Cosplay/nhf/touhou/houjuu_nue/wing.py

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"""
This file describes the shapes of the wing shells. The joints are defined in
`__init__.py`.
"""
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import math
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from enum import Enum
from dataclasses import dataclass, field
from typing import Mapping, Tuple, Optional
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import cadquery as Cq
from nhf import Material, Role
from nhf.build import Model, target, assembly
from nhf.parts.box import box_with_centre_holes, MountingBox, Hole
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from nhf.parts.joints import HirthJoint
from nhf.touhou.houjuu_nue.joints import ShoulderJoint, ElbowJoint
import nhf.utils
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@dataclass
class WingProfile(Model):
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name: str = "wing"
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base_joint: HirthJoint = field(default_factory=lambda: HirthJoint())
root_width: float = 80.0
hs_joint_corner_dx: float = 30.0
hs_joint_corner_hole_diam: float = 6.0
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panel_thickness: float = 25.4 / 16
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spacer_thickness: float = 25.4 / 8
shoulder_joint: ShoulderJoint = field(default_factory=lambda: ShoulderJoint())
shoulder_width: float = 30.0
shoulder_tip_x: float = -200.0
shoulder_tip_y: float = 160.0
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s1_thickness: float = 25.0
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elbow_joint: ElbowJoint = field(default_factory=lambda: ElbowJoint())
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elbow_height: float = 100
elbow_x: float = 240
elbow_y: float = 30
# Tilt of elbow w.r.t. shoulder
elbow_angle: float = 20
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s2_thickness: float = 25.0
wrist_joint: ElbowJoint = field(default_factory=lambda: ElbowJoint())
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wrist_height: float = 70
# Bottom point of the wrist
wrist_x: float = 400
wrist_y: float = 200
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# Tile of wrist w.r.t. shoulder
wrist_angle: float = 40
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s3_thickness: float = 25.0
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# Extends from the wrist to the tip of the arrow
arrow_height: float = 300
arrow_angle: float = 7
# Relative (in wrist coordinate) centre of the ring
ring_x: float = 40
ring_y: float = 20
ring_radius_inner: float = 22
material_panel: Material = Material.ACRYLIC_TRANSPARENT
material_bracket: Material = Material.ACRYLIC_TRANSPARENT
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def __post_init__(self):
super().__init__(name=self.name)
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assert self.ring_radius > self.ring_radius_inner
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self.elbow_theta = math.radians(self.elbow_angle)
self.elbow_c = math.cos(self.elbow_theta)
self.elbow_s = math.sin(self.elbow_theta)
self.elbow_top_x, self.elbow_top_y = self.elbow_to_abs(0, self.elbow_height)
self.wrist_theta = math.radians(self.wrist_angle)
self.wrist_c = math.cos(self.wrist_theta)
self.wrist_s = math.sin(self.wrist_theta)
self.wrist_top_x, self.wrist_top_y = self.wrist_to_abs(0, self.wrist_height)
self.arrow_theta = math.radians(self.arrow_angle)
self.arrow_x, self.arrow_y = self.wrist_to_abs(0, -self.arrow_height)
self.arrow_tip_x = self.arrow_x + (self.arrow_height + self.wrist_height) \
* math.sin(self.arrow_theta - self.wrist_theta)
self.arrow_tip_y = self.arrow_y + (self.arrow_height + self.wrist_height) \
* math.cos(self.arrow_theta - self.wrist_theta)
# [[c, s], [-s, c]] * [ring_x, ring_y]
self.ring_abs_x = self.wrist_top_x + self.wrist_c * self.ring_x - self.wrist_s * self.ring_y
