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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 3
# 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, see <http://www.gnu.org/licenses/>.
#
# ##### END GPL LICENSE BLOCK #####
import bpy, bmesh
from bpy.props import FloatProperty
from mathutils import Vector
from mathutils.geometry import intersect_point_line
from .common_classes import (
SnapDrawn,
CharMap,
SnapNavigation,
)
from .common_utilities import (
get_units_info,
convert_distance,
snap_utilities,
)
if not __package__:
__package__ = "mesh_snap_utilities"
def get_closest_edge(bm, point, dist):
r_edge = None
for edge in bm.edges:
v1 = edge.verts[0].co
v2 = edge.verts[1].co
# Test the BVH (AABB) first
for i in range(3):
if v1[i] <= v2[i]:
isect = v1[i] - dist <= point[i] <= v2[i] + dist
else:
isect = v2[i] - dist <= point[i] <= v1[i] + dist
if not isect:
break
else:
ret = intersect_point_line(point, v1, v2)
if ret[1] < 0.0:
tmp = v1
elif ret[1] > 1.0:
tmp = v2
else:
tmp = ret[0]
new_dist = (point - tmp).length
if new_dist <= dist:
dist = new_dist
r_edge = edge
return r_edge
def get_loose_linked_edges(bmvert):
linked = [e for e in bmvert.link_edges if not e.link_faces]
for e in linked:
linked += [le for v in e.verts if not v.link_faces for le in v.link_edges if le not in linked]
return linked
def draw_line(self, bm_geom, location):
obj = self.main_snap_obj.data[0]
bm = self.main_bm
split_faces = set()
update_edit_mesh = False
if bm_geom is None:
vert = bm.verts.new(location)
self.list_verts.append(vert)
update_edit_mesh = True
elif isinstance(bm_geom, bmesh.types.BMVert):
if (bm_geom.co - location).length_squared < .001:
if self.list_verts == [] or self.list_verts[-1] != bm_geom:
self.list_verts.append(bm_geom)
else:
vert = bm.verts.new(location)
self.list_verts.append(vert)
update_edit_mesh = True
elif isinstance(bm_geom, bmesh.types.BMEdge):
self.list_edges.append(bm_geom)
ret = intersect_point_line(location, bm_geom.verts[0].co, bm_geom.verts[1].co)
if (ret[0] - location).length_squared < .001:
if ret[1] == 0.0:
vert = bm_geom.verts[0]
elif ret[1] == 1.0:
vert = bm_geom.verts[1]
else:
edge, vert = bmesh.utils.edge_split(bm_geom, bm_geom.verts[0], ret[1])
update_edit_mesh = True
self.list_verts.append(vert)
self.geom = vert # hack to highlight in the drawing
# self.list_edges.append(edge)
else: # constrain point is near
vert = bm.verts.new(location)
self.list_verts.append(vert)
update_edit_mesh = True
elif isinstance(bm_geom, bmesh.types.BMFace):
split_faces.add(bm_geom)
vert = bm.verts.new(location)
self.list_verts.append(vert)
update_edit_mesh = True
# draw, split and create face
if len(self.list_verts) >= 2:
v1, v2 = self.list_verts[-2:]
edge = bm.edges.get([v1, v2])
if edge:
self.list_edges.append(edge)
else:
if not v2.link_edges:
edge = bm.edges.new([v1, v2])
self.list_edges.append(edge)
else: # split face
v1_link_faces = v1.link_faces
v2_link_faces = v2.link_faces
if v1_link_faces and v2_link_faces:
split_faces.update(set(v1_link_faces).intersection(v2_link_faces))
else:
if v1_link_faces:
faces = v1_link_faces
co2 = v2.co.copy()
else:
faces = v2_link_faces
co2 = v1.co.copy()
for face in faces:
if bmesh.geometry.intersect_face_point(face, co2):
co = co2 - face.calc_center_median()
if co.dot(face.normal) < 0.001:
split_faces.add(face)
if split_faces:
edge = bm.edges.new([v1, v2])
self.list_edges.append(edge)
ed_list = get_loose_linked_edges(v2)
for face in split_faces:
facesp = bmesh.utils.face_split_edgenet(face, ed_list)
del split_faces
else:
if self.intersect:
facesp = bmesh.ops.connect_vert_pair(bm, verts=[v1, v2], verts_exclude=bm.verts)
# print(facesp)
if not self.intersect or not facesp['edges']:
edge = bm.edges.new([v1, v2])
self.list_edges.append(edge)
else:
for edge in facesp['edges']:
self.list_edges.append(edge)
update_edit_mesh = True
