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op_select_islands_overlap.py
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op_select_islands_overlap.py
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import bpy
import bmesh
import operator
from mathutils import Vector
from collections import defaultdict
from math import pi
from . import utilities_uv
import imp
imp.reload(utilities_uv)
class op(bpy.types.Operator):
bl_idname = "uv.textools_select_islands_overlap"
bl_label = "Select outline"
bl_description = "Select all overlapping UV islands"
bl_options = {'REGISTER', 'UNDO'}
@classmethod
def poll(cls, context):
if not bpy.context.active_object:
return False
if bpy.context.active_object.type != 'MESH':
return False
#Only in Edit mode
if bpy.context.active_object.mode != 'EDIT':
return False
#Only in UV editor mode
if bpy.context.area.type != 'IMAGE_EDITOR':
return False
##Requires UV map
if not bpy.context.object.data.uv_layers:
return False
#Not in Synced mode
if bpy.context.scene.tool_settings.use_uv_select_sync:
return False
return True
def execute(self, context):
selectOverlap(context)
return {'FINISHED'}
def selectOverlap(context):
print("Execute op_select_islands_overlap")
# https://developer.blender.org/D2865
bm = bmesh.from_edit_mesh(bpy.context.active_object.data)
uv_layers = bm.loops.layers.uv.verify()
bpy.context.scene.tool_settings.uv_select_mode = 'FACE'
bpy.ops.uv.select_all(action='SELECT')
islands_all = utilities_uv.getSelectionIslands()
# count = len(islands_all)
islands_bounds = []
for island in islands_all:
islands_bounds.append( Island_bounds( island ) )
groups = []
unmatched = islands_bounds.copy()
for islandA in islands_bounds:
if islandA in unmatched:
group = [islandA]
for islandB in unmatched:
if islandA != islandB and islandA.isEqual(islandB):
group.append(islandB)
for item in group:
unmatched.remove(item)
groups.append(group)
print("Group: {} islands, unmatched: {}x".format(len(group), len(unmatched)))
# groups.append( )
bpy.ops.uv.select_all(action='DESELECT')
for group in groups:
if len(group) > 1:
for i in range(1, len(group)):
utilities_uv.set_selected_faces( group[i].faces )
print("Groups: "+str(len(groups)))
class Island_bounds:
faces = []
center = Vector([0,0])
min = Vector([0,0])
max = Vector([0,0])
def __init__(self, faces):
bm = bmesh.from_edit_mesh(bpy.context.active_object.data);
uv_layers = bm.loops.layers.uv.verify();
# Collect topology stats
self.faces = faces
#Select Island
bpy.ops.uv.select_all(action='DESELECT')
utilities_uv.set_selected_faces(faces)
bounds = utilities_uv.getSelectionBBox()
self.center = bounds['center']
self.min = bounds['min']
self.max = bounds['max']
def isEqual(A, B):
# Bounding Box AABB intersection?
min_x = max(A.min.x, B.min.x)
min_y = max(A.min.y, B.min.y)
max_x = min(A.max.x, B.max.x)
max_y = min(A.max.y, B.max.y)
if not (max_x < min_x or max_y < min_y):
return True
return False
bpy.utils.register_class(op)