ones that do!
# Otherwise we cant write since the array size wont fit into USHORT # Otherwise we cant write since the array size wont fit into USHORT
if object_chunk.validate(): if object_chunk.validate():
object_info.add_subchunk(object_chunk) object_info.add_subchunk(object_chunk)
else: else:
operator.report({'WARNING'}, "Object %r can't be written into a 3DS file") operator.report({'WARNING'}, "Object %r can't be written into a 3DS file")
# Export kf object node # Export object node
if write_keyframe: if write_keyframe:
kfdata.add_subchunk(make_object_node(ob, translation, rotation, scale, name_id)) kfdata.add_subchunk(make_object_node(ob, translation, rotation, scale, name_id))
i += i i += i
# Create chunks for all empties, only requires a kf object node # Create chunks for all empties - only requires a object node
if write_keyframe: if write_keyframe:
for ob in empty_objects: for ob in empty_objects:
kfdata.add_subchunk(make_object_node(ob, translation, rotation, scale, name_id)) kfdata.add_subchunk(make_object_node(ob, translation, rotation, scale, name_id))
@ -1654,15 +1676,15 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
# Create light object chunks # Create light object chunks
for ob in light_objects: for ob in light_objects:
object_chunk = _3ds_chunk(OBJECT) object_chunk = _3ds_chunk(OBJECT)
light_chunk = _3ds_chunk(OBJECT_LIGHT) obj_light_chunk = _3ds_chunk(OBJECT_LIGHT)
color_float_chunk = _3ds_chunk(RGB) color_float_chunk = _3ds_chunk(RGB)
energy_factor = _3ds_chunk(LIGHT_MULTIPLIER) light_energy_factor = _3ds_chunk(LIGHT_MULTIPLIER)
object_chunk.add_variable("light", _3ds_string(sane_name(ob.name))) object_chunk.add_variable("light", _3ds_string(sane_name(ob.name)))
light_chunk.add_variable("location", _3ds_point_3d(ob.location)) obj_light_chunk.add_variable("location", _3ds_point_3d(ob.location))
color_float_chunk.add_variable("color", _3ds_float_color(ob.data.color)) color_float_chunk.add_variable("color", _3ds_float_color(ob.data.color))
energy_factor.add_variable("energy", _3ds_float(ob.data.energy * 0.001)) light_energy_factor.add_variable("energy", _3ds_float(ob.data.energy * 0.001))
light_chunk.add_subchunk(color_float_chunk) obj_light_chunk.add_subchunk(color_float_chunk)
light_chunk.add_subchunk(energy_factor) obj_light_chunk.add_subchunk(light_energy_factor)
if ob.data.type == 'SPOT': if ob.data.type == 'SPOT':
cone_angle = math.degrees(ob.data.spot_size) cone_angle = math.degrees(ob.data.spot_size)
@ -1684,10 +1706,24 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
if ob.data.use_square: if ob.data.use_square:
spot_square_chunk = _3ds_chunk(LIGHT_SPOT_RECTANGLE) spot_square_chunk = _3ds_chunk(LIGHT_SPOT_RECTANGLE)
spotlight_chunk.add_subchunk(spot_square_chunk) spotlight_chunk.add_subchunk(spot_square_chunk)
light_chunk.add_subchunk(spotlight_chunk) obj_light_chunk.add_subchunk(spotlight_chunk)
# Add light to object info # Add light to object chunk
object_chunk.add_subchunk(light_chunk) object_chunk.add_subchunk(obj_light_chunk)
# Add hierachy chunks with ID from object_id dictionary
if use_hierarchy:
obj_hierarchy_chunk = _3ds_chunk(OBJECT_HIERARCHY)
obj_parent_chunk = _3ds_chunk(OBJECT_PARENT)
obj_hierarchy_chunk.add_variable("hierarchy", _3ds_ushort(object_id[ob.name]))
if ob.parent is None or (ob.parent.name not in object_id):
obj_parent_chunk.add_variable("parent", _3ds_ushort(ROOT_OBJECT))
else: # Get the parent ID from the object_id dict
obj_parent_chunk.add_variable("parent", _3ds_ushort(object_id[ob.parent.name]))
obj_hierarchy_chunk.add_subchunk(obj_parent_chunk)
object_chunk.add_subchunk(obj_hierarchy_chunk)
# Add light object and hierarchy chunks to object info
object_info.add_subchunk(object_chunk) object_info.add_subchunk(object_chunk)
# Export light and spotlight target node # Export light and spotlight target node
@ -1714,6 +1750,20 @@ def save(operator, context, filepath="", use_selection=False, write_keyframe=Fal
camera_chunk.add_variable("roll", _3ds_float(round(ob.rotation_euler[1], 6))) camera_chunk.add_variable("roll", _3ds_float(round(ob.rotation_euler[1], 6)))
camera_chunk.add_variable("lens", _3ds_float(ob.data.lens)) camera_chunk.add_variable("lens", _3ds_float(ob.data.lens))
object_chunk.add_subchunk(camera_chunk) object_chunk.add_subchunk(camera_chunk)
