Campbell Barton
f29a738e23
Use keyword only arguments for the following functions.
- addon_utils.module_bl_info 2nd arg `info_basis`.
- addon_utils.modules 1st `module_cache`, 2nd arg `refresh`.
- addon_utils.modules_refresh 1st arg `module_cache`.
- bl_app_template_utils.activate 1nd arg `template_id`.
- bl_app_template_utils.import_from_id 2nd arg `ignore_not_found`.
- bl_app_template_utils.import_from_path 2nd arg `ignore_not_found`.
- bl_keymap_utils.keymap_from_toolbar.generate 2nd & 3rd args `use_fallback_keys` & `use_reset`.
- bl_keymap_utils.platform_helpers.keyconfig_data_oskey_from_ctrl 2nd arg `filter_fn`.
- bl_ui_utils.bug_report_url.url_prefill_from_blender 1st arg `addon_info`.
- bmesh.types.BMFace.copy 1st & 2nd args `verts`, `edges`.
- bmesh.types.BMesh.calc_volume 1st arg `signed`.
- bmesh.types.BMesh.from_mesh 2nd..4th args `face_normals`, `use_shape_key`, `shape_key_index`.
- bmesh.types.BMesh.from_object 3rd & 4th args `cage`, `face_normals`.
- bmesh.types.BMesh.transform 2nd arg `filter`.
- bmesh.types.BMesh.update_edit_mesh 2nd & 3rd args `loop_triangles`, `destructive`.
- bmesh.types.{BMVertSeq,BMEdgeSeq,BMFaceSeq}.sort 1st & 2nd arg `key`, `reverse`.
- bmesh.utils.face_split 4th..6th args `coords`, `use_exist`, `example`.
- bpy.data.libraries.load 2nd..4th args `link`, `relative`, `assets_only`.
- bpy.data.user_map 1st..3rd args `subset`, `key_types, `value_types`.
- bpy.msgbus.subscribe_rna 5th arg `options`.
- bpy.path.abspath 2nd & 3rd args `start` & `library`.
- bpy.path.clean_name 2nd arg `replace`.
- bpy.path.ensure_ext 3rd arg `case_sensitive`.
- bpy.path.module_names 2nd arg `recursive`.
- bpy.path.relpath 2nd arg `start`.
- bpy.types.EditBone.transform 2nd & 3rd arg `scale`, `roll`.
- bpy.types.Operator.as_keywords 1st arg `ignore`.
- bpy.types.Struct.{keyframe_insert,keyframe_delete} 2nd..5th args `index`, `frame`, `group`, `options`.
- bpy.types.WindowManager.popup_menu 2nd & 3rd arg `title`, `icon`.
- bpy.types.WindowManager.popup_menu_pie 3rd & 4th arg `title`, `icon`.
- bpy.utils.app_template_paths 1st arg `subdir`.
- bpy.utils.app_template_paths 1st arg `subdir`.
- bpy.utils.blend_paths 1st..3rd args `absolute`, `packed`, `local`.
- bpy.utils.execfile 2nd arg `mod`.
- bpy.utils.keyconfig_set 2nd arg `report`.
- bpy.utils.load_scripts 1st & 2nd `reload_scripts` & `refresh_scripts`.
- bpy.utils.preset_find 3rd & 4th args `display_name`, `ext`.
- bpy.utils.resource_path 2nd & 3rd arg `major`, `minor`.
- bpy.utils.script_paths 1st..4th args `subdir`, `user_pref`, `check_all`, `use_user`.
- bpy.utils.smpte_from_frame 2nd & 3rd args `fps`, `fps_base`.
- bpy.utils.smpte_from_seconds 2nd & 3rd args `fps`, `fps_base`.
- bpy.utils.system_resource 2nd arg `subdir`.
- bpy.utils.time_from_frame 2nd & 3rd args `fps`, `fps_base`.
- bpy.utils.time_to_frame 2nd & 3rd args `fps`, `fps_base`.
- bpy.utils.units.to_string 4th..6th `precision`, `split_unit`, `compatible_unit`.
- bpy.utils.units.to_value 4th arg `str_ref_unit`.
- bpy.utils.user_resource 2nd & 3rd args `subdir`, `create`
- bpy_extras.view3d_utils.location_3d_to_region_2d 4th arg `default`.
- bpy_extras.view3d_utils.region_2d_to_origin_3d 4th arg `clamp`.
