def create(self, context):
circle = bpy.data.curves.new(
name="Окружность", type="CURVE") # Create new curve datablock
circle.dimensions = self.CIRCLE_DIMS
circle.bevel_depth = self.CIRCLE_BEVEL_DEPTH
circle.bevel_resolution = 12
circle.fill_mode = self.CIRCLE_FILL_MODE
circle_mat = bpy.data.materials.new(
'ОбводкаДуги') # Create new material
circle_mat.diffuse_color = self.STROKE_COLOR
circle.materials.append(circle_mat) # Add material to the obj
obj = bpy.data.objects.new('Окружность',
circle) # Create new obj with datablock
context.scene.objects.link(obj) # Link obj to the scene
obj.parent = context.active_object
obj.location = (0, 0, 0) # Place obj to a location
obj.lock_location = (True, True, True)
obj.show_name = True
Counter.register(obj, self.FP_TYPE) # Register new obj
for i in range(self._splines):
spline = circle.splines.new('BEZIER')
spline.bezier_points.add(1)
for j in range(2):
spline.bezier_points[j].co = (0, 0, 0)
spline.bezier_points[j].handle_left = (0, 0, 0)
spline.bezier_points[j].handle_right = (0, 0, 0)
obj.fp_angles = (0.0, 360.0)
obj.fp_expression = '1.5'
circle.resolution_u = 64
obj.select = True
def MakePolyLine(self, cList, objects):
curve = bpy.data.curves.new(name="Деталь", type='CURVE')
curve.dimensions = '3D'
curve.resolution_u = 2
curve.dimensions = self.CURVE_DIMS
curve.bevel_depth = self.CURVE_BEVEL_DEPTH
curve.bevel_resolution = 12
curve.fill_mode = self.CURVE_FILL_MODE
curve_mat = bpy.data.materials.new('ОбводкаДетали')
curve_mat.diffuse_color = self.STROKE_COLOR
curve.materials.append(curve_mat)
objectdata = bpy.data.objects.new("Деталь", curve)
for item in objects:
prop = objectdata.fp_deps_c.add()
prop.name = 'new'
prop.value = str(item.fp_id)
objectdata.location = (0, 0, 0) #object origin
objectdata.show_name = True
bpy.context.scene.objects.link(objectdata)
Counter.register(objectdata, self.FP_TYPE)
polyline = curve.splines.new('POLY')
polyline.points.add(len(cList) - 1)
for num in range(len(cList)):
polyline.points[num].co = tuple(cList[num]) + (1, )
polyline.order_u = len(polyline.points) - 1
polyline.use_endpoint_u = True
def create(self, context):
curve = bpy.data.curves.new(name="Дуга", type="CURVE")
curve.dimensions = self.CURVE_DIMS
curve.bevel_depth = self.CURVE_BEVEL_DEPTH
curve.bevel_resolution = 12
curve.fill_mode = self.CURVE_FILL_MODE
curve_mat = bpy.data.materials.new('ОбводкаДуги')
curve_mat.diffuse_color = self.STROKE_COLOR
curve.materials.append(curve_mat)
obj = bpy.data.objects.new("Дуга", curve)
context.scene.objects.link(obj)
obj.parent = context.active_object
obj.location = (0, 0, 0)
obj.lock_location = (True, True, True)
obj.show_name = True
Counter.register(obj, self.FP_TYPE)
for i in range(self._splines):
spline = curve.splines.new('BEZIER')
spline.bezier_points.add(1)
for j in range(2):
spline.bezier_points[j].co = (0, 0, 0)
spline.bezier_points[j].handle_left = (0, 0, 0)
spline.bezier_points[j].handle_right = (0, 0, 0)
obj.fp_angles = (0.0, 90.0)
obj.fp_expression = '1.0'
curve.resolution_u = 64
def create(self, context):
parent = context.active_object
dep_id = tuple(parent.fp_deps30)
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
line_length = [0] * 29
obj = bpy.context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.fp_deps30 = dep_id
obj.parent = parent
obj.fp_expression = self.DEFAULT_EXPRESSION
obj.lock_location = (True, True, True)
obj.show_name = True
obj.select = False
obj.fp_line_length = line_length
mat = bpy.data.materials.new('ЗаливкаТочкиРазделениеСложнойКривой')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
def create(self, context):
parent = context.active_object
points_parent = [
obj for obj in bpy.data.objects
if obj.fp_id > 0 and obj.fp_id in parent.fp_deps
]