self.ring_abs_y = self.wrist_top_y + self.wrist_s * self.ring_x + self.wrist_c * self.ring_y
@property
def root_height(self) -> float:
return self.shoulder_joint.height
def profile_s0(self) -> Cq.Sketch:
tip_x = self.shoulder_tip_x
tip_y = self.shoulder_tip_y
sketch = (
Cq.Sketch()
.segment((-self.root_width, 0), (0, 0))
.spline([
(0, 0),
(-30.0, 80.0),
(tip_x, tip_y)
])
.segment(
(tip_x, tip_y),
(tip_x, tip_y - self.shoulder_width)
)
.segment(
(tip_x, tip_y - self.shoulder_width),
(-self.root_width, 0)
)
.assemble()
)
return sketch
def spacer_s0_shoulder(self) -> MountingBox:
"""
Should be cut
"""
holes = [
hole
for i, x in enumerate(self.shoulder_joint.parent_conn_hole_pos)
for hole in [
Hole(x=x, tag=f"conn_top{i}"),
Hole(x=-x, tag=f"conn_bot{i}"),
]
]
return MountingBox(
length=self.shoulder_joint.height,
width=self.shoulder_width,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.shoulder_joint.parent_conn_hole_diam,
centred=(True, True),
)
def spacer_s0_base(self) -> MountingBox:
"""
Should be cut
"""
dx = self.hs_joint_corner_dx
holes = [
Hole(x=-dx, y=-dx),
Hole(x=dx, y=-dx),
Hole(x=dx, y=dx),
Hole(x=-dx, y=dx),
]
return MountingBox(
length=self.root_height,
width=self.root_width,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.hs_joint_corner_hole_diam,
centred=(True, True),
)
def surface_s0(self, top: bool = False) -> Cq.Workplane:
tags = [
("shoulder", (self.shoulder_tip_x, self.shoulder_tip_y - self.shoulder_width), 0),
("base", (0, 0), 90),
]
return nhf.utils.extrude_with_markers(
self.profile_s0(),
self.panel_thickness,
tags,
reverse=not top,
)
def assembly_s0(self) -> Cq.Assembly:
result = (
Cq.Assembly()
.add(self.surface_s0(top=True), name="bot", color=self.material_panel.color)
.add(self.surface_s0(top=False), name="top", color=self.material_panel.color)
.constrain("bot@faces@>Z", "top@faces@<Z", "Point",
param=self.shoulder_joint.height)
)
for o, tag in [
(self.spacer_s0_shoulder().generate(), "shoulder"),
(self.spacer_s0_base().generate(), "base")
]:
(
result
.add(o, name=tag, color=self.material_bracket.color)
.constrain(f"{tag}?bot", f"bot?{tag}", "Plane")
.constrain(f"{tag}?top", f"top?{tag}", "Plane")
.constrain(f"{tag}?dir", f"top?{tag}_dir", "Axis")
)
hirth = self.base_joint.generate()
(
result
.add(hirth, name="hs", color=Role.CHILD.color)
.constrain("hs@faces@<Z", "base?dir", "Plane")
)
return result.solve()
### s1, s2, s3 ###
def _assembly_insert_spacer(
self,
a: Cq.Assembly,
spacer: Cq.Workplane,
point_tag: str,
front_tag: str = "front",
back_tag: str = "back",
flipped: bool = False,
):
"""
For a child joint facing up, front panel should be on the right, back
panel on the left
"""
site_front, site_back = "right", "left"
if flipped:
site_front, site_back = site_back, site_front
angle = 0
(
a
.add(spacer,
name=point_tag,
color=self.material_bracket.color)
.constrain(f"{front_tag}?{point_tag}",
f"{point_tag}?{site_front}", "Plane")
.constrain(f"{back_tag}?{point_tag}",
f"{point_tag}?{site_back}", "Plane")
.constrain(f"{point_tag}?dir", f"{front_tag}?{point_tag}_dir",
"Axis", param=angle)
)
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@property
def ring_radius(self) -> float:
dx = self.ring_x
dy = self.ring_y
return (dx * dx + dy * dy) ** 0.5
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def elbow_to_abs(self, x: float, y: float) -> Tuple[float, float]:
elbow_x = self.elbow_x + x * self.elbow_c - y * self.elbow_s
elbow_y = self.elbow_y + x * self.elbow_s + y * self.elbow_c
return elbow_x, elbow_y
def wrist_to_abs(self, x: float, y: float) -> Tuple[float, float]:
wrist_x = self.wrist_x + x * self.wrist_c - y * self.wrist_s
wrist_y = self.wrist_y + x * self.wrist_s + y * self.wrist_c
return wrist_x, wrist_y
def profile(self) -> Cq.Sketch:
"""
Net profile of the wing starting from the wing root with no divisions
"""
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result = (
Cq.Sketch()
.segment(
(0, 0),
(0, self.shoulder_joint.height),