- gpu.offscreen.unbind 1st arg `restore`.
- gpu_extras.batch.batch_for_shader 4th arg `indices`.
- gpu_extras.batch.presets.draw_circle_2d 4th arg `segments`.
- gpu_extras.presets.draw_circle_2d 4th arg `segments`.
- imbuf.types.ImBuf.resize 2nd arg `resize`.
- imbuf.write 2nd arg `filepath`.
- mathutils.kdtree.KDTree.find 2nd arg `filter`.
- nodeitems_utils.NodeCategory 3rd & 4th arg `descriptions`, `items`.
- nodeitems_utils.NodeItem 2nd..4th args `label`, `settings`, `poll`.
- nodeitems_utils.NodeItemCustom 1st & 2nd arg `poll`, `draw`.
- rna_prop_ui.draw 5th arg `use_edit`.
- rna_prop_ui.rna_idprop_ui_get 2nd arg `create`.
- rna_prop_ui.rna_idprop_ui_prop_clear 3rd arg `remove`.
- rna_prop_ui.rna_idprop_ui_prop_get 3rd arg `create`.
- rna_xml.xml2rna 2nd arg `root_rna`.
- rna_xml.xml_file_write 4th arg `skip_typemap`.
257 lines
7.8 KiB
Python
257 lines
7.8 KiB
Python
# ##### BEGIN GPL LICENSE BLOCK #####
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#
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public License
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# as published by the Free Software Foundation; either version 2
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# of the License, or (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software Foundation,
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# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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#
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# ##### END GPL LICENSE BLOCK #####
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# <pep8-80 compliant>
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import bpy
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from bpy.types import Operator
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from bpy.props import (
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EnumProperty,
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IntProperty,
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)
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class MeshMirrorUV(Operator):
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"""Copy mirror UV coordinates on the X axis based on a mirrored mesh"""
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bl_idname = "mesh.faces_mirror_uv"
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bl_label = "Copy Mirrored UV Coords"
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bl_options = {'REGISTER', 'UNDO'}
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direction: EnumProperty(
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name="Axis Direction",
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items=(
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('POSITIVE', "Positive", ""),
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('NEGATIVE', "Negative", ""),
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),
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)
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precision: IntProperty(
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name="Precision",
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description=("Tolerance for finding vertex duplicates"),
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min=1, max=16,
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soft_min=1, soft_max=16,
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default=3,
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)
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# Returns has_active_UV_layer, double_warn.
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def do_mesh_mirror_UV(self, mesh, DIR):
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precision = self.precision
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double_warn = 0
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if not mesh.uv_layers.active:
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# has_active_UV_layer, double_warn
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return False, 0
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# mirror lookups
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mirror_gt = {}
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mirror_lt = {}
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vcos = (v.co.to_tuple(precision) for v in mesh.vertices)
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for i, co in enumerate(vcos):
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if co[0] >= 0.0:
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double_warn += co in mirror_gt
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mirror_gt[co] = i
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if co[0] <= 0.0:
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double_warn += co in mirror_lt
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mirror_lt[co] = i
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vmap = {}
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for mirror_a, mirror_b in ((mirror_gt, mirror_lt),
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(mirror_lt, mirror_gt)):
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for co, i in mirror_a.items():
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nco = (-co[0], co[1], co[2])
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j = mirror_b.get(nco)
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if j is not None:
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vmap[i] = j
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polys = mesh.polygons
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loops = mesh.loops
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uv_loops = mesh.uv_layers.active.data
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nbr_polys = len(polys)
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mirror_pm = {}
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pmap = {}
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puvs = [None] * nbr_polys
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puvs_cpy = [None] * nbr_polys
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puvsel = [None] * nbr_polys
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pcents = [None] * nbr_polys
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vidxs = [None] * nbr_polys
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for i, p in enumerate(polys):
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lstart = lend = p.loop_start
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lend += p.loop_total
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puvs[i] = tuple(uv.uv for uv in uv_loops[lstart:lend])
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puvs_cpy[i] = tuple(uv.copy() for uv in puvs[i])
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puvsel[i] = (False not in
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(uv.select for uv in uv_loops[lstart:lend]))
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# Vert idx of the poly.
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vidxs[i] = tuple(l.vertex_index for l in loops[lstart:lend])
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pcents[i] = p.center
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# Preparing next step finding matching polys.