# Add hierachy chunks with ID from object_id dictionary
if use_hierarchy:
obj_hierarchy_chunk = _3ds_chunk(OBJECT_HIERARCHY)
obj_parent_chunk = _3ds_chunk(OBJECT_PARENT)
obj_hierarchy_chunk.add_variable("hierarchy", _3ds_ushort(object_id[ob.name]))
if ob.parent is None or (ob.parent.name not in object_id):
obj_parent_chunk.add_variable("parent", _3ds_ushort(ROOT_OBJECT))
else: # Get the parent ID from the object_id dict
obj_parent_chunk.add_variable("parent", _3ds_ushort(object_id[ob.parent.name]))
obj_hierarchy_chunk.add_subchunk(obj_parent_chunk)
object_chunk.add_subchunk(obj_hierarchy_chunk)
# Add light object and hierarchy chunks to object info
object_info.add_subchunk(object_chunk) object_info.add_subchunk(object_chunk)
# Export camera and target node # Export camera and target node

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@ -92,6 +92,8 @@ MAT_MAP_BCOL = 0xA368 # Blue mapping
OBJECT_MESH = 0x4100 # This lets us know that we are reading a new object OBJECT_MESH = 0x4100 # This lets us know that we are reading a new object
OBJECT_LIGHT = 0x4600 # This lets us know we are reading a light object OBJECT_LIGHT = 0x4600 # This lets us know we are reading a light object
OBJECT_CAMERA = 0x4700 # This lets us know we are reading a camera object OBJECT_CAMERA = 0x4700 # This lets us know we are reading a camera object
OBJECT_HIERARCHY = 0x4F00 # This lets us know the hierachy id of the object
OBJECT_PARENT = 0x4F10 # This lets us know the parent id of the object
# >------ Sub defines of LIGHT # >------ Sub defines of LIGHT
LIGHT_SPOTLIGHT = 0x4610 # The target of a spotlight LIGHT_SPOTLIGHT = 0x4610 # The target of a spotlight
@ -322,6 +324,9 @@ def add_texture_to_material(image, contextWrapper, pct, extend, alpha, scale, of
contextWrapper._grid_to_location(1, 0, dst_node=contextWrapper.node_out, ref_node=shader) contextWrapper._grid_to_location(1, 0, dst_node=contextWrapper.node_out, ref_node=shader)
childs_list = []
parent_list = []
def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAIN, IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE): def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAIN, IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE):
contextObName = None contextObName = None
@ -461,6 +466,7 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
temp_chunk = Chunk() temp_chunk = Chunk()
CreateBlenderObject = False CreateBlenderObject = False
CreateCameraObject = False
CreateLightObject = False CreateLightObject = False
CreateTrackData = False CreateTrackData = False
@ -924,6 +930,23 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
contextMatrix = mathutils.Matrix( contextMatrix = mathutils.Matrix(
(data[:3] + [0], data[3:6] + [0], data[6:9] + [0], data[9:] + [1])).transposed() (data[:3] + [0], data[3:6] + [0], data[6:9] + [0], data[9:] + [1])).transposed()
# If hierarchy chunk
elif new_chunk.ID == OBJECT_HIERARCHY:
child_id = read_short(new_chunk)
childs_list.insert(child_id, contextObName)
parent_list.insert(child_id, None)
if child_id in parent_list:
idp = parent_list.index(child_id)
parent_list[idp] = contextObName
elif new_chunk.ID == OBJECT_PARENT:
parent_id = read_short(new_chunk)
if parent_id > len(childs_list):
parent_list[child_id] = parent_id
parent_list.extend([None]*(parent_id-len(parent_list)))
parent_list.insert(parent_id, contextObName)
elif parent_id < len(childs_list):
parent_list[child_id] = childs_list[parent_id]
# If light chunk # If light chunk
elif contextObName and new_chunk.ID == OBJECT_LIGHT: # Basic lamp support elif contextObName and new_chunk.ID == OBJECT_LIGHT: # Basic lamp support
newLamp = bpy.data.lights.new("Lamp", 'POINT') newLamp = bpy.data.lights.new("Lamp", 'POINT')
@ -934,9 +957,9 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
temp_data = file.read(SZ_3FLOAT) temp_data = file.read(SZ_3FLOAT)
contextLamp.location = struct.unpack('<3f', temp_data) contextLamp.location = struct.unpack('<3f', temp_data)
new_chunk.bytes_read += SZ_3FLOAT new_chunk.bytes_read += SZ_3FLOAT
contextMatrix = None # Reset matrix
CreateBlenderObject = False CreateBlenderObject = False
CreateLightObject = True CreateLightObject = True
contextMatrix = None # Reset matrix
