Newer
Older
description="Rounded corners"
)
# Curve Options
shapeItems = [
('2D', "2D", "2D shape Curve"),
('3D', "3D", "3D shape Curve")]
name="2D / 3D",
items=shapeItems,
description="2D or 3D Curve"
)
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
outputType : EnumProperty(
name="Output splines",
description="Type of splines to output",
items=[
('POLY', "Poly", "Poly Spline type"),
('NURBS', "Nurbs", "Nurbs Spline type"),
('BEZIER', "Bezier", "Bezier Spline type")],
default='BEZIER'
)
use_cyclic_u : BoolProperty(
name="Cyclic",
default=True,
description="make curve closed"
)
endp_u : BoolProperty(
name="Use endpoint u",
default=True,
description="stretch to endpoints"
)
order_u : IntProperty(
name="Order u",
default=4,
min=2, soft_min=2,
max=6, soft_max=6,
description="Order of nurbs spline"
)
handleType : EnumProperty(
name="Handle type",
default='VECTOR',
description="Bezier handles type",
items=[
('VECTOR', "Vector", "Vector type Bezier handles"),
('AUTO', "Auto", "Automatic type Bezier handles")]
)
Spivak Vladimir (cwolf3d)
committed
edit_mode : BoolProperty(
name="Show in edit mode",
default=True,
description="Show in edit mode"
)
def draw(self, context):
layout = self.layout
# general options
col = layout.column()
col.prop(self, "Simple_Type")
l = 0
s = 0
if self.Simple_Type == 'Line':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_endlocation")
v = Vector(self.Simple_endlocation) - Vector(self.location)
l = v.length
if self.Simple_Type == 'Distance':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_length")
col.prop(self, "Simple_center")
l = self.Simple_length
if self.Simple_Type == 'Angle':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_length")
col.prop(self, "Simple_angle")
if self.Simple_Type == 'Circle':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_radius")
l = 2 * pi * abs(self.Simple_radius)
s = pi * self.Simple_radius * self.Simple_radius
if self.Simple_Type == 'Ellipse':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_a", text="Radius a")
col.prop(self, "Simple_b", text="Radius b")
l = pi * (3 * (self.Simple_a + self.Simple_b) -
sqrt((3 * self.Simple_a + self.Simple_b) *
(self.Simple_a + 3 * self.Simple_b)))
s = pi * abs(self.Simple_b) * abs(self.Simple_a)
if self.Simple_Type == 'Arc':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_radius")
col = box.column(align=True)
col.prop(self, "Simple_startangle")
col.prop(self, "Simple_endangle")
#row = layout.row()
#row.prop(self, "Simple_degrees_or_radians", expand=True)
l = abs(pi * self.Simple_radius * (self.Simple_endangle - self.Simple_startangle) / 180)
if self.Simple_Type == 'Sector':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_radius")
col = box.column(align=True)
col.prop(self, "Simple_startangle")
col.prop(self, "Simple_endangle")
#row = layout.row()
#row.prop(self, "Simple_degrees_or_radians", expand=True)
l = abs(pi * self.Simple_radius *
(self.Simple_endangle - self.Simple_startangle) / 180) + self.Simple_radius * 2
s = pi * self.Simple_radius * self.Simple_radius * \
abs(self.Simple_endangle - self.Simple_startangle) / 360
if self.Simple_Type == 'Segment':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_a", text="Radius a")
col.prop(self, "Simple_b", text="Radius b")
col = box.column(align=True)
col.prop(self, "Simple_startangle")
col.prop(self, "Simple_endangle")
#row = layout.row()
#row.prop(self, "Simple_degrees_or_radians", expand=True)
la = abs(pi * self.Simple_a * (self.Simple_endangle - self.Simple_startangle) / 180)