# create face
if self.create_face:
ed_list = set(self.list_edges)
for edge in v2.link_edges:
for vert in edge.verts:
if vert != v2 and vert in self.list_verts:
ed_list.add(edge)
break
else:
continue
# Inner loop had a break, break the outer
break
ed_list.update(get_loose_linked_edges(v2))
bmesh.ops.edgenet_fill(bm, edges=list(ed_list))
update_edit_mesh = True
# print('face created')
if update_edit_mesh:
obj.data.update_gpu_tag()
obj.data.update_tag()
obj.update_from_editmode()
obj.update_tag()
bmesh.update_edit_mesh(obj.data)
self.sctx.tag_update_drawn_snap_object(self.main_snap_obj)
#bm.verts.index_update()
if not self.wait_for_input:
bpy.ops.ed.undo_push(message="Undo draw line*")
return [obj.matrix_world @ v.co for v in self.list_verts]
class SnapUtilitiesLine(bpy.types.Operator):
"""Make Lines. Connect them to split faces"""
bl_idname = "mesh.make_line"
bl_label = "Line Tool"
bl_options = {'REGISTER'}
wait_for_input: bpy.props.BoolProperty(name="Wait for Input", default=True)
snap_widget_ptr: bpy.props.IntVectorProperty(
name="Adress of a SnapContext object",
size=4,
default=(0, 0, 0, 0),
)
constrain_keys = {
'X': Vector((1,0,0)),
'Y': Vector((0,1,0)),
'Z': Vector((0,0,1)),
'RIGHT_SHIFT': 'shift',
'LEFT_SHIFT': 'shift',
}
def _exit(self, context):
del self.main_bm #avoids unpredictable crashs
del self.bm
del self.list_edges
del self.list_verts
del self.list_verts_co
bpy.types.SpaceView3D.draw_handler_remove(self._handle, 'WINDOW')
context.area.header_text_set(None)
if not self.snap_widget:
self.sctx.free()
del self.draw_cache
else:
self.sctx = None
self.draw_cache = None
#Restore initial state
context.tool_settings.mesh_select_mode = self.select_mode
context.user_preferences.view.use_rotate_around_active = self.use_rotate_around_active
context.space_data.overlay.show_face_center = self.show_face_center
def modal(self, context, event):
if self.navigation_ops.run(context, event, self.prevloc if self.vector_constrain else self.location):
return {'RUNNING_MODAL'}
context.area.tag_redraw()
if event.ctrl and event.type == 'Z' and event.value == 'PRESS':
del self.bm
del self.main_bm
bpy.ops.ed.undo()
self.vector_constrain = None
self.list_verts_co = []
self.list_verts = []
self.list_edges = []
bpy.ops.object.mode_set(mode='EDIT') # just to be sure
self.main_bm = bmesh.from_edit_mesh(self.main_snap_obj.data[0])
self.sctx.tag_update_drawn_snap_object(self.main_snap_obj)
return {'RUNNING_MODAL'}
is_making_lines = bool(self.list_verts_co)
if event.type == 'MOUSEMOVE' or self.bool_update:
if self.rv3d.view_matrix != self.rotMat:
self.rotMat = self.rv3d.view_matrix.copy()
self.bool_update = True
snap_utilities.cache.snp_obj = None # hack for snap edge elemens update
else:
self.bool_update = False
mval = Vector((event.mouse_region_x, event.mouse_region_y))
self.snap_obj, self.prevloc, self.location, self.type, self.bm, self.geom, self.len = snap_utilities(
self.sctx,
self.main_snap_obj,
mval,
constrain=self.vector_constrain,
previous_vert=(self.list_verts[-1] if self.list_verts else None),
increment=self.incremental
)
if self.snap_to_grid and self.type == 'OUT':
loc = self.location / self.rd
self.location = Vector((round(loc.x),
round(loc.y),
round(loc.z))) * self.rd
if self.keyf8 and is_making_lines:
lloc = self.list_verts_co[-1]
view_vec, orig = self.sctx.last_ray
location = intersect_point_line(lloc, orig, (orig + view_vec))
vec = (location[0] - lloc)
ax, ay, az = abs(vec.x), abs(vec.y), abs(vec.z)
vec.x = ax > ay > az or ax > az > ay
vec.y = ay > ax > az or ay > az > ax
vec.z = az > ay > ax or az > ax > ay
if vec == Vector():
self.vector_constrain = None
else:
vc = lloc + vec
try:
if vc != self.vector_constrain[1]:
type = 'X' if vec.x else 'Y' if vec.y else 'Z' if vec.z else 'shift'
self.vector_constrain = [lloc, vc, type]
except:
type = 'X' if vec.x else 'Y' if vec.y else 'Z' if vec.z else 'shift'
