io_scene_3ds/__init__.py

@@ -55,6 +55,11 @@ class Import3DS(bpy.types.Operator, ImportHelper):
         soft_min=0.0, soft_max=1000.0,
         default=10.0,
     )
+    convert_measure: BoolProperty(
+        name="Convert Measure",
+        description="Convert from millimeters to meters",
+        default=False,
+    )
     use_image_search: BoolProperty(
         name="Image Search",
         description="Search subdirectories for any associated images "
@@ -112,7 +117,7 @@ class Export3DS(bpy.types.Operator, ExportHelper):
         min=0.0, max=100000.0,
         soft_min=0.0, soft_max=100000.0,
         default=1.0,
-        )
+    )
     use_selection: BoolProperty(
         name="Selection Only",
         description="Export selected objects only",

io_scene_3ds/export_3ds.py

@@ -1086,7 +1086,6 @@ def make_kfdata(revision, start=0, stop=100, curtime=0):
 def make_track_chunk(ID, ob, ob_pos, ob_rot, ob_size):
     """Make a chunk for track data. Depending on the ID, this will construct
     a position, rotation, scale, roll, color, fov, hotspot or falloff track."""
-    ob_distance = mathutils.Matrix.Diagonal(ob_size)
     track_chunk = _3ds_chunk(ID)
 
     if ID in {POS_TRACK_TAG, ROT_TRACK_TAG, SCL_TRACK_TAG, ROLL_TRACK_TAG} and ob.animation_data and ob.animation_data.action:
@@ -1111,7 +1110,7 @@ def make_track_chunk(ID, ob, ob_pos, ob_rot, ob_size):
                     pos_x = next((tc.evaluate(frame) for tc in pos_track if tc.array_index == 0), ob_pos.x)
                     pos_y = next((tc.evaluate(frame) for tc in pos_track if tc.array_index == 1), ob_pos.y)
                     pos_z = next((tc.evaluate(frame) for tc in pos_track if tc.array_index == 2), ob_pos.z)
-                    pos = ob_distance @ mathutils.Vector((pos_x, pos_y, pos_z))
+                    pos = ob_size @ mathutils.Vector((pos_x, pos_y, pos_z))
                     track_chunk.add_variable("tcb_frame", _3ds_uint(int(frame)))
                     track_chunk.add_variable("tcb_flags", _3ds_ushort())
                     track_chunk.add_variable("position", _3ds_point_3d((pos.x, pos.y, pos.z)))
@@ -1317,7 +1316,8 @@ def make_object_node(ob, translation, rotation, scale, name_id):
             obj_morph_smooth.add_variable("angle", _3ds_float(round(ob.data.auto_smooth_angle, 6)))
             obj_node.add_subchunk(obj_morph_smooth)
 
-    # Add track chunks for color, position, rotation and scale
+    # Add track chunks for position, rotation, size
+    ob_scale = scale[name]  # and collect masterscale
     if parent is None or (parent.name not in name_id):
         ob_pos = translation[name]
         ob_rot = rotation[name]
@@ -1328,7 +1328,7 @@ def make_object_node(ob, translation, rotation, scale, name_id):
         ob_rot = rotation[name].to_quaternion().cross(rotation[parent.name].to_quaternion().copy().inverted()).to_euler()
         ob_size = mathutils.Vector((1.0, 1.0, 1.0))
 
-    obj_node.add_subchunk(make_track_chunk(POS_TRACK_TAG, ob, ob_pos, ob_rot, ob_size))
+    obj_node.add_subchunk(make_track_chunk(POS_TRACK_TAG, ob, ob_pos, ob_rot, ob_scale))
 
     if ob.type in {'MESH', 'EMPTY'}:
         obj_node.add_subchunk(make_track_chunk(ROT_TRACK_TAG, ob, ob_pos, ob_rot, ob_size))
@@ -1375,7 +1375,7 @@ def make_target_node(ob, translation, rotation, scale, name_id):
     # Calculate target position
     ob_pos = translation[name]
     ob_rot = rotation[name]
-    ob_size = mathutils.Matrix.Diagonal(scale[name])
+    ob_scale = scale[name]
     target_pos = calc_target(ob_pos, ob_rot.x, ob_rot.z)
 
     # Add track chunks for target position
@@ -1405,7 +1405,7 @@ def make_target_node(ob, translation, rotation, scale, name_id):
                 rot_target = [fc for fc in fcurves if fc is not None and fc.data_path == 'rotation_euler']
                 rot_x = next((tc.evaluate(frame) for tc in rot_target if tc.array_index == 0), ob_rot.x)
                 rot_z = next((tc.evaluate(frame) for tc in rot_target if tc.array_index == 2), ob_rot.z)
-                target_distance = ob_size @ mathutils.Vector((loc_x, loc_y, loc_z))
+                target_distance = ob_scale @ mathutils.Vector((loc_x, loc_y, loc_z))
                 target_pos = calc_target(target_distance, rot_x, rot_z)
                 track_chunk.add_variable("tcb_frame", _3ds_uint(int(frame)))
                 track_chunk.add_variable("tcb_flags", _3ds_ushort())
@@ -1628,29 +1628,29 @@ def save(operator, context, filepath="", scale_factor=1.0, use_selection=False,
     name_id = {}
 