dep_id = tuple([d.fp_id for d in points_parent] + [0])
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = bpy.context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.fp_deps = dep_id
obj.parent = parent
obj.fp_expression = self.DEFAULT_EXPRESSION
obj.lock_location = (True, True, True)
obj.show_name = True
obj.select = False
mat = bpy.data.materials.new('ЗаливкаТочкиРазделениеКривойБезье')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
def create(self, context):
if all(is_one_of_arc(item) for item in context.selected_objects):
count_create_point = 2
elif all(
is_one_of_bezier_curve(item)
for item in context.selected_objects):
count_create_point = 9
elif all(is_one_of_lines(item) for item in context.selected_objects):
count_create_point = 1
elif ((is_one_of_lines(context.selected_objects[0])
and is_one_of_bezier_curve(context.selected_objects[1]))
or (is_one_of_lines(context.selected_objects[1])
and is_one_of_bezier_curve(context.selected_objects[0]))):
count_create_point = 3
elif ((is_one_of_lines(context.selected_objects[0])
and is_one_of_arc(context.selected_objects[1]))
or (is_one_of_lines(context.selected_objects[1])
and is_one_of_arc(context.selected_objects[0]))):
count_create_point = 2
elif ((is_one_of_arc(context.selected_objects[0])
and is_one_of_bezier_curve(context.selected_objects[1]))
or (is_one_of_arc(context.selected_objects[1])
and is_one_of_bezier_curve(context.selected_objects[0]))):
count_create_point = 6
parents = [
obj for obj in bpy.data.objects if obj.fp_id > 0 and (
obj.fp_id == context.selected_objects[0].fp_id
or obj.fp_id == context.selected_objects[1].fp_id)
]
dep_id = tuple([parents[0].fp_id] + [parents[1].fp_id] + [0])
count = 0
while count < count_create_point:
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.fp_deps = dep_id
obj.fp_number = count
obj.lock_location = (True, True, True)
obj.show_name = True
obj.select = False
mat = bpy.data.materials.new('ЗаливкаТочкиПересеченияФигур')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
count += 1
def create(self, context):
dep_id = tuple([d.fp_id for d in context.selected_objects] + [0])
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.fp_deps = dep_id
obj.lock_location = (True, True, True)
obj.show_name = True
obj.select = False
mat = bpy.data.materials.new('ЗаливкаТочкиПересеченияЛинииОси')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
obj.location = self.DEFAULT_LOCATION
def create(self, context):
dep_id = tuple([d.fp_id for d in context.selected_objects] + [0])
line1_points = [
obj for obj in bpy.data.objects if obj.fp_id > 0
and obj.fp_id in context.selected_objects[0].fp_deps
]
line2_points = [
obj for obj in bpy.data.objects if obj.fp_id > 0
and obj.fp_id in context.selected_objects[1].fp_deps
]
locations1 = [get_point_abs_location(point) for point in line1_points]
locations2 = [get_point_abs_location(point) for point in line2_points]
center = line_to_line({
"x": locations1[0][0],
"y": locations1[0][1]
}, {
"x": locations1[1][0],
"y": locations1[1][1]
}, {
"x": locations2[0][0],
"y": locations2[0][1]
}, {
"x": locations2[1][0],
"y": locations2[1][1]
})
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
obj.fp_deps = dep_id
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.location = (center["points"][0]["x"], center["points"][0]["y"], 0)
obj.lock_location = (True, True, True)
obj.show_name = True
mat = bpy.data.materials.new('ЗаливкаТочки')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
return obj
def create(self, context):
curve = bpy.data.curves.new(name="КриваяБезье", type="CURVE")
curve.dimensions = self.CURVE_DIMS
curve.bevel_depth = self.CURVE_BEVEL_DEPTH
curve.bevel_resolution = 12
curve.fill_mode = self.CURVE_FILL_MODE
curve_mat = bpy.data.materials.new('ОбводкаКривойБезье')