self.vector_constrain = [lloc, vc, type]
if event.value == 'PRESS':
if is_making_lines and (event.ascii in CharMap.ascii or event.type in CharMap.type):
CharMap.modal(self, context, event)
elif event.type in self.constrain_keys:
self.bool_update = True
self.keyf8 = False
if self.vector_constrain and self.vector_constrain[2] == event.type:
self.vector_constrain = ()
else:
if event.shift:
if isinstance(self.geom, bmesh.types.BMEdge):
if is_making_lines:
loc = self.list_verts_co[-1]
self.vector_constrain = (loc, loc + self.geom.verts[1].co -
self.geom.verts[0].co, event.type)
else:
self.vector_constrain = [self.main_snap_obj.mat @ v.co for
v in self.geom.verts] + [event.type]
else:
if is_making_lines:
loc = self.list_verts_co[-1]
else:
loc = self.location
self.vector_constrain = [loc, loc + self.constrain_keys[event.type], event.type]
elif event.type == 'LEFTMOUSE':
if not is_making_lines and self.bm:
self.main_snap_obj = self.snap_obj
self.main_bm = self.bm
mat_inv = self.main_snap_obj.mat.inverted_safe()
point = mat_inv @ self.location
# with constraint the intersection can be in a different element of the selected one
geom2 = self.geom
if geom2:
geom2.select = False
if self.vector_constrain:
geom2 = get_closest_edge(self.main_bm, point, .001)
self.vector_constrain = None
self.list_verts_co = draw_line(self, geom2, point)
elif event.type == 'TAB':
self.keytab = self.keytab is False
if self.keytab:
self.sctx.set_snap_mode(False, False, True)
context.tool_settings.mesh_select_mode = (False, False, True)
else:
self.sctx.set_snap_mode(True, True, True)
context.tool_settings.mesh_select_mode = (True, True, self.snap_face)
elif event.type == 'F8':
self.vector_constrain = None
self.keyf8 = self.keyf8 is False
elif event.value == 'RELEASE':
if event.type in {'RET', 'NUMPAD_ENTER'}:
if self.length_entered != "" and self.list_verts_co:
try:
text_value = bpy.utils.units.to_value(self.unit_system, 'LENGTH', self.length_entered)
vector = (self.location - self.list_verts_co[-1]).normalized()
location = (self.list_verts_co[-1] + (vector * text_value))
mat_inv = self.main_snap_obj.mat.inverted_safe()
self.list_verts_co = draw_line(self, self.geom, mat_inv @ location)
self.length_entered = ""
self.vector_constrain = None
except: # ValueError:
self.report({'INFO'}, "Operation not supported yet")
if not self.wait_for_input:
self._exit(context)
return {'FINISHED'}
elif event.type in {'RIGHTMOUSE', 'ESC'}:
if not self.wait_for_input or not is_making_lines or event.type == 'ESC':
self._exit(context)
return {'FINISHED'}
else:
snap_utilities.cache.snp_obj = None # hack for snap edge elemens update
self.vector_constrain = None
self.list_edges = []
self.list_verts = []
self.list_verts_co = []
a = ""
if is_making_lines:
if self.length_entered:
pos = self.line_pos
a = 'length: ' + self.length_entered[:pos] + '|' + self.length_entered[pos:]
else:
length = self.len
length = convert_distance(length, self.uinfo)
a = 'length: ' + length
context.area.header_text_set(text = "hit: %.3f %.3f %.3f %s" % (*self.location, a))
if True or is_making_lines:
return {'RUNNING_MODAL'}
return {'PASS_THROUGH'}
def draw_callback_px(self):
if self.bm:
self.draw_cache.draw_elem(self.snap_obj, self.bm, self.geom)
self.draw_cache.draw(self.type, self.location, self.list_verts_co, self.vector_constrain, self.prevloc)
def invoke(self, context, event):
if context.space_data.type == 'VIEW_3D':
# print('name', __name__, __package__)
#Store current state
self.use_rotate_around_active = context.user_preferences.view.use_rotate_around_active
self.select_mode = context.tool_settings.mesh_select_mode[:]
self.show_face_center = context.space_data.overlay.show_face_center
#Modify the current state
bpy.ops.mesh.select_all(action='DESELECT')
context.user_preferences.view.use_rotate_around_active = True
context.tool_settings.mesh_select_mode = (True, True, True)
