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carbon_tools.py
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carbon_tools.py
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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# Copyright (c) 2023 Jakub Uhlik
bl_info = {"name": "Carbon Tools",
"description": "Ever-evolving set of small tools, workflows and shortcuts focused mainly on processing photogrammetry scans.",
"author": "Jakub Uhlik",
"version": (0, 2, 3),
"blender": (2, 80, 0),
"location": "3D Viewport > Sidebar > Carbon Tools",
"warning": "",
"wiki_url": "",
"tracker_url": "",
"category": "Object", }
import os
import uuid
import sys
import math
import bpy
import bmesh
from bpy.types import Operator, Panel, AddonPreferences
from mathutils import Vector, Matrix
from bpy.props import FloatProperty, IntProperty, BoolProperty, StringProperty, EnumProperty, PointerProperty
from bpy.types import PropertyGroup
import numpy as np
DEBUG = False
def log(msg, indent=0, ):
m = "{0}> {1}".format(" " * indent, msg)
if(DEBUG):
print(m)
class ObjDiff():
_objects = None
@classmethod
def diff(cls):
obs = [o for o in bpy.data.objects]
if(cls._objects is None):
cls._objects = obs
return None, None, None
a = list(set(obs) - set(cls._objects))
d = list(set(cls._objects) - set(obs))
u = list((set(cls._objects) - set(a)) - set(d))
cls._objects = obs
return a, d, u
class Utils():
@classmethod
def activate_object(cls, o):
bpy.ops.object.select_all(action='DESELECT')
context = bpy.context
view_layer = context.view_layer
o.select_set(True)
view_layer.objects.active = o
@classmethod
def get_spaceview3d(cls):
for a in bpy.context.screen.areas:
if(a.type == "VIEW_3D"):
return a.spaces[0]
return None
@classmethod
def normalize(cls, v, vmin, vmax):
return (v - vmin) / (vmax - vmin)
@classmethod
def interpolate(cls, nv, vmin, vmax):
return vmin + (vmax - vmin) * nv
@classmethod
def map(cls, v, min1, max1, min2, max2):
return cls.remap(v, min1, max1, min2, max2)
@classmethod
def remap(cls, v, min1, max1, min2, max2):
v = cls.clamp(v, min1, max1)
r = cls.interpolate(cls.normalize(v, min1, max1), min2, max2)
r = cls.clamp(r, min2, max2)
return r
@classmethod
def clamp(cls, v, vmin, vmax):
if(vmax <= vmin):
raise ValueError("Maximum value is smaller than or equal to minimum.")
if(v <= vmin):
return vmin
if(v >= vmax):
return vmax
return v
@classmethod
def maprange(cls, v, ar, br, ):
(a1, a2), (b1, b2) = ar, br
return b1 + ((v - a1) * (b2 - b1) / (a2 - a1))
@classmethod
def distance_vectors(cls, a, b, ):
return ((a.x - b.x) ** 2 + (a.y - b.y) ** 2 + (a.z - b.z) ** 2) ** 0.5
@classmethod
def distance_tuples(cls, a, b, ):
return ((a[0] - b[0]) ** 2 + (a[1] - b[1]) ** 2 + (a[2] - b[2]) ** 2) ** 0.5
@classmethod
def distance(cls, a, b, ):
if(type(a) is Vector and type(b) is Vector):
return cls.distance_vectors(a, b)
return cls.distance_tuples(a, b)
@classmethod
def real_length_to_relative(cls, matrix, length):
l, r, s = matrix.decompose()
ms = Matrix.Scale(s.x, 4)
l = Vector((length, 0, 0))
v = ms.inverted() @ l
return v.x
@classmethod
def shift_vert_along_normal(cls, tco, tno, v):
co = Vector(tco)
no = Vector(tno)
return co + (no.normalized() * v)
class Progress():
def __init__(self, total, indent=0, prefix="> ", ):
self.current = 0
self.percent = -1
self.last = -1
self.total = total
self.prefix = prefix
self.indent = indent
self.t = " "
self.r = "\r"
self.n = "\n"
def step(self, numdone=1):