curve_mat.diffuse_color = self.STROKE_COLOR
curve.materials.append(curve_mat)
obj = bpy.data.objects.new("КриваяБезье", curve)
obj.location = (0, 0, 0)
obj.lock_location = (True, True, True)
obj.show_name = True
context.scene.objects.link(obj)
Counter.register(obj, self.FP_TYPE)
obj.fp_deps = tuple([item.fp_id
for item in context.selected_objects] + [0])
spline = curve.splines.new('BEZIER')
spline.bezier_points.add(1)
curve.resolution_u = 64
locations = [
get_point_abs_location(item) for item in bpy.data.objects
if item.fp_id > 0 and item.fp_id in obj.fp_deps
]
obj.location = [(locations[0][j] + locations[1][j]) / 2
for j in range(3)]
for index, loc in enumerate(locations):
point_loc = [loc[i] - obj.location[i] for i in range(3)]
obj.data.splines[0].bezier_points[index].co = point_loc
obj.data.splines[0].bezier_points[index].handle_left = [
(point_loc[i] - 1.0 if i == 1 else point_loc[i])
for i in range(3)
]
obj.data.splines[0].bezier_points[index].handle_right = [
(point_loc[i] + 1.0 if i == 1 else point_loc[i])
for i in range(3)
]
def create(self, count, context):
number = 1
parent = context.active_object
parent = [
obj for obj in bpy.data.objects
if obj.fp_id > 0 and obj.fp_id in parent.fp_deps
]
dep_id = tuple([parent[1].fp_id] + [0, 0])
nameParent = parent[0].name
nameSelect = parent[1].name
while number <= expression_to_value(count):
bpy.data.objects[nameSelect].select = True
bpy.data.objects[nameParent].select = True
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.parent = parent[0]
obj.fp_deps = dep_id
obj.fp_expression = count
obj.fp_number = number
number += 1
obj.lock_location = (True, True, True)
obj.show_name = True
obj.select = False
mat = bpy.data.materials.new('ЗаливкаТочкиРазделениеЛинии')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
def create(self, context):
parent = context.active_object
dep_id = tuple([
d.fp_id
for d in context.selected_objects if not d.fp_id == parent.fp_id
] + [0, 0])
dep = [
d for d in context.selected_objects if not d.fp_id == parent.fp_id
]
distance = get_distance(
get_point_abs_location(context.selected_objects[0]),
get_point_abs_location(context.selected_objects[1]))
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.parent = parent
obj.fp_deps = dep_id
obj.fp_expression = self.DEFAULT_EXPRESSION
obj.lock_location = (True, True, True)
obj.show_name = True
# obj.select = False
id_dart = obj.fp_id
p_a_location = get_point_abs_location(obj.parent)
d_a_location = get_point_abs_location([
d for d in bpy.data.objects
if d.fp_id == obj.fp_deps[0] and d.fp_id > 0
][0])
pd_dif = (p_a_location[0] - d_a_location[0],
p_a_location[1] - d_a_location[1], 0.0)
pd_hyp = sqrt(pd_dif[0]**2 + pd_dif[1]**2)
op_hyp = expression_to_value(obj.fp_expression)
proportion = op_hyp / pd_hyp if pd_hyp else 0
op_x = pd_dif[0] * proportion
op_y = pd_dif[1] * proportion
obj.location = (-op_x, -op_y, 0.0)
print("parent 1 = ", obj.parent)
obj.fp_angle = get_angle(get_point_abs_location(obj),
get_point_abs_location(dep[0]))
draw_line = Line()
parent.select = True
draw_line.create(context)
mat = bpy.data.materials.new('ЗаливкаТочкиДляВытачки')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
bpy.ops.mesh.primitive_plane_add(radius=self.POINT_RADIUS)
obj = context.object
Counter.register(obj, self.FP_TYPE)
obj.name = self.BASE_NAME + '.' + Counter.get_counter_suffix(obj)
obj.parent = dep[0]
obj.fp_deps = tuple([parent.fp_id] + [0, 0])
obj.fp_expression = str(distance -
expression_to_value(self.DEFAULT_EXPRESSION))
obj.lock_location = (True, True, True)
obj.show_name = True
obj.fp_dart = id_dart
# obj.select = False
p_a_location = get_point_abs_location(obj.parent)
d_a_location = get_point_abs_location([
d for d in bpy.data.objects
if d.fp_id == obj.fp_deps[0] and d.fp_id > 0
