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391 lines
17 KiB
Python
391 lines
17 KiB
Python
import bpy
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import bmesh
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import os
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import shutil
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import struct
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from mathutils import *; from math import *
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from bpy_extras.io_utils import (axis_conversion)
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C = bpy.context
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D = bpy.data
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LEVEL_EXPORT_NAME = "level"
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EXPORT_DIRECTORY = "exported"
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print("\n\nLet's get it started")
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if os.path.exists(bpy.path.abspath(f"//{EXPORT_DIRECTORY}")):
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shutil.rmtree(bpy.path.abspath(f"//{EXPORT_DIRECTORY}"))
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os.makedirs(bpy.path.abspath(f"//{EXPORT_DIRECTORY}"))
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def write_b8(f, boolean: bool):
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f.write(bytes(struct.pack("?", boolean)))
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def write_f32(f, number: float):
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f.write(bytes(struct.pack("f", number)))
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def write_u64(f, number: int):
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f.write(bytes(struct.pack("Q", number)))
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def write_i32(f, number: int):
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f.write(bytes(struct.pack("i", number)))
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def write_u16(f, number: int): # unsigned short, used in shaders to figure out which bone index is current
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f.write(bytes(struct.pack("H", number)))
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def write_v3(f, vector):
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write_f32(f, vector.x)
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write_f32(f, vector.y)
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write_f32(f, vector.z)
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def write_quat(f, quat):
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write_f32(f, quat.x)
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write_f32(f, quat.y)
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write_f32(f, quat.z)
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write_f32(f, quat.w)
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def write_string(f, s: str):
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encoded = s.encode("utf8")
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write_u64(f, len(encoded))
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f.write(encoded)
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def write_4x4matrix(f, m):
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# writes each row, sequentially, row major
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for row in range(4):
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for col in range(4):
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write_f32(f, m[row][col])
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def normalize_joint_weights(weights):
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total_weights = sum(weights)
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result = [0,0,0,0]
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if total_weights != 0:
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for i, weight in enumerate(weights): result[i] = weight/total_weights
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return result
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# for the level.bin
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level_object_data = []
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collision_cubes = []
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placed_entities = []
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saved_meshes = set()
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mapping = axis_conversion(
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from_forward = "Y",
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from_up = "Z",
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to_forward = "-Z",
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to_up = "Y",
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)
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mapping.resize_4x4()
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with open(bpy.path.abspath(f"//{EXPORT_DIRECTORY}/shorttest.bin"), "wb") as f:
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for i in range(4):
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write_u16(f, i)
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project_directory = bpy.path.abspath("//")
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def is_file_in_project(file_path):
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file_name = os.path.basename(file_path)
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for root, dirs, files in os.walk(project_directory):
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if file_name in files:
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return True
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return False
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saved_images = set()
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def ensure_tex_saved_and_get_name(o) -> str:
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"""returns the path to the mesh's texture's png in the exported directory"""
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mesh_name = o.to_mesh().name
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img_obj = None
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assert len(o.material_slots) == 1, f"Don't know which material slot to pick from in mesh {mesh_name} object {o.name}"
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mat = o.material_slots[0]
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for node in mat.material.node_tree.nodes:
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if node.type == "TEX_IMAGE":
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img_obj = node.image
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break
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assert img_obj, f"Mesh {mesh_name} in its material doesn't have an image object"
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image_filename = f"{img_obj.name}.png"
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if image_filename in saved_images:
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pass
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else:
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save_to = f"//{EXPORT_DIRECTORY}/{image_filename}"
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print(f"Saving image {image_filename} to {bpy.path.abspath((save_to))}...")
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if img_obj.packed_file:
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img_obj.save(filepath=bpy.path.abspath(save_to))
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else:
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assert img_obj.filepath != "", f"{img_obj.filepath} in mesh {mesh_name} Isn't there but should be, as it has no packed image"
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old_path = bpy.path.abspath(img_obj.filepath)
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if not is_file_in_project(old_path):
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print(f"Image {image_filename} has filepath {img_obj.filepath}, outside of the current directory. So we're copying it baby. Hoo-rah!")
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new_path = bpy.path.abspath(f"//{image_filename}")
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assert not os.path.exists(new_path), f"Tried to migrate {image_filename} to a new home {new_path}, but its already taken. It's over!"