     for ob, data, matrix in mesh_objects:
-        translation[ob.name] = mtx_scale @ ob.location.copy()
-        rotation[ob.name] = ob.rotation_euler.copy()
-        scale[ob.name] = ob.scale.copy()
+        translation[ob.name] = mtx_scale @ ob.location
+        rotation[ob.name] = ob.rotation_euler
+        scale[ob.name] = mtx_scale.copy()
         name_id[ob.name] = len(name_id)
         object_id[ob.name] = len(object_id)
 
     for ob in empty_objects:
-        translation[ob.name] = mtx_scale @ ob.location.copy()
-        rotation[ob.name] = ob.rotation_euler.copy()
-        scale[ob.name] = ob.scale.copy()
+        translation[ob.name] = mtx_scale @ ob.location
+        rotation[ob.name] = ob.rotation_euler
+        scale[ob.name] = mtx_scale.copy()
         name_id[ob.name] = len(name_id)
 
     for ob in light_objects:
-        translation[ob.name] = mtx_scale @ ob.location.copy()
-        rotation[ob.name] = ob.rotation_euler.copy()
-        scale[ob.name] = mtx_scale.copy().to_scale()
+        translation[ob.name] = mtx_scale @ ob.location
+        rotation[ob.name] = ob.rotation_euler
+        scale[ob.name] = mtx_scale.copy()
         name_id[ob.name] = len(name_id)
         object_id[ob.name] = len(object_id)
 
     for ob in camera_objects:
-        translation[ob.name] = mtx_scale @ ob.location.copy()
-        rotation[ob.name] = ob.rotation_euler.copy()
-        scale[ob.name] = mtx_scale.copy().to_scale()
+        translation[ob.name] = mtx_scale @ ob.location
+        rotation[ob.name] = ob.rotation_euler
+        scale[ob.name] = mtx_scale.copy()
         name_id[ob.name] = len(name_id)
         object_id[ob.name] = len(object_id)
 

io_scene_3ds/import_3ds.py

@@ -325,7 +325,8 @@ def add_texture_to_material(image, contextWrapper, pct, extend, alpha, scale, of
 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, MEASURE):
 
     contextObName = None
     contextLamp = None
@@ -362,15 +363,9 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
     pivot_list = []  # pivots with hierarchy handling
     trackposition = {}  # keep track to position for target calculation
 
-    def putContextMesh(
-            context,
-            myContextMesh_vertls,
-            myContextMesh_facels,
-            myContextMesh_flag,
-            myContextMeshMaterials,
-            myContextMesh_smooth,
-            WORLD_MATRIX,
-    ):
+    def putContextMesh(context, myContextMesh_vertls, myContextMesh_facels, myContextMesh_flag,
+                       myContextMeshMaterials, myContextMesh_smooth, WORLD_MATRIX):
+
         bmesh = bpy.data.meshes.new(contextObName)
 
         if myContextMesh_facels is None:
@@ -431,8 +426,8 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
         imported_objects.append(ob)
 
         if myContextMesh_flag:
-            """Bit 0 (0x1) sets edge CA visible, Bit 1 (0x2) sets edge BC visible and Bit 2 (0x4) sets edge AB visible
-               In Blender we use sharp edges for those flags"""
+            """Bit 0 (0x1) sets edge CA visible, Bit 1 (0x2) sets edge BC visible and
+               Bit 2 (0x4) sets edge AB visible. In Blender we use sharp edges for those flags."""
             for f, pl in enumerate(bmesh.polygons):
                 face = myContextMesh_facels[f]
                 faceflag = myContextMesh_flag[f]
@@ -541,7 +536,7 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
                 0x40 activates alpha source, 0x80 activates tinting, 0x100 ignores alpha, 0x200 activates RGB tint.
                 Bits 0x80, 0x100, and 0x200 are only used with TEXMAP, TEX2MAP, and SPECMAP chunks.
                 0x40, when used with a TEXMAP, TEX2MAP, or SPECMAP chunk must be accompanied with a tint bit,
-                either 0x100 or 0x200, tintcolor will be processed if colorchunks are present"""
+                either 0x100 or 0x200, tintcolor will be processed if colorchunks are present."""
                 tiling = read_short(temp_chunk)
                 if tiling & 0x1:
                     extend = 'decal'
@@ -620,7 +615,7 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
 
     def read_track_data(track_chunk):
         """Trackflags 0x1, 0x2 and 0x3 are for looping. 0x8, 0x10 and 0x20
-        locks the XYZ axes. 0x100, 0x200 and 0x400 unlinks the XYZ axes"""
+        locks the XYZ axes. 0x100, 0x200 and 0x400 unlinks the XYZ axes."""
         tflags = read_short(track_chunk)
         contextTrack_flag = tflags
         temp_data = file.read(SZ_U_INT * 2)
@@ -687,7 +682,8 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
 