][0])
pd_dif = (p_a_location[0] - d_a_location[0],
p_a_location[1] - d_a_location[1], 0.0)
pd_hyp = sqrt(pd_dif[0]**2 + pd_dif[1]**2)
op_hyp = expression_to_value(obj.fp_expression)
proportion = op_hyp / pd_hyp if pd_hyp else 0
op_x = pd_dif[0] * proportion
op_y = pd_dif[1] * proportion
obj.location = (-op_x, -op_y, 0.0)
print("parent 2 = ", obj.parent)
obj.fp_angle = get_angle(get_point_abs_location(obj),
get_point_abs_location(parent))
draw_line = Line()
dep[0].select = True
draw_line.create(context)
mat = bpy.data.materials.new('ЗаливкаТочкиДляВытачки')
mat.diffuse_color = self.FILL_COLOR
obj.data.materials.append(mat)
for obj in bpy.data.objects:
obj.select = False
for line in bpy.data.objects:
if line.fp_type == Line.FP_TYPE and (
(line.fp_deps[0] == parent.fp_id
and line.fp_deps[1] == dep[0].fp_id) or
(line.fp_deps[0] == dep[0].fp_id
and line.fp_deps[1] == parent.fp_id)):
line.select = True
bpy.ops.object.delete()
break
def create(self, context):
self.POINTS = []
for point in bpy.context.selected_objects:
point_location = list(get_point_abs_location(point))
handle_left = [0, 0, 0]
handle_right = [0, 0, 0]
for i in range(len(point_location)):
if i == 1:
handle_left[i] = point_location[i] + 1
handle_right[i] = point_location[i] - 1
else:
handle_left[i] = point_location[i]
handle_right[i] = point_location[i]
new_point = PointsForCreateDetail(pos=point_location,
hl=handle_left,
hr=handle_right)
self.POINTS.append(new_point)
dep_custom = [0] * 30
len_selected_obj = len(context.selected_objects) - 1
for i in range(30):
if i <= len_selected_obj:
dep_custom[i] = context.selected_objects[i].fp_id
else:
dep_custom[i] = 0
dep_id = tuple(dep_custom)
curve = bpy.data.curves.new(name="Сложная кривая", type='CURVE')
curve.dimensions = self.CURVE_DIMS
curve.bevel_depth = self.CURVE_BEVEL_DEPTH
curve.bevel_resolution = 12
curve.fill_mode = self.CURVE_FILL_MODE
curve_mat = bpy.data.materials.new('ОбводкаСложнойКривой')
curve_mat.diffuse_color = self.STROKE_COLOR
curve.materials.append(curve_mat)
bpyObj = bpy.data.objects.new("Сложная кривая", curve)
bpyObj.location = (0, 0, 0)
bpyObj.lock_location = (True, True, True)
bpyObj.show_name = True
bpy.context.scene.objects.link(bpyObj)
Counter.register(bpyObj, self.FP_TYPE)
bpyObj.fp_deps30 = dep_id
spline = bpyObj.data.splines.new('BEZIER')
curve.resolution_u = 32
points = spline.bezier_points
points.add(len(self.POINTS) - 1)
locations = [
get_point_abs_location(item) for item in bpy.data.objects
if item.fp_id > 0 and item.fp_id in bpyObj.fp_deps30
]
loc_x = 0
loc_y = 0
for i in range(len(locations)):
loc_x += locations[i][0] / len(locations)
for i in range(len(locations)):
loc_y += locations[i][1] / len(locations)
bpyObj.location = (loc_x, loc_y, 0.0)
for index, loc in enumerate(locations):
point_loc = [loc[i] - bpyObj.location[i] for i in range(3)]
bpyObj.data.splines[0].bezier_points[index].co = point_loc
bpyObj.data.splines[0].bezier_points[index].handle_left = [
(point_loc[i] - 1.0 if i == 1 else point_loc[i])
for i in range(3)
]
bpyObj.data.splines[0].bezier_points[index].handle_right = [
(point_loc[i] + 1.0 if i == 1 else point_loc[i])
for i in range(3)
]
def add_guides(self, obj):
count = 0
for x in obj.fp_deps30:
if not x == 0:
count += 1
chs = bpy.data.curves.new('Управляющие', type='CURVE')
chs.dimensions = self.CURVE_DIMS
chs.bevel_depth = self.CURVE_BEVEL_DEPTH / 1.0
chs.bevel_resolution = 12
chs.fill_mode = self.CURVE_FILL_MODE
chs_mat = bpy.data.materials.new('ОбводкаУправляющей')
chs_mat.diffuse_color = self.GUIDE_COLOR
chs.materials.append(chs_mat)
hobj = bpy.data.objects.new("Сложная кривая", chs)
hobj.location = obj.location
hobj.lock_location = (True, True, True)
hobj.show_name = False
hobj.hide_select = True