context.space_data.overlay.show_face_center = True
#Store values from 3d view context
self.rv3d = context.region_data
self.rotMat = self.rv3d.view_matrix.copy()
# self.obj_glmatrix = bgl.Buffer(bgl.GL_FLOAT, [4, 4], self.obj_matrix.transposed())
#Init event variables
self.keytab = False
self.keyf8 = False
self.snap_face = True
snap_widget_ptr = (self.snap_widget_ptr[0] << 48) |\
(self.snap_widget_ptr[1] << 32) |\
(self.snap_widget_ptr[2] << 16) |\
(self.snap_widget_ptr[3] << 00)
if snap_widget_ptr is not 0:
import ctypes
self.snap_widget = ctypes.cast(snap_widget_ptr, ctypes.py_object).value
self.draw_cache = self.snap_widget.draw_cache
self.sctx = self.snap_widget.sctx
preferences = self.snap_widget.preferences
else:
self.snap_widget = None
preferences = context.user_preferences.addons[__package__].preferences
#Init DrawCache
self.draw_cache = SnapDrawn(
preferences.out_color,
preferences.face_color,
preferences.edge_color,
preferences.vert_color,
preferences.center_color,
preferences.perpendicular_color,
preferences.constrain_shift_color,
tuple(context.user_preferences.themes[0].user_interface.axis_x) + (1.0,),
tuple(context.user_preferences.themes[0].user_interface.axis_y) + (1.0,),
tuple(context.user_preferences.themes[0].user_interface.axis_z) + (1.0,)
)
#Init Snap Context
from .snap_context_l import SnapContext
self.sctx = SnapContext(context.region, context.space_data)
self.sctx.set_pixel_dist(12)
self.sctx.use_clip_planes(True)
if self.outer_verts:
for base in context.visible_bases:
self.sctx.add_obj(base.object, base.object.matrix_world)
self.sctx.set_snap_mode(True, True, self.snap_face)
#Configure the unit of measure
self.unit_system = context.scene.unit_settings.system
scale = context.scene.unit_settings.scale_length
separate_units = context.scene.unit_settings.use_separate
self.uinfo = get_units_info(scale, self.unit_system, separate_units)
scale /= context.space_data.overlay.grid_scale * preferences.relative_scale
self.rd = bpy.utils.units.to_value(self.unit_system, 'LENGTH', str(1 / scale))
self.intersect = preferences.intersect
self.create_face = preferences.create_face
self.outer_verts = preferences.outer_verts
self.snap_to_grid = preferences.increments_grid
self.incremental = bpy.utils.units.to_value(self.unit_system, 'LENGTH', str(preferences.incremental))
if self.snap_widget:
self.geom = self.snap_widget.geom
self.type = self.snap_widget.type
self.location = self.snap_widget.loc
if self.snap_widget.snap_obj:
context.view_layer.objects.active = self.snap_widget.snap_obj.data[0]
else:
#init these variables to avoid errors
self.geom = None
self.type = 'OUT'
self.location = Vector()
self.prevloc = Vector()
self.list_verts = []
self.list_edges = []
self.list_verts_co = []
self.bool_update = False
self.vector_constrain = ()
self.len = 0
self.length_entered = ""
self.line_pos = 0
self.navigation_ops = SnapNavigation(context, True)
active_object = context.active_object
#Create a new object
if active_object is None or active_object.type != 'MESH':
mesh = bpy.data.meshes.new("")
active_object = bpy.data.objects.new("", mesh)
context.scene.objects.link(obj)
context.scene.objects.active = active_object
else:
mesh = active_object.data
self.main_snap_obj = self.snap_obj = self.sctx._get_snap_obj_by_obj(active_object)
self.main_bm = self.bm = bmesh.from_edit_mesh(mesh) #remove at end
#modals
if not self.wait_for_input:
self.modal(context, event)
self._handle = bpy.types.SpaceView3D.draw_handler_add(self.draw_callback_px, (), 'WINDOW', 'POST_VIEW')
context.window_manager.modal_handler_add(self)
return {'RUNNING_MODAL'}
else:
self.report({'WARNING'}, "Active space must be a View3d")
return {'CANCELLED'}
def register():
bpy.utils.register_class(SnapUtilitiesLine)
if __name__ == "__main__":
register()
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