if(not DEBUG):
return
self.current += numdone
self.percent = int(self.current / (self.total / 100))
if(self.percent > self.last):
sys.stdout.write(self.r)
sys.stdout.write("{0}{1}{2}%".format(self.t * self.indent, self.prefix, self.percent))
self.last = self.percent
if(self.percent >= 100 or self.total == self.current):
sys.stdout.write(self.r)
sys.stdout.write("{0}{1}{2}%{3}".format(self.t * self.indent, self.prefix, 100, self.n))
class CARBON_OT_quick_mesh_dyntopo_cleanup(Operator):
bl_idname = "carbon_tools.quick_mesh_dyntopo_cleanup_setup"
bl_label = "Quick Mesh Dyntopo Cleanup Setup"
bl_description = "From Object mode go to Sculpt mode, enable Dyntopo and set zero strength to default brush. This is for mesh topology cleanup, not sculpting."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT')
def execute(self, context):
ctp = context.scene.carbon_tools
bpy.ops.object.select_all(action='DESELECT')
bpy.context.object.show_wire = True
bpy.ops.sculpt.sculptmode_toggle()
bpy.data.brushes["SculptDraw"].strength = 0
if(not context.sculpt_object.use_dynamic_topology_sculpting):
bpy.ops.sculpt.dynamic_topology_toggle()
# bpy.context.scene.tool_settings.sculpt.detail_refine_method = 'COLLAPSE'
bpy.context.scene.tool_settings.sculpt.detail_refine_method = ctp.dyntopo_method
bpy.context.scene.tool_settings.sculpt.detail_type_method = 'CONSTANT'
# bpy.context.scene.tool_settings.sculpt.constant_detail_resolution = 500
bpy.context.scene.tool_settings.sculpt.constant_detail_resolution = ctp.dyntopo_resolution
bpy.context.scene.tool_settings.sculpt.use_symmetry_x = False
return {'FINISHED'}
class CARBON_OT_extract_mesh_part(Operator):
bl_idname = "carbon_tools.extract_mesh_part"
bl_label = "Extract Mesh Part aka Extract Subtool"
bl_description = "Extract selected part of mesh (in Edit mode) and put it in separate child object for faster mesh editing."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
# return (o and o.type == 'MESH' and context.mode == 'EDIT_MESH')
return (o and o.type == 'MESH')
def extract(self, context, ):
o = context.active_object
sm = context.tool_settings.mesh_select_mode[:]
context.tool_settings.mesh_select_mode = (False, False, True)
ObjDiff.diff()
bpy.ops.mesh.separate(type='SELECTED')
bpy.ops.object.mode_set(mode='OBJECT')
a, _, _ = ObjDiff.diff()
e = a[0]
Utils.activate_object(e)
n = o.name
e.name = "{}-{}-extracted".format(n, uuid.uuid1())
e.parent = o
e.matrix_world = o.matrix_world.copy()
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.select_all(action='DESELECT')
context.tool_settings.mesh_select_mode = (True, False, False)
ctp = context.scene.carbon_tools
if(ctp.extract_protect):
bpy.ops.mesh.select_non_manifold()
bpy.ops.mesh.hide(unselected=False)
context.tool_settings.mesh_select_mode = sm
return True
def execute(self, context):
r = self.extract(context)
if(r is False):
return {'CANCELLED'}
return {'FINISHED'}
class CARBON_OT_insert_mesh_part(Operator):
bl_idname = "carbon_tools.insert_mesh_part"
bl_label = "Insert Mesh Part aka Insert Subtool"
bl_description = "Insert separated mesh part back to original mesh and merge."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
# return (o and o.type == 'MESH' and context.mode == 'EDIT_MESH')
return (o and o.type == 'MESH' and context.mode == 'OBJECT')
def insert(self, context):
o = context.active_object
p = o.parent
if(p is None):
self.report({'ERROR'}, "Not a subtool.")