hobj.fp_type = self.FP_TYPE_CONTROL_GUIDE
bpy.context.scene.objects.link(hobj)
for spline_index in range(count):
spline_first = chs.splines.new('POLY')
spline_first.points.add(1)
spline_second = chs.splines.new('POLY')
spline_second.points.add(1)
bpoint = obj.data.splines[0].bezier_points[spline_index]
if spline_index % 2 == 0:
spline_first.points[0].co = list(
obj.data.splines[0].bezier_points[spline_index].co) + [
0.001
]
spline_first.points[1].co = list(bpoint.handle_right) + [0.001]
spline_second.points[0].co = list(
obj.data.splines[0].bezier_points[spline_index].co) + [
0.001
]
spline_second.points[1].co = list(bpoint.handle_left) + [0.001]
else:
spline_first.points[0].co = list(bpoint.handle_left) + [0.001]
spline_first.points[1].co = list(
obj.data.splines[0].bezier_points[spline_index].co) + [
0.001
]
spline_second.points[0].co = list(
bpoint.handle_right) + [0.001]
spline_second.points[1].co = list(
obj.data.splines[0].bezier_points[spline_index].co) + [
0.001
]
for wing_index in range(count):
wing = obj.data.splines[0].bezier_points[wing_index]
for handle_index in range(2):
handle_loc = [wing.handle_left,
wing.handle_right][handle_index]
target_loc = [
handle_loc[i] + obj.location[i] for i in range(3)
]
hcurv = bpy.data.curves.new("КонтрольнаяТочка", type="CURVE")
hcurv.dimensions = "2D"
hcurv.bevel_depth = self.CURVE_BEVEL_DEPTH / 1.0
hcurv.bevel_resolution = 12
hcurv.fill_mode = "BOTH"
hcurv_mat = bpy.data.materials.new('ЗаливкаКонтрольнойТочки')
hcurv_mat.diffuse_color = self.HANDLE_COLOR
hcurv.materials.append(hcurv_mat)
pobj = bpy.data.objects.new("КонтрольнаяТочка.000", hcurv)
pobj.lock_location = (False, False, True)
pobj.show_name = False
Counter.register(pobj, self.FP_TYPE_CONTROL_POINT)
pobj.fp_deps = [obj.fp_id, wing_index, handle_index]
bpy.context.scene.objects.link(pobj)
pobj.location = target_loc
spl = hcurv.splines.new('NURBS')
spl.points.add(3)
spl.use_cyclic_u = True
for j in range(4):
spl.points[j].co = (self.HANDLE_RADIUS if j in [1, 2] else
-self.HANDLE_RADIUS,
self.HANDLE_RADIUS if j in [0, 1] else
-self.HANDLE_RADIUS, 0.0, 0.001)
chs.resolution_u = 12
def create(self, context):
locations = []
f_ids = []
self.create_countur(context.selected_objects)
deps = []
curve = bpy.data.curves.new(name="Деталь", type='CURVE')
curve.dimensions = '3D'
curve.resolution_u = 2
curve.dimensions = self.CURVE_DIMS
curve.bevel_depth = self.CURVE_BEVEL_DEPTH
curve.bevel_resolution = 12
curve.fill_mode = self.CURVE_FILL_MODE
curve_mat = bpy.data.materials.new('ОбводкаДетали')
curve_mat.diffuse_color = self.STROKE_COLOR
curve.materials.append(curve_mat)
bpyObj = bpy.data.objects.new("Деталь", curve)
# new_scene = bpy.data.scenes.new(bpyObj.name)
Counter.register(bpyObj, self.FP_TYPE)
bpyObj.location = (0, 0, 0)
bpyObj.show_name = True
# new_scene.objects.link(bpyObj)
context.scene.objects.link(bpyObj)
spline = bpyObj.data.splines.new('BEZIER')
spline.use_cyclic_u = True
points = spline.bezier_points
points.add(len(self.POINTS) - 1)
for index, point in enumerate(points):
point.co = self.POINTS[index].pos
point.handle_left = self.POINTS[index].hl
point.handle_right = self.POINTS[index].hr
bpyObj.layers[1] = True
bpyObj.layers[0] = False
curve.fill_mode = 'BACK'
curve.dimensions = '2D'
deps = [
e for e in self.USEDPOINTS if e not in deps and not deps.append(e)
]
for i in range(30 - len(deps)):
deps.append(0)
bpyObj.fp_deps30 = deps
# integration to the XPettern plugin
points = [x.pos for x in self.POINTS]
bpy_obj = obj_utils.create_object()
location = Vector((0, 0, 0))
for point in points:
location = location + point
bpy_obj.location = location / len(points)
curve = helpers.Curve.fromPoints(points)
helpers.Wrapper(curve).toBpy(bpy_obj)
# reset points
self.POINTS = []
self.USEDPOINTS = []