lb = abs(pi * self.Simple_b * (self.Simple_endangle - self.Simple_startangle) / 180)
l = abs(self.Simple_a - self.Simple_b) * 2 + la + lb
sa = pi * self.Simple_a * self.Simple_a * \
abs(self.Simple_endangle - self.Simple_startangle) / 360
sb = pi * self.Simple_b * self.Simple_b * \
abs(self.Simple_endangle - self.Simple_startangle) / 360
s = abs(sa - sb)
if self.Simple_Type == 'Rectangle':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_width")
col.prop(self, "Simple_length")
col.prop(self, "Simple_rounded")
box.prop(self, "Simple_center")
l = 2 * abs(self.Simple_width) + 2 * abs(self.Simple_length)
s = abs(self.Simple_width) * abs(self.Simple_length)
if self.Simple_Type == 'Rhomb':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_width")
col.prop(self, "Simple_length")
col.prop(self, "Simple_center")
g = hypot(self.Simple_width / 2, self.Simple_length / 2)
l = 4 * g
s = self.Simple_width * self.Simple_length / 2
if self.Simple_Type == 'Polygon':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_radius")
if self.Simple_Type == 'Polygon_ab':
box = layout.box()
col = box.column(align=True)
col.label(text="Polygon ab Options:")
col.prop(self, "Simple_sides")
col.prop(self, "Simple_a")
col.prop(self, "Simple_b")
if self.Simple_Type == 'Trapezoid':
box = layout.box()
col = box.column(align=True)
col.label(text=self.Simple_Type + " Options:")
col.prop(self, "Simple_a")
col.prop(self, "Simple_b")
col.prop(self, "Simple_h")
box.prop(self, "Simple_center")
g = hypot(self.Simple_h, (self.Simple_a - self.Simple_b) / 2)
l = self.Simple_a + self.Simple_b + g * 2
s = (abs(self.Simple_a) + abs(self.Simple_b)) / 2 * self.Simple_h
row = layout.row()
row.prop(self, "shape", expand=True)
# output options
col = layout.column()
col.label(text="Output Curve Type:")
col.row().prop(self, "outputType", expand=True)
if self.outputType == 'NURBS':
col.prop(self, "order_u")
elif self.outputType == 'BEZIER':
col.row().prop(self, 'handleType', expand=True)
col = layout.column()
col.row().prop(self, "use_cyclic_u", expand=True)
Spivak Vladimir (cwolf3d)
committed
col = layout.column()
col.row().prop(self, "edit_mode", expand=True)
col = layout.column()
# AddObjectHelper props
col.prop(self, "align")
col.prop(self, "location")
col.prop(self, "rotation")
if l != 0 or s != 0:
box = layout.box()
box.label(text="Statistics:", icon="INFO")
if l != 0:
l_str = str(round(l, 4))
box.label(text="Length: " + l_str)
if s != 0:
s_str = str(round(s, 4))
box.label(text="Area: " + s_str)
@classmethod
def poll(cls, context):
return context.scene is not None
def execute(self, context):
# turn off 'Enter Edit Mode'
use_enter_edit_mode = bpy.context.preferences.edit.use_enter_edit_mode
bpy.context.preferences.edit.use_enter_edit_mode = False
main(context, self, use_enter_edit_mode)
if use_enter_edit_mode:
bpy.ops.object.mode_set(mode = 'EDIT')
# restore pre operator state
bpy.context.preferences.edit.use_enter_edit_mode = use_enter_edit_mode
Spivak Vladimir (cwolf3d)
committed
if self.edit_mode:
bpy.ops.object.mode_set(mode = 'EDIT')
else:
bpy.ops.object.mode_set(mode = 'OBJECT')
def invoke(self, context, event):
self.execute(context)
return {'FINISHED'}
classes = [
Simple,
]
from bpy.utils import register_class
for cls in classes:
register_class(cls)
bpy.types.VIEW3D_MT_curve_add.append(menu)
from bpy.utils import unregister_class
for cls in reversed(classes):
unregister_class(cls)
bpy.types.VIEW3D_MT_curve_add.remove(menu)
if __name__ == "__main__":
register()