return False
# bpy.ops.object.mode_set(mode='OBJECT')
if(context.mode != 'EDIT'):
Utils.activate_object(o)
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.reveal()
bpy.ops.mesh.select_all(action='DESELECT')
bpy.ops.object.mode_set(mode='OBJECT')
Utils.activate_object(p)
o.select_set(True)
bpy.ops.object.join()
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.select_all(action='DESELECT')
context.tool_settings.mesh_select_mode = (True, False, False)
bpy.ops.mesh.select_non_manifold()
# t = real_length_to_relative(p.matrix_world, 0.00001)
bpy.ops.mesh.remove_doubles(threshold=0.0)
bpy.ops.mesh.select_all(action='DESELECT')
bpy.ops.object.mode_set(mode='OBJECT')
return True
def execute(self, context):
r = self.insert(context)
if(r is False):
return {'CANCELLED'}
return {'FINISHED'}
class CARBON_OT_extract_non_manifold_elements(Operator):
bl_idname = "carbon_tools.extract_non_manifold_elements"
bl_label = "Extract Non-Manifold"
bl_description = "Extract non-manifold elements with part of mesh around them as subtool"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
return (o and o.type == 'MESH' and context.mode == 'EDIT_MESH')
def execute(self, context):
o = context.active_object
sm = context.tool_settings.mesh_select_mode[:]
context.tool_settings.mesh_select_mode = (True, False, False)
bpy.ops.mesh.select_all(action='DESELECT')
bpy.ops.mesh.select_non_manifold()
bpy.ops.object.mode_set(mode='OBJECT')
ok = sum([v.select for v in o.data.vertices])
bpy.ops.object.mode_set(mode='EDIT')
if(not ok):
self.report({'ERROR'}, "Nothing non-manifold found.")
return {'CANCELLED'}
for i in range(10):
bpy.ops.mesh.select_more()
ct = context.scene.carbon_tools
ctep = ct.extract_protect
ct.extract_protect = False
bpy.ops.carbon_tools.extract_mesh_part()
ct.extract_protect = ctep
context.tool_settings.mesh_select_mode = sm
return {'FINISHED'}
class CARBON_OT_copy_original_matrix(Operator):
bl_idname = "carbon_tools.copy_original_matrix"
bl_label = "Copy Original Matrix from Selected to Active"
bl_description = "Select matrix source object first and then target object. Matrix will be copied while keeping visual transformation intact."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
return (o and o.type == 'MESH' and len(context.selected_objects) == 2)
def execute(self, context):
o = context.active_object
s = [ob for ob in context.selected_objects if ob != o][0]
m = s.matrix_world.copy()
mi = m.inverted()
me = o.data
me.transform(o.matrix_world)
o.matrix_world = Matrix()
me.transform(mi)
o.matrix_world = m
me.update()
return {'FINISHED'}
class CARBON_OT_copy_transformation(Operator):
bl_idname = "carbon_tools.copy_transformation"
bl_label = "Copy Transformation from Selected to Active"
bl_description = "Copy transformation from selected to active. Useful for setting correct scale and orientation after initial import from PhotoScan."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
return (o and o.type == 'MESH' and len(context.selected_objects) == 2)
def execute(self, context):
o = context.active_object
m = o.matrix_world.copy()
s = [a for a in context.selected_objects if a != o][0]
s.matrix_world = m
return {'FINISHED'}
class CARBON_OT_export_obj_to_zbrush(Operator):
bl_idname = "carbon_tools.export_obj_to_zbrush"
bl_label = "Export OBJ to ZBrush"
bl_description = "Export active mesh to ZBrush."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
d = bpy.data