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shutil.copyfile(old_path, new_path)
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img_obj.filepath = new_path
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assert is_file_in_project(bpy.path.abspath(img_obj.filepath)), f"The image {image_filename} has filepath {img_obj.filepath} which isn't in the project directory {project_directory}, even after copying it! WTF"
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shutil.copyfile(bpy.path.abspath(img_obj.filepath),bpy.path.abspath(save_to))
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return image_filename
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def object_in_level(o):
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return o.users_collection[0].name == "Level" or (o.users_collection[0] in D.collections["Level"].children_recursive)
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# meshes can either be Meshes, or Armatures. Armatures contain all mesh data to draw it, and any anims it has
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for o in D.objects:
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if o.hide_get(): continue
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if o.type == "MESH":
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if o.parent and o.parent.type == "ARMATURE":
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mesh_object = o
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o = o.parent
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object_transform_info = (mesh_name, mapping @ o.location, o.rotation_euler, o.scale)
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if object_in_level(o):
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assert False, "Cannot put armatures in the level. The level is for static placed meshes. For dynamic entities, you put them outside of the level collection, their entity kind is encoded, and the game code decides how to draw them"
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else:
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pass
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#placed_entities.append((mesh_object.name,) + object_transform_info)
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armature_name = o.data.name
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output_filepath = bpy.path.abspath(f"//{EXPORT_DIRECTORY}/{armature_name}.bin")
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image_filename = ensure_tex_saved_and_get_name(mesh_object)
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print(f"Exporting armature with image filename {image_filename} to {output_filepath}")
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with open(output_filepath, "wb") as f:
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write_b8(f, True)
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write_string(f, image_filename)
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bones_in_armature = []
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for b in o.data.bones:
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bones_in_armature.append(b)
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# the inverse model space pos of the bones
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write_u64(f, len(bones_in_armature))
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for b in bones_in_armature:
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model_space_pose = mapping @ b.matrix_local
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inverse_model_space_pose = (mapping @ b.matrix_local).inverted()
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parent_index = -1
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if b.parent:
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for i in range(len(bones_in_armature)):
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if bones_in_armature[i] == b.parent:
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parent_index = i
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break
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if parent_index == -1:
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assert False, f"Couldn't find parent of bone {b}"
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#print(f"Parent of bone {b.name} is index {parent_index} in list {bones_in_armature}")
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write_i32(f, parent_index)
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write_4x4matrix(f, model_space_pose)
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write_4x4matrix(f, inverse_model_space_pose)
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write_f32(f, b.length)
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# write the pose information
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# it's very important that the array of pose bones contains the same amount of bones
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# as there are in the edit bones. Because the edit bones are exported, etc etc. Cowabunga!
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assert(len(o.pose.bones) == len(bones_in_armature))
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armature = o
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anims = []
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assert armature.animation_data, "Armatures are assumed to have an animation right now"
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for track in armature.animation_data.nla_tracks:
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for strip in track.strips:
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anims.append(strip.action)
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print(f"Writing {len(anims)} animations")
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write_u64(f, len(anims))
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for animation in anims:
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write_string(f, animation.name)
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armature.animation_data.action = animation
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startFrame = int(animation.frame_range.x)
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endFrame = int(animation.frame_range.y)
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total_frames = (endFrame - startFrame) + 1 # the end frame is inclusive
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print(f"Exporting animation {animation.name} with {total_frames} frames")
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write_u64(f, total_frames)
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time_per_anim_frame = 1.0 / float(bpy.context.scene.render.fps)
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for frame in range(startFrame, endFrame+1):
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time_through_this_frame_occurs_at = (frame - startFrame) * time_per_anim_frame
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bpy.context.scene.frame_set(frame)
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write_f32(f, time_through_this_frame_occurs_at)
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for pose_bone_i in range(len(o.pose.bones)):
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pose_bone = o.pose.bones[pose_bone_i]
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# in the engine, it's assumed that the poses are in the same order as the bones
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# they're referring to. This checks that that is the case.
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assert(pose_bone.bone == bones_in_armature[pose_bone_i])
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parent_space_pose = None
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if pose_bone.parent:
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parent_space_pose = pose_bone.parent.matrix.inverted() @ pose_bone.matrix
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else:
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parent_space_pose = mapping @ pose_bone.matrix
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#parent_space_pose = pose_bone.matrix
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#print("parent_space_pose of the bone with no parent:")
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#print(parent_space_pose)
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#parent_space_pose = mapping @ pose_bone.matrix
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translation = parent_space_pose.to_translation()
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rotation = parent_space_pose.to_quaternion()
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scale = parent_space_pose.to_scale()
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write_v3(f, translation)
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write_quat(f, rotation)
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write_v3(f, scale)
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# write the mesh data for the armature
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bm = bmesh.new()
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mesh = mesh_object.to_mesh()
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bm.from_mesh(mesh)
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bmesh.ops.triangulate(bm, faces=bm.faces)
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bm.transform(mapping)
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bm.to_mesh(mesh)
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vertices = []
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armature = o
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for polygon in mesh.polygons:
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if len(polygon.loop_indices) == 3:
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for loopIndex in polygon.loop_indices:
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loop = mesh.loops[loopIndex]
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position = mesh.vertices[loop.vertex_index].undeformed_co
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uv = mesh.uv_layers.active.data[loop.index].uv
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normal = loop.normal
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jointIndices = [0,0,0,0]
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jointWeights = [0,0,0,0]
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for jointBindingIndex, group in enumerate(mesh.vertices[loop.vertex_index].groups):
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if jointBindingIndex < 4:
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groupIndex = group.group
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boneName = mesh_object.vertex_groups[groupIndex].name
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jointIndices[jointBindingIndex] = armature.data.bones.find(boneName)
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if jointIndices[jointBindingIndex] == -1:
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# it's fine that this references a real bone, the bone at index 0,
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# because the weight of its influence is 0
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jointIndices[jointBindingIndex] = 0
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jointWeights[jointBindingIndex] = 0.0
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else:
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jointWeights[jointBindingIndex] = group.weight
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vertices.append((position, uv, jointIndices, normalize_joint_weights(jointWeights)))
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write_u64(f, len(vertices))
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vertex_i = 0
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for v_and_uv in vertices:
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v, uv, jointIndices, jointWeights = v_and_uv
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write_f32(f, v.x)
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write_f32(f, v.y)
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write_f32(f, v.z)
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write_f32(f, uv.x)
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write_f32(f, uv.y)
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for i in range(4):
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write_u16(f, jointIndices[i])
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for i in range(4):
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write_f32(f, jointWeights[i])
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vertex_i += 1
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print(f"Wrote {len(vertices)} vertices")
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else: # if the parent type isn't an armature, i.e just a bog standard mesh
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mesh_name = o.to_mesh().name # use this over o.name so instanced objects which refer to the same mesh, both use the same serialized mesh.