         # is it an object info chunk?
         elif new_chunk.ID == OBJECTINFO:
-            process_next_chunk(context, file, new_chunk, imported_objects, CONSTRAIN, IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE)
+            process_next_chunk(context, file, new_chunk, imported_objects, CONSTRAIN,
+                               IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE, MEASURE)
 
             # keep track of how much we read in the main chunk
             new_chunk.bytes_read += temp_chunk.bytes_read
@@ -1105,6 +1101,8 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
             for keydata in keyframe_data.items():
                 trackposition[keydata[0]] = keydata[1]  # Keep track to position for target calculation
                 child.location = apply_constrain(keydata[1]) if hierarchy == ROOT_OBJECT else mathutils.Vector(keydata[1])
+                if MEASURE:
+                    child.location = child.location * 0.001
                 if hierarchy == ROOT_OBJECT:
                     child.location.rotate(CONVERSE)
                 if not contextTrack_flag & 0x100:  # Flag 0x100 unlinks X axis
@@ -1131,6 +1129,8 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
                 scale = mathutils.Vector.Fill(3, (CONSTRAIN * 0.1)) if CONSTRAIN != 0.0 else child.scale
                 transformation = mathutils.Matrix.LocRotScale(locate, rotate, scale)
                 child.matrix_world = transformation
+                if MEASURE:
+                    child.matrix_world = mathutils.Matrix.Scale(0.001,4) @ child.matrix_world
                 if hierarchy == ROOT_OBJECT:
                     child.matrix_world = CONVERSE @ child.matrix_world
                 child.keyframe_insert(data_path="rotation_euler", index=0, frame=keydata[0])
@@ -1305,7 +1305,8 @@ def process_next_chunk(context, file, previous_chunk, imported_objects, CONSTRAI
 # IMPORT #
 ##########
 
-def load_3ds(filepath, context, CONSTRAIN=10.0, IMAGE_SEARCH=True, WORLD_MATRIX=False, KEYFRAME=True, APPLY_MATRIX=True, CONVERSE=None):
+def load_3ds(filepath, context, CONSTRAIN=10.0, MEASURE=False, IMAGE_SEARCH=True,
+             WORLD_MATRIX=False, KEYFRAME=True, APPLY_MATRIX=True, CONVERSE=None):
 
     print("importing 3DS: %r..." % (filepath), end="")
 
@@ -1335,7 +1336,8 @@ def load_3ds(filepath, context, CONSTRAIN=10.0, IMAGE_SEARCH=True, WORLD_MATRIX=
     scn = context.scene
 
     imported_objects = []  # Fill this list with objects
-    process_next_chunk(context, file, current_chunk, imported_objects, CONSTRAIN, IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE)
+    process_next_chunk(context, file, current_chunk, imported_objects, CONSTRAIN,
+                       IMAGE_SEARCH, WORLD_MATRIX, KEYFRAME, CONVERSE, MEASURE)
 
     # fixme, make unglobal
     object_dictionary.clear()
@@ -1344,8 +1346,13 @@ def load_3ds(filepath, context, CONSTRAIN=10.0, IMAGE_SEARCH=True, WORLD_MATRIX=
     if APPLY_MATRIX:
         for ob in imported_objects:
             if ob.type == 'MESH':
-                me = ob.data
-                me.transform(ob.matrix_local.inverted())
+                ob.data.transform(ob.matrix_local.inverted())
+
+    if MEASURE:
+        unit_mtx = mathutils.Matrix.Scale(0.001,4)
+        for ob in imported_objects:
+            if ob.type == 'MESH':
+                ob.data.transform(unit_mtx)
 
     if CONVERSE and not KEYFRAME:
         for ob in imported_objects:
@@ -1424,25 +1431,16 @@ def load_3ds(filepath, context, CONSTRAIN=10.0, IMAGE_SEARCH=True, WORLD_MATRIX=
     file.close()
 
 
-def load(operator,
-         context,
-         filepath="",
-         constrain_size=0.0,
-         use_image_search=True,
-         use_world_matrix=False,
-         read_keyframe=True,
-         use_apply_transform=True,
-         global_matrix=None,
+def load(operator, context, filepath="", constrain_size=0.0,
+         convert_measure=False, use_image_search=True,
+         use_world_matrix=False, read_keyframe=True,
+         use_apply_transform=True, global_matrix=None,
          ):
 
-    load_3ds(filepath,
-             context,
-             CONSTRAIN=constrain_size,
-             IMAGE_SEARCH=use_image_search,
-             WORLD_MATRIX=use_world_matrix,
-             KEYFRAME=read_keyframe,
-             APPLY_MATRIX=use_apply_transform,
-             CONVERSE=global_matrix,
+    load_3ds(filepath, context, CONSTRAIN=constrain_size,
+             MEASURE=convert_measure, IMAGE_SEARCH=use_image_search,
+             WORLD_MATRIX=use_world_matrix, KEYFRAME=read_keyframe,
+             APPLY_MATRIX=use_apply_transform, CONVERSE=global_matrix,
              )
 
     return {'FINISHED'}