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mirror_pm[tuple(sorted(vidxs[i]))] = i
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for i in range(nbr_polys):
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# Find matching mirror poly.
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tvidxs = [vmap.get(j) for j in vidxs[i]]
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if None not in tvidxs:
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tvidxs.sort()
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j = mirror_pm.get(tuple(tvidxs))
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if j is not None:
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pmap[i] = j
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for i, j in pmap.items():
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if not puvsel[i] or not puvsel[j]:
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continue
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elif DIR == 0 and pcents[i][0] < 0.0:
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continue
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elif DIR == 1 and pcents[i][0] > 0.0:
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continue
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# copy UVs
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uv1 = puvs[i]
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uv2 = puvs_cpy[j]
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# get the correct rotation
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v1 = vidxs[j]
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v2 = tuple(vmap[k] for k in vidxs[i])
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if len(v1) == len(v2):
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for k in range(len(v1)):
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k_map = v1.index(v2[k])
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uv1[k].xy = - (uv2[k_map].x - 0.5) + 0.5, uv2[k_map].y
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# has_active_UV_layer, double_warn
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return True, double_warn
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@classmethod
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def poll(cls, context):
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obj = context.view_layer.objects.active
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return (obj and obj.type == 'MESH')
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def execute(self, context):
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DIR = (self.direction == 'NEGATIVE')
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total_no_active_UV = 0
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total_duplicates = 0
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meshes_with_duplicates = 0
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ob = context.view_layer.objects.active
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is_editmode = (ob.mode == 'EDIT')
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if is_editmode:
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bpy.ops.object.mode_set(mode='OBJECT', toggle=False)
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meshes = [ob.data for ob in context.view_layer.objects.selected
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if ob.type == 'MESH' and ob.data.library is None]
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for mesh in meshes:
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mesh.tag = False
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for mesh in meshes:
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if mesh.tag:
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continue
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mesh.tag = True
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has_active_UV_layer, double_warn = self.do_mesh_mirror_UV(mesh, DIR)
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if not has_active_UV_layer:
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total_no_active_UV = total_no_active_UV + 1
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elif double_warn:
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total_duplicates += double_warn
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meshes_with_duplicates = meshes_with_duplicates + 1
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if is_editmode:
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bpy.ops.object.mode_set(mode='EDIT', toggle=False)
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if total_duplicates and total_no_active_UV:
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self.report({'WARNING'},
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"%d mesh(es) with no active UV layer, "
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"%d duplicates found in %d mesh(es), mirror may be incomplete"
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% (total_no_active_UV,
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total_duplicates,
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meshes_with_duplicates))
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elif total_no_active_UV:
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self.report({'WARNING'},
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"%d mesh(es) with no active UV layer"
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% (total_no_active_UV,))
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elif total_duplicates:
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self.report({'WARNING'},
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"%d duplicates found in %d mesh(es), mirror may be incomplete"
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% (total_duplicates, meshes_with_duplicates))
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return {'FINISHED'}
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class MeshSelectNext(Operator):
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"""Select the next element (using selection order)"""
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bl_idname = "mesh.select_next_item"
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bl_label = "Select Next Element"
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bl_options = {'REGISTER', 'UNDO'}
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@classmethod
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def poll(cls, context):
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return (context.mode == 'EDIT_MESH')
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def execute(self, context):
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import bmesh
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from .bmesh import find_adjacent
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obj = context.active_object
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me = obj.data
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bm = bmesh.from_edit_mesh(me)
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if find_adjacent.select_next(bm, self.report):
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bm.select_flush_mode()
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bmesh.update_edit_mesh(me, loop_triangles=False)
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return {'FINISHED'}
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class MeshSelectPrev(Operator):
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"""Select the previous element (using selection order)"""
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bl_idname = "mesh.select_prev_item"
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bl_label = "Select Previous Element"
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bl_options = {'REGISTER', 'UNDO'}
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@classmethod
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def poll(cls, context):
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return (context.mode == 'EDIT_MESH')
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def execute(self, context):
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import bmesh
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from .bmesh import find_adjacent
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obj = context.active_object
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me = obj.data
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bm = bmesh.from_edit_mesh(me)
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if find_adjacent.select_prev(bm, self.report):
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bm.select_flush_mode()
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bmesh.update_edit_mesh(me, loop_triangles=False)
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return {'FINISHED'}
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classes = (
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MeshMirrorUV,
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MeshSelectNext,
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MeshSelectPrev,
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)
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