# return (ob and ob.type == 'MESH' and context.mode == 'OBJECT' and d.is_saved and not d.is_dirty)
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT' and d.is_saved)
def execute(self, context):
b = bpy.data.filepath
h, t = os.path.split(b)
n, e = os.path.splitext(t)
p = os.path.join(h, '{}.obj'.format(n))
d = {'filepath': p,
'apply_modifiers': False,
'apply_transformation': True,
'convert_axes': True,
'triangulate': False,
'use_normals': True,
'use_uv': True,
'use_vcols': False,
'global_scale': 1.0,
'precision': 6, }
try:
bpy.ops.export_mesh.fast_obj(**d)
except AttributeError:
self.report({'ERROR'}, "'Fast Wavefront^2' addon is not installed and activated")
return {'CANCELLED'}
return {'FINISHED'}
class CARBON_OT_import_obj_from_zbrush(Operator):
bl_idname = "carbon_tools.import_obj_from_zbrush"
bl_label = "Import OBJ from ZBrush"
bl_description = "Import OBJ from ZBrush."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
return (context.mode == 'OBJECT')
def execute(self, context):
d = {'convert_axes': True,
'with_uv': True,
'with_vertex_colors_mrgb': False,
'with_vertex_colors_extended': False,
'vcols_ext_with_gamma': False,
'use_m_as_vertex_group': False,
'with_polygroups': False,
'global_scale': 1.0,
'apply_conversion': True, }
try:
bpy.ops.import_mesh.fast_obj('INVOKE_DEFAULT', **d)
except AttributeError:
self.report({'ERROR'}, "'Fast Wavefront^2' addon is not installed and activated")
return {'CANCELLED'}
return {'FINISHED'}
class CARBON_OT_export_obj_to_photoscan(Operator):
bl_idname = "carbon_tools.export_obj_to_photoscan"
bl_label = "Export OBJ to PhotoScan"
bl_description = "Export active mesh to PhotoScan."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
d = bpy.data
# return (ob and ob.type == 'MESH' and context.mode == 'OBJECT' and d.is_saved and not d.is_dirty)
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT' and d.is_saved)
def execute(self, context):
b = bpy.data.filepath
h, t = os.path.split(b)
n, e = os.path.splitext(t)
p = os.path.join(h, '{}.obj'.format(n))
d = {'filepath': p,
'apply_modifiers': False,
'apply_transformation': False,
'convert_axes': False,
'triangulate': False,
'use_normals': True,
'use_uv': True,
'use_vcols': False,
'global_scale': 1.0,
'precision': 6, }
try:
bpy.ops.export_mesh.fast_obj(**d)
except AttributeError:
self.report({'ERROR'}, "'Fast Wavefront^2' addon is not installed and activated")
return {'CANCELLED'}
return {'FINISHED'}
class CARBON_OT_quick_texture_painting_setup(Operator):
bl_idname = "carbon_tools.quick_texture_painting_setup"
bl_label = "Quick Texture Painting Setup"
bl_description = "Setup Texture painting, basically just set settings for External editing of viewport snapshots."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT')
def execute(self, context):
bpy.ops.paint.texture_paint_toggle()
ctp = context.scene.carbon_tools
bpy.context.object.show_wire = False
r = int(ctp.tp_ext_resolution)
bpy.context.scene.tool_settings.image_paint.screen_grab_size[0] = r
bpy.context.scene.tool_settings.image_paint.screen_grab_size[1] = r
bpy.context.scene.tool_settings.image_paint.seam_bleed = 8
bpy.data.brushes["TexDraw"].strength = 0
v = Utils.get_spaceview3d()
if(v is not None):
v.shading.color_type = 'TEXTURE'
v.shading.light = 'FLAT'
v.overlay.show_overlays = False
return {'FINISHED'}
class CARBON_OT_save_all_images(Operator):
bl_idname = "carbon_tools.save_all_images"
bl_label = "Save All Images"
bl_description = "Shortcut to Texture Painting > Slots > Save All Images."
