Asset Pipeline v2 #145
@ -1,5 +1,5 @@
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import bpy
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from bpy import context
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from typing import Dict, Tuple, List
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from ..naming import get_basename, task_layer_prefix_name_get
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from ..drivers import find_drivers, copy_driver
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from ..visibility import override_obj_visability
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@ -15,8 +15,7 @@ from ... import constants
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import mathutils
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import bmesh
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import numpy as np
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import time
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from mathutils import Vector, kdtree
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## FUNCTIONS SPECFIC TO TRANSFER DATA TYPES
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@ -55,35 +54,160 @@ def transfer_vertex_group(
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if target_obj == source_obj:
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return
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if target_obj.vertex_groups.get(vertex_group_name):
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target_obj.vertex_groups.remove(target_obj.vertex_groups.get(vertex_group_name))
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if not source_obj.vertex_groups.get(vertex_group_name):
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print(f"ERROR Vertex Group {vertex_group_name} not found in {source_obj.name}")
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return
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vgroups = source_obj.vertex_groups
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kd_tree = build_kdtree(source_obj.data)
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tgt_vg = target_obj.vertex_groups.get(vertex_group_name)
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if tgt_vg:
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target_obj.vertex_groups.remove(tgt_vg)
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source_obj.vertex_groups.active = source_obj.vertex_groups.get(vertex_group_name)
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# HACK without this sleep function Push will crash when transferring large amount of vertex groups
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time.sleep(0.00000000000001)
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vert_influence_map = build_vert_influence_map(
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source_obj, target_obj, kd_tree, 2
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)
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transfer_vertex_groups(source_obj, target_obj, vert_influence_map, vgroups)
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# DEBUG WHY THIS FAILS TO TRANSFER VERTEX GROUPS IN 4.0
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with context.temp_override(
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object=source_obj, selected_editable_objects=[target_obj, source_obj]
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):
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bpy.ops.object.data_transfer(
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data_type="VGROUP_WEIGHTS",
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use_create=True,
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vert_mapping='POLYINTERP_NEAREST',
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layers_select_src="ACTIVE",
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layers_select_dst="NAME",
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mix_mode="REPLACE",
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def precalc_and_transfer_single_group(source_obj, target_obj, vgroup_name, expand=2):
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"""Convenience function to transfer a single group. For transferring multiple groups,
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this is very inefficient and shouldn't be used.
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Instead, you should:
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- build_kd_tree ONCE per source mesh.
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- build_vert_influence_map and transfer_vertex_groups ONCE per object pair.
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"""
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# Remove group from the target obj if it already exists.
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tgt_vg = target_obj.vertex_groups.get(vgroup_name)
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if tgt_vg:
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target_obj.vertex_groups.remove(tgt_vg)
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kd_tree = build_kdtree(source_obj.data)
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vert_influence_map = build_vert_influence_map(
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source_obj, target_obj, kd_tree, expand
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)
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transfer_vertex_groups(
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source_obj,
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target_obj,
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vert_influence_map,
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vgroups=[source_obj.vertex_groups[vgroup_name]],
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)
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def build_kdtree(mesh):
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kd = kdtree.KDTree(len(mesh.vertices))
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for i, v in enumerate(mesh.vertices):
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kd.insert(v.co, i)
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kd.balance()
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return kd
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def build_vert_influence_map(obj_from, obj_to, kd_tree, expand=2):
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verts_of_edge = {
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i: (e.vertices[0], e.vertices[1]) for i, e in enumerate(obj_from.data.edges)
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}
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edges_of_vert: Dict[int, List[int]] = {}
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for edge_idx, edge in enumerate(obj_from.data.edges):
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for vert_idx in edge.vertices:
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if vert_idx not in edges_of_vert:
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edges_of_vert[vert_idx] = []
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edges_of_vert[vert_idx].append(edge_idx)
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# A mapping from target vertex index to a list of source vertex indicies and
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# their influence.