elif CreateLightObject and new_chunk.ID == COLOR_F: # Light color elif CreateLightObject and new_chunk.ID == COLOR_F: # Light color
temp_data = file.read(SZ_3FLOAT) temp_data = file.read(SZ_3FLOAT)
contextLamp.data.color = struct.unpack('<3f', temp_data) contextLamp.data.color = struct.unpack('<3f', temp_data)
@ -973,6 +996,21 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
contextLamp.data.show_cone = True contextLamp.data.show_cone = True
elif CreateLightObject and new_chunk.ID == LIGHT_SPOT_RECTANGLE: # Square elif CreateLightObject and new_chunk.ID == LIGHT_SPOT_RECTANGLE: # Square
contextLamp.data.use_square = True contextLamp.data.use_square = True
elif CreateLightObject and new_chunk.ID == OBJECT_HIERARCHY:
child_id = read_short(new_chunk)
childs_list.insert(child_id, contextObName)
parent_list.insert(child_id, None)
if child_id in parent_list:
idp = parent_list.index(child_id)
parent_list[idp] = contextObName
elif CreateLightObject and new_chunk.ID == OBJECT_PARENT:
parent_id = read_short(new_chunk)
if parent_id > len(childs_list):
parent_list[child_id] = parent_id
parent_list.extend([None]*(parent_id-len(parent_list)))
parent_list.insert(parent_id, contextObName)
elif parent_id < len(childs_list):
parent_list[child_id] = childs_list[parent_id]
# If camera chunk # If camera chunk
elif contextObName and new_chunk.ID == OBJECT_CAMERA: # Basic camera support elif contextObName and new_chunk.ID == OBJECT_CAMERA: # Basic camera support
@ -996,8 +1034,24 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
temp_data = file.read(SZ_FLOAT) temp_data = file.read(SZ_FLOAT)
contextCamera.data.lens = float(struct.unpack('<f', temp_data)[0]) # Focus contextCamera.data.lens = float(struct.unpack('<f', temp_data)[0]) # Focus
new_chunk.bytes_read += SZ_FLOAT new_chunk.bytes_read += SZ_FLOAT
contextMatrix = None # Reset matrix
CreateBlenderObject = False CreateBlenderObject = False
CreateCameraObject = True
contextMatrix = None # Reset matrix
elif CreateCameraObject and new_chunk.ID == OBJECT_HIERARCHY:
child_id = read_short(new_chunk)
childs_list.insert(child_id, contextObName)
parent_list.insert(child_id, None)
if child_id in parent_list:
idp = parent_list.index(child_id)
parent_list[idp] = contextObName
elif CreateCameraObject and new_chunk.ID == OBJECT_PARENT:
parent_id = read_short(new_chunk)
if parent_id > len(childs_list):
parent_list[child_id] = parent_id
parent_list.extend([None]*(parent_id-len(parent_list)))
parent_list.insert(parent_id, contextObName)
elif parent_id < len(childs_list):
parent_list[child_id] = childs_list[parent_id]
# start keyframe section # start keyframe section
elif new_chunk.ID == EDITKEYFRAME: elif new_chunk.ID == EDITKEYFRAME:
@ -1296,12 +1350,22 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
#pivot_list[ind] += pivot_list[parent] # Not sure this is correct, should parent space matrix be applied before combining? #pivot_list[ind] += pivot_list[parent] # Not sure this is correct, should parent space matrix be applied before combining?
# if parent name
for par, objs in parent_dictionary.items(): for par, objs in parent_dictionary.items():
parent = object_dictionary.get(par) parent = object_dictionary.get(par)
for ob in objs: for ob in objs:
if parent is not None: if parent is not None:
ob.parent = parent ob.parent = parent
# If hierarchy
hierarchy = dict(zip(childs_list, parent_list))
hierarchy.pop(None, ...)
for idt, (child, parent) in enumerate(hierarchy.items()):
child_obj = object_dictionary.get(child)
parent_obj = object_dictionary.get(parent)
if child_obj and parent_obj is not None:
child_obj.parent = parent_obj
# fix pivots # fix pivots
for ind, ob in enumerate(object_list): for ind, ob in enumerate(object_list):
if ob.type == 'MESH': if ob.type == 'MESH':
@ -1312,14 +1376,7 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
ob.data.transform(pivot_matrix) ob.data.transform(pivot_matrix)
def load_3ds(filepath, def load_3ds(filepath, context, CONSTRAIN=10.0, IMAGE_SEARCH=True, WORLD_MATRIX=False, KEYFRAME=True, APPLY_MATRIX=True, CONVERSE=None):
context,
CONSTRAIN=10.0,
IMAGE_SEARCH=True,
WORLD_MATRIX=False,
KEYFRAME=True,
APPLY_MATRIX=True,
CONVERSE=None):
print("importing 3DS: %r..." % (filepath), end="") print("importing 3DS: %r..." % (filepath), end="")