bl_options = {'REGISTER', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'PAINT_TEXTURE')
def execute(self, context):
bpy.ops.image.save_all_modified()
return {'FINISHED'}
class CARBON_OT_end_current_procedure(Operator):
bl_idname = "carbon_tools.end_current_procedure"
bl_label = "End Current Procedure"
bl_description = "Well, that doesn't explain... why you've come all the way out here, all the way out here to hell. I, uh, have a job out in the town of Machine. Machine? That's the end of the line."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode != 'OBJECT')
def execute(self, context):
ctp = context.scene.carbon_tools
bpy.ops.object.mode_set(mode='OBJECT')
if(not ctp.end_keep_wire):
bpy.context.object.show_wire = False
Utils.activate_object(context.active_object)
v = Utils.get_spaceview3d()
if(v is not None):
v.shading.color_type = 'MATERIAL'
v.shading.light = 'STUDIO'
v.overlay.show_overlays = True
return {'FINISHED'}
class CARBON_OT_select_seams(Operator):
bl_idname = "carbon_tools.select_seams"
bl_label = "Select Seams"
bl_description = "Set seam edges selected"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and (context.mode == 'EDIT_MESH' or context.mode == 'OBJECT'))
def execute(self, context):
if(context.mode == 'OBJECT'):
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.select_all(action='DESELECT')
context.tool_settings.mesh_select_mode = (False, True, False)
bpy.ops.object.mode_set(mode='OBJECT')
o = context.active_object
m = o.data
for e in m.edges:
if(e.use_seam):
e.select = True
bpy.ops.object.mode_set(mode='EDIT')
return {'FINISHED'}
class CARBON_OT_mark_seams_from_uv_islands(Operator):
bl_idname = "carbon_tools.mark_seams_from_uv_islands"
bl_label = "Mark Seams From UV Islands"
bl_description = "Mark Seams From UV Islands"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and (context.mode == 'EDIT_MESH' or context.mode == 'OBJECT') and len(ob.data.uv_layers) > 0)
def execute(self, context):
e = True
if(context.mode != 'EDIT_MESH'):
e = False
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.uv.seams_from_islands()
if(not e):
bpy.ops.object.mode_set(mode='OBJECT')
return {'FINISHED'}
class CARBON_OT_export_uv_layout(Operator):
bl_idname = "carbon_tools.export_uv_layout"
bl_label = "Export UV Layout"
bl_description = "Export UV layout and png with resolution preset and fill opacity 1.0"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT' and len(ob.data.uv_layers) > 0)
def execute(self, context):
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.select_all(action='SELECT')
# original_type = context.area.type
# context.area.type = "IMAGE_EDITOR"
b = bpy.data.filepath
h, t = os.path.split(b)
n, e = os.path.splitext(t)
p = os.path.join(h, '{}.png'.format(n))
if(os.path.exists(p)):
p = os.path.join(h, '{}-{}.png'.format(n, uuid.uuid1()))
ctp = context.scene.carbon_tools
r = int(ctp.export_uv_layout_resolution)
# bpy.ops.uv.export_layout(filepath=p, check_existing=False, export_all=False, modified=False, mode='PNG', size=(r, r), opacity=1.0, tessellated=False, )
bpy.ops.uv.export_layout(filepath=p, export_all=False, modified=False, mode='PNG', size=(r, r), opacity=1.0, )
# context.area.type = original_type
bpy.ops.object.mode_set(mode='OBJECT')
return {'FINISHED'}
class CARBON_OT_toggle_unselected_wireframe(Operator):
bl_idname = "carbon_tools.toggle_unselected_wireframe"
bl_label = "Toggle Unselected Wireframe"
bl_description = "Set object to draw wire, all edges and unselect object to be better visible in viewport"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT')
def execute(self, context):
ob = context.active_object
if(ob.show_wire):
ob.show_wire = False
ob.show_all_edges = False
# ob.select = True
ob.select_set(True)
else:
ob.show_wire = True
ob.show_all_edges = True
# ob.select = False
ob.select_set(False)
return {'FINISHED'}
class CARBON_OT_visualize_uv_seams_as_wireframe_mesh(Operator):
bl_idname = "carbon_tools.visualize_uv_seams_as_wireframe_mesh"
bl_label = "Visualize UV Seams As Wireframe Mesh"
bl_description = "Copy seam edges to a new mesh object"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
ob = context.active_object
return (ob and ob.type == 'MESH' and context.mode == 'OBJECT')
def execute(self, context):
ObjDiff.diff()
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.mesh.select_all(action='DESELECT')
bpy.ops.carbon_tools.select_seams()
bpy.ops.mesh.duplicate(mode=1)
ob = context.active_object
bm = bmesh.from_edit_mesh(ob.data)
bm.verts.ensure_lookup_table()
ok = False
for v in bm.verts:
if(v.select):
ok = True
break
if(not ok):
self.report({'ERROR'}, "Mesh has no seams to be selected.")
