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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 #####
#
# <pep8 compliant>
#
# ----------------------------------------------------------
# Author: Zeffii
# Modified by: Alan Odom (Clockmender) & Rune Morling (ermo)
# ----------------------------------------------------------
#
import bpy
import bmesh
from mathutils.geometry import intersect_line_line as LineIntersect
import itertools
from collections import defaultdict
from . import pdt_cad_module as cm
def order_points(edge, point_list):
"""Order these edges from distance to v1, then sandwich the sorted list with v1, v2."""
v1, v2 = edge
def dist(co):
return (v1 - co).length
point_list = sorted(point_list, key=dist)
return [v1] + point_list + [v2]
def remove_permutations_that_share_a_vertex(bm, permutations):
"""Get useful Permutations."""
final_permutations = []
for edges in permutations:
raw_vert_indices = cm.vertex_indices_from_edges_tuple(bm, edges)
if len(set(raw_vert_indices)) < 4:
continue
# reaches this point if they do not share.
final_permutations.append(edges)
return final_permutations
def get_valid_permutations(bm, edge_indices):
"""Get useful Permutations."""
raw_permutations = itertools.permutations(edge_indices, 2)
permutations = [r for r in raw_permutations if r[0] < r[1]]
return remove_permutations_that_share_a_vertex(bm, permutations)
def can_skip(closest_points, vert_vectors):
"""Check if the intersection lies on both edges and return True
when criteria are not met, and thus this point can be skipped."""
if not closest_points:
return True
if not isinstance(closest_points[0].x, float):
return True
if cm.num_edges_point_lies_on(closest_points[0], vert_vectors) < 2:
return True
# if this distance is larger than than 1.0e-5, we can skip it.
cpa, cpb = closest_points
return (cpa - cpb).length > 1.0e-5
def get_intersection_dictionary(bm, edge_indices):
"""Return a dictionary of edge indices and points found on those edges."""
bm.verts.ensure_lookup_table()
bm.edges.ensure_lookup_table()
permutations = get_valid_permutations(bm, edge_indices)
k = defaultdict(list)
d = defaultdict(list)
for edges in permutations:
raw_vert_indices = cm.vertex_indices_from_edges_tuple(bm, edges)
vert_vectors = cm.vectors_from_indices(bm, raw_vert_indices)
points = LineIntersect(*vert_vectors)
# some can be skipped. (NaN, None, not on both edges)
if can_skip(points, vert_vectors):
continue
# reaches this point only when an intersection happens on both edges.
[k[edge].append(points[0]) for edge in edges]
# k will contain a dict of edge indices and points found on those edges.
for edge_idx, unordered_points in k.items():
tv1, tv2 = bm.edges[edge_idx].verts
v1 = bm.verts[tv1.index].co
v2 = bm.verts[tv2.index].co
ordered_points = order_points((v1, v2), unordered_points)
d[edge_idx].extend(ordered_points)
return d
def update_mesh(bm, int_dict):
"""Make new geometry (delete old first)."""
oe = bm.edges
ov = bm.verts
new_verts = []
collect = new_verts.extend
for _, point_list in int_dict.items():
num_edges_to_add = len(point_list) - 1
for i in range(num_edges_to_add):
a = ov.new(point_list[i])
b = ov.new(point_list[i + 1])
oe.new((a, b))
bm.normal_update()
collect([a, b])
bmesh.ops.delete(bm, geom=[edge for edge in bm.edges if edge.select], context="EDGES")
bmesh.ops.remove_doubles(bm, verts=bm.verts, dist=0.0001)
def unselect_nonintersecting(bm, d_edges, edge_indices):
"""Deselects Non-Intersection Edges"""
if len(edge_indices) > len(d_edges):
reserved_edges = set(edge_indices) - set(d_edges)
for edge in reserved_edges:
bm.edges[edge].select = False
def intersect_all(self, context):
"""Computes All intersections with Crossing Geometry.
Deletes original edges and replaces with new intersected edges
Args:
context: Blender bpy.context instance.
Returns:
Status Set.
"""
pg = context.scene.pdt_pg
obj = context.active_object
if all([bool(obj), obj.type == "MESH", obj.mode == "EDIT"]):
# must force edge selection mode here
bpy.context.tool_settings.mesh_select_mode = (False, True, False)
if obj.mode == "EDIT":
bm = bmesh.from_edit_mesh(obj.data)
selected_edges = [edge for edge in bm.edges if edge.select]
edge_indices = [i.index for i in selected_edges]
int_dict = get_intersection_dictionary(bm, edge_indices)
unselect_nonintersecting(bm, int_dict.keys(), edge_indices)
update_mesh(bm, int_dict)
bmesh.update_edit_mesh(obj.data)
else:
context.window_manager.popup_menu(oops, title="Error", icon="ERROR")
return
return
else:
pg.error = f"{PDT_ERR_EDOB_MODE},{obj.mode})"
context.window_manager.popup_menu(oops, title="Error", icon="ERROR")
return
class PDT_OT_IntersectAllEdges(bpy.types.Operator):
"""Cut Selected Edges at All Intersections."""
bl_idname = "pdt.intersectall"
bl_label = "Intersect All Edges"
bl_options = {"REGISTER", "UNDO"}
@classmethod
def poll(cls, context):
ob = context.active_object
if ob is None:
return False
return ob is not None and ob.type == "MESH" and ob.mode == "EDIT"
def execute(self, context):
"""Computes All intersections with Crossing Geometry.
Deletes original edges and replaces with new intersected edges
Args:
context: Blender bpy.context instance.
Returns:
Status Set.
"""
pg = context.scene.pdt_pg
pg.command = f"intall"
return {"FINISHED"}
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