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# This can be pre-calculated once per object pair, to minimize re-calculations
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# of subsequent transferring of individual vertex groups.
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vert_influence_map: List[int, List[Tuple[int, float]]] = {}
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for i, dest_vert in enumerate(obj_to.data.vertices):
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vert_influence_map[i] = get_source_vert_influences(
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dest_vert, obj_from, kd_tree, expand, edges_of_vert, verts_of_edge
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)
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if not target_obj.vertex_groups.get(vertex_group_name):
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print(
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f"FAILED to Transfer Vertex Group {vertex_group_name} to {target_obj.name}"
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)
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return
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return vert_influence_map
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def get_source_vert_influences(
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target_vert, obj_from, kd_tree, expand=2, edges_of_vert={}, verts_of_edge={}
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) -> List[Tuple[int, float]]:
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_coord, idx, dist = get_nearest_vert(target_vert.co, kd_tree)
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source_vert_indices = [idx]
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if dist == 0:
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# If the vertex position is a perfect match, just use that one vertex with max influence.
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return [(idx, 1)]
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for i in range(0, expand):
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new_indices = []
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for vert_idx in source_vert_indices:
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for edge in edges_of_vert[vert_idx]:
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vert_other = other_vert_of_edge(edge, vert_idx, verts_of_edge)
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if vert_other not in source_vert_indices:
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new_indices.append(vert_other)
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source_vert_indices.extend(new_indices)
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distances: List[Tuple[int, float]] = []
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distance_total = 0
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for src_vert_idx in source_vert_indices:
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distance = (target_vert.co - obj_from.data.vertices[src_vert_idx].co).length
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distance_total += distance
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distances.append((src_vert_idx, distance))
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# Calculate influences such that the total of all influences adds up to 1.0,
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# and the influence is inversely correlated with the distance.
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parts = [1 / (dist / distance_total) for idx, dist in distances]
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parts_sum = sum(parts)
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influences = [
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(idx, 1 if dist == 0 else part / parts_sum)
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for part, dist in zip(parts, distances)
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]
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return influences
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def get_nearest_vert(
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coords: Vector, kd_tree: kdtree.KDTree
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) -> Tuple[Vector, int, float]:
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"""Return coordinate, index, and distance of nearest vert to coords in kd_tree."""
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return kd_tree.find(coords)
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def other_vert_of_edge(
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edge: int, vert: int, verts_of_edge: Dict[int, Tuple[int, int]]
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) -> int:
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verts = verts_of_edge[edge]
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assert vert in verts, f"Vert {vert} not part of edge {edge}."
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return verts[0] if vert == verts[1] else verts[1]
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def transfer_vertex_groups(obj_from, obj_to, vert_influence_map, src_vgroups):
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"""Transfer src_vgroups in obj_from to obj_to using a pre-calculated vert_influence_map."""
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for i, dest_vert in enumerate(obj_to.data.vertices):
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source_verts = vert_influence_map[i]
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# Vertex Group Name : Weight
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vgroup_weights = {}
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for src_vert_idx, influence in source_verts:
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for group in obj_from.data.vertices[src_vert_idx].groups:
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group_idx = group.group
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vg = obj_from.vertex_groups[group_idx]
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if vg.name not in src_vgroups:
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continue
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if vg.name not in vgroup_weights:
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vgroup_weights[vg.name] = 0
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vgroup_weights[vg.name] += vg.weight(src_vert_idx) * influence
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# Assign final weights of this vertex in the vertex groups.
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for vg_name in vgroup_weights.keys():
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target_vg = obj_to.vertex_groups.get(vg_name)
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if target_vg == None:
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target_vg = obj_to.vertex_groups.new(name=vg_name)
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target_vg.add([dest_vert.index], vgroup_weights[vg_name], 'REPLACE')
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# MODIFIERS
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def modifiers_clean(obj):
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