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object_transform_info = (mesh_name, mapping @ o.location, o.rotation_euler, o.scale)
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if object_in_level(o) and mesh_name == "CollisionCube":
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collision_cubes.append((o.location, o.dimensions))
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else:
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if object_in_level(o):
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print(f"Object {o.name} has mesh name {o.to_mesh().name}")
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assert(o.rotation_euler.order == 'XYZ')
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level_object_data.append(object_transform_info)
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else:
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placed_entities.append((o.name,) + object_transform_info)
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if mesh_name in saved_meshes:
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continue
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saved_meshes.add(mesh_name)
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print(f"Mesh name {mesh_name} in level {object_in_level(o)} collections {o.users_collection}")
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image_filename = ensure_tex_saved_and_get_name(o)
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assert(mesh_name != LEVEL_EXPORT_NAME)
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output_filepath = bpy.path.abspath(f"//{EXPORT_DIRECTORY}/{mesh_name}.bin")
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print(f"Exporting mesh to {output_filepath} with image_filename {image_filename}")
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with open(output_filepath, "wb") as f:
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write_b8(f, False) # if it's an armature or not, first byte of the file
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write_string(f, image_filename) # the image filename!
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bm = bmesh.new()
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mesh = o.to_mesh()
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bm.from_mesh(mesh)
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bmesh.ops.triangulate(bm, faces=bm.faces)
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bm.transform(mapping)
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bm.to_mesh(mesh)
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vertices = []
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for polygon in mesh.polygons:
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if len(polygon.loop_indices) == 3:
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for loopIndex in polygon.loop_indices:
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loop = mesh.loops[loopIndex]
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position = mesh.vertices[loop.vertex_index].undeformed_co
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uv = mesh.uv_layers.active.data[loop.index].uv
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normal = loop.normal
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vertices.append((position, uv))
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write_u64(f, len(vertices))
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print(f"\n\n{output_filepath} vertices:")
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for v_and_uv in vertices:
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v, uv = v_and_uv
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write_f32(f, v.x)
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write_f32(f, v.y)
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write_f32(f, v.z)
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write_f32(f, uv.x)
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write_f32(f, uv.y)
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if len(vertices) < 100:
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print(v)
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print(f"Wrote {len(vertices)} vertices")
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with open(bpy.path.abspath(f"//{EXPORT_DIRECTORY}/{LEVEL_EXPORT_NAME}.bin"), "wb") as f:
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write_u64(f, len(level_object_data))
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for o in level_object_data:
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mesh_name, blender_pos, blender_rotation, blender_scale = o
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print(f"Writing instanced object of mesh {mesh_name}")
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write_string(f, mesh_name)
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write_f32(f, blender_pos.x)
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write_f32(f, blender_pos.y)
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write_f32(f, blender_pos.z)
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write_f32(f, blender_rotation.x)
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write_f32(f, blender_rotation.y)
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write_f32(f, blender_rotation.z)
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write_f32(f, blender_scale.x)
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write_f32(f, blender_scale.y)
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write_f32(f, blender_scale.z)
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write_u64(f, len(collision_cubes))
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for c in collision_cubes:
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blender_pos, blender_dims = c
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write_f32(f, blender_pos.x)
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write_f32(f, -blender_pos.y)
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write_f32(f, blender_dims.x)
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write_f32(f, blender_dims.y)
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assert(blender_dims.x > 0.0)
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assert(blender_dims.y > 0.0)
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write_u64(f, len(placed_entities))
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for p in placed_entities:
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# underscore is mesh name, prefer object name for name of npc. More obvious
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object_name, _, blender_pos, blender_rotation, blender_scale = p
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print(f"Writing placed entity '{object_name}'")
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write_string(f, object_name)
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write_f32(f, blender_pos.x)
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write_f32(f, blender_pos.y)
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write_f32(f, blender_pos.z)
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write_f32(f, blender_rotation.x)
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write_f32(f, blender_rotation.y)
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write_f32(f, blender_rotation.z)
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write_f32(f, blender_scale.x)
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write_f32(f, blender_scale.y)
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write_f32(f, blender_scale.z)
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