return {'CANCELLED'}
bpy.ops.mesh.separate(type='SELECTED')
a, _, _ = ObjDiff.diff()
bpy.ops.object.mode_set(mode='OBJECT')
o = a[0]
Utils.activate_object(o)
bpy.ops.carbon_tools.toggle_unselected_wireframe()
return {'FINISHED'}
class CARBON_OT_select_non_manifold_extra(Operator):
bl_idname = "carbon_tools.select_non_manifold_extra"
bl_label = "Select Non-Manifold"
bl_description = "Select non-manifold and optionally center camera view on selected"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
o = context.active_object
sm = tuple([i for i in context.tool_settings.mesh_select_mode]) != (False, False, True)
return (o and o.type == 'MESH' and context.mode == 'EDIT_MESH' and sm)
def execute(self, context):
bpy.ops.mesh.select_non_manifold()
ctp = context.scene.carbon_tools
if(ctp.select_non_manifold_extra_auto_view):
bpy.ops.view3d.view_selected(use_all_regions=False)
return {'FINISHED'}
class CARBON_OT_texture_to_vertex_colors(Operator):
bl_idname = "carbon_tools.texture_to_vertex_colors"
bl_label = "UVTex > VCols"
bl_description = "Copy image colors from active image texture node in active material using active UV layout to new vertex colors"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
# o = context.active_object
# o_ok = (o is not None and o.type == 'MESH' and context.mode == 'OBJECT')
# m = o.active_material
# m_ok = (m is not None)
# n_ok = False
# i_ok = False
# u_ok = (o.data.uv_layers.active is not None)
# if(m_ok):
# n = m.node_tree.nodes.active
# n_ok = (n.type == 'TEX_IMAGE')
# if(n_ok):
# if(n.image is not None):
# i = n.image
# i_ok = os.path.exists(i.filepath_from_user())
# return (o_ok and m_ok and n_ok and i_ok and u_ok)
if(context.mode != 'OBJECT'):
return False
o = context.active_object
if(not o):
return False
if(o.type != 'MESH'):
return False
m = o.active_material
if(not m):
return False
d = o.data
if(not d.uv_layers.active):
return False
n = m.node_tree.nodes.active
if(not n):
return False
if(n.type != 'TEX_IMAGE'):
return False
if(not n.image):
return False
i = n.image
if(not os.path.exists(i.filepath_from_user())):
return False
return True
def execute(self, context):
log(self.bl_idname, 0)
def remap(v, min1, max1, min2, max2):
def clamp(v, vmin, vmax):
if(vmax <= vmin):
raise ValueError("Maximum value is smaller than or equal to minimum.")
if(v <= vmin):
return vmin
if(v >= vmax):
return vmax
return v
def normalize(v, vmin, vmax):
return (v - vmin) / (vmax - vmin)
def interpolate(nv, vmin, vmax):
return vmin + (vmax - vmin) * nv
v = clamp(v, min1, max1)
r = interpolate(normalize(v, min1, max1), min2, max2)
r = clamp(r, min2, max2)
return r
o = context.active_object
m = o.active_material
n = m.node_tree.nodes.active
im = n.image
im.update()
w, h = im.size
a = np.asarray(im.pixels)
a = a.reshape((h, w, 4))
o.data.vertex_colors.new(name=im.name)
bm = bmesh.new()
bm.from_mesh(o.data)
col_layer = bm.loops.layers.color.active
uvl = bm.loops.layers.uv.active
fs = bm.faces
uv_layers = o.data.uv_layers
prgs = Progress(len(fs), 1)
for f in fs:
prgs.step()
ls = f.loops
for l in ls:
x, y = l[uvl].uv.to_tuple()
xx = int(round(remap(x, 0.0, 1.0, 0, w - 1)))
yy = int(round(remap(y, 0.0, 1.0, 0, h - 1)))
l[col_layer] = a[yy][xx]
bm.to_mesh(o.data)
bm.free()
log("done.", 1)
return {'FINISHED'}
class CARBON_OT_vertex_group_to_vertex_colors(Operator):
bl_idname = "carbon_tools.vertex_group_to_vertex_colors"
bl_label = "Group > VCols"
bl_description = "Active vertex group to new vertex colors, vertex weight to rgba(weight, weight, weight, 1.0)"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
if(context.mode != 'OBJECT'):
return False
o = context.active_object
if(not o):
return False
if(o.type != 'MESH'):
return False
if(not o.vertex_groups.active):
return False
return True
def execute(self, context):
log(self.bl_idname, 0)
o = context.active_object
me = o.data
vg = o.vertex_groups.active
# add zero to every vertex to have them all in group
indexes = [i for i in range(len(me.vertices))]
vg.add(indexes, 0.0, 'ADD')
vc = me.vertex_colors.new(name=vg.name)
me.vertex_colors.active = vc
vcd = vc.data
vcols = [None] * len(me.vertices)
log("precalculating colors:", 1)
prgs = Progress(len(me.vertices), 2)
for v in me.vertices:
prgs.step()
i = v.index
w = vg.weight(i)
vcols[i] = (w, w, w, 1.0)
log("assigning colors:", 1)
prgs = Progress(len(me.loops), 2)
for l in me.loops:
prgs.step()
li = l.index
vi = l.vertex_index
vcd[li].color = vcols[vi]
log("done.", 1)
return {'FINISHED'}
class CARBON_OT_vertex_colors_to_vertex_group(Operator):
bl_idname = "carbon_tools.vertex_colors_to_vertex_group"
bl_label = "VCols > Group"
bl_description = "Active vertex colors to new vertex group, vertex weight by color perceived luminance"
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
if(context.mode != 'OBJECT'):
return False
o = context.active_object
if(not o):
return False
if(o.type != 'MESH'):
return False
if(not o.data.vertex_colors.active):
return False
return True
def execute(self, context):
log(self.bl_idname, 0)
o = context.active_object
me = o.data
vc = me.vertex_colors.active
vs = me.vertices
ls = me.loops
vg = o.vertex_groups.new(name=vc.name)
bm = bmesh.new()
bm.from_mesh(me)
lums = [None] * len(vs)
cl = bm.loops.layers.color.active
bm.verts.ensure_lookup_table()
log("precalculating weights:", 1)
prgs = Progress(len(bm.verts), 2)
for i, v in enumerate(bm.verts):
prgs.step()
vi = v.index
lums[vi] = []
ll = v.link_loops
for l in ll:
r, g, b, _ = l[cl][:]
# http://stackoverflow.com/questions/596216/formula-to-determine-brightness-of-rgb-color
lum = math.sqrt(0.299 * r ** 2 + 0.587 * g ** 2 + 0.114 * b ** 2)
lums[vi].append(lum)
ws = [None] * len(vs)
for i, a in enumerate(lums):
ws[i] = sum(a) / float(len(a))
log("assigning weights:", 1)
prgs = Progress(len(vs), 2)
for i, v in enumerate(vs):
prgs.step()
w = ws[i]
# if l is None, means that vertex is not connected to any face > has no loops > has no color/weight
if(l is not None):
vg.add([i], w, 'REPLACE')
bm.free()
log("done.", 1)
return {'FINISHED'}
class CARBON_OT_two_meshes_difference_to_vertex_group(Operator):
bl_idname = "carbon_tools.two_meshes_difference_to_vertex_group"
bl_label = "Difference > Group"
bl_description = "Calculate difference between two selected meshes and write as vertex group to active mesh. Selected is consedered to be original, active to be modified. Objects should have the same transformation."
bl_options = {'REGISTER', 'UNDO', }
@classmethod
def poll(cls, context):
if(context.mode != 'OBJECT'):
return False
o = context.active_object
if(not o):
return False
if(o.type != 'MESH'):
return False
obs = context.selected_objects
if(len(obs) != 2):
return False
for o in obs:
if(o.type != 'MESH'):
return False
return True
def execute(self, context):
log(self.bl_idname, 0)
ctp = context.scene.carbon_tools
modified = context.active_object
original = [o for o in context.selected_objects if o is not modified][0]
identical = True
for i, r in enumerate(original.matrix_world):
for j, c in enumerate(r):
if(c != modified.matrix_world[i][j]):
identical = False
break
if(not identical):
log("Original object matrix and modified object matrix are not equal.", 1, )
log("Will copy matrix from modified to original..", 1, )
mos = repr(original.matrix_world).replace(' ', '').replace('\n', '')