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tag="shoulder")
.arc(
(0, self.shoulder_joint.height),
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(self.elbow_top_x, self.elbow_top_y),
(self.wrist_top_x, self.wrist_top_y),
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tag="s1_top")
#.segment(
# (self.wrist_x, self.wrist_y),
# (wrist_top_x, wrist_top_y),
# tag="wrist")
.arc(
(0, 0),
(self.elbow_x, self.elbow_y),
(self.wrist_x, self.wrist_y),
tag="s1_bot")
)
result = (
result
.segment(
(self.wrist_x, self.wrist_y),
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(self.arrow_x, self.arrow_y)
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)
.segment(
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(self.arrow_x, self.arrow_y),
(self.arrow_tip_x, self.arrow_tip_y)
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)
.segment(
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(self.arrow_tip_x, self.arrow_tip_y),
(self.wrist_top_x, self.wrist_top_y)
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)
)
# Carve out the ring
result = result.assemble()
result = (
result
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.push([(self.ring_abs_x, self.ring_abs_y)])
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.circle(self.ring_radius, mode='a')
.circle(self.ring_radius_inner, mode='s')
.clean()
)
return result
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def _mask_elbow(self) -> list[Tuple[float, float]]:
"""
Polygon shape to mask out parts above the elbow
"""
abscissa = 200
return [
(0, -abscissa),
(self.elbow_x, self.elbow_y),
(self.elbow_top_x, self.elbow_top_y),
(0, abscissa)
]
def _mask_wrist(self) -> list[Tuple[float, float]]:
abscissa = 200
return [
(0, -abscissa),
(self.wrist_x, -abscissa),
(self.wrist_x, self.wrist_y),
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(self.wrist_top_x, self.wrist_top_y),
(0, abscissa),
]
def profile_s1(self) -> Cq.Sketch:
profile = (
self.profile()
.reset()
.polygon(self._mask_elbow(), mode='i')
)
return profile
def surface_s1(self,
shoulder_mount_inset: float = 0,
elbow_mount_inset: float = 0,
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front: bool = True) -> Cq.Workplane:
shoulder_h = self.shoulder_joint.child_height
h = (self.shoulder_joint.height - shoulder_h) / 2
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tags_shoulder = [
("shoulder_bot", (shoulder_mount_inset, h), 90),
("shoulder_top", (shoulder_mount_inset, h + shoulder_h), 270),
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]
elbow_h = self.elbow_joint.parent_beam.total_height
h = (self.elbow_height - elbow_h) / 2
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tags_elbow = [
("elbow_bot",
self.elbow_to_abs(-elbow_mount_inset, h),
self.elbow_angle + 90),
("elbow_top",
self.elbow_to_abs(-elbow_mount_inset, h + elbow_h),
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self.elbow_angle + 270),
]
profile = self.profile_s1()
tags = tags_shoulder + tags_elbow
return nhf.utils.extrude_with_markers(profile, self.panel_thickness, tags, reverse=front)
def spacer_s1_shoulder(self) -> MountingBox:
holes = [
Hole(x)
for x in self.shoulder_joint.child_conn_hole_pos
]
return MountingBox(
length=50.0, # FIXME: magic
width=self.s1_thickness,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.shoulder_joint.child_conn_hole_diam,
)
def spacer_s1_elbow(self) -> MountingBox:
holes = [
Hole(x)
for x in self.elbow_joint.parent_hole_pos()
]
return MountingBox(
length=70.0, # FIXME: magic
width=self.s1_thickness,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.elbow_joint.hole_diam,
)
def assembly_s1(self) -> Cq.Assembly:
result = (
Cq.Assembly()
.add(self.surface_s1(front=True), name="front",
color=self.material_panel.color)
.constrain("front", "Fixed")
.add(self.surface_s1(front=False), name="back",
color=self.material_panel.color)
.constrain("front@faces@>Z", "back@faces@<Z", "Point",
param=self.s1_thickness)
)
for t in ["shoulder_bot", "shoulder_top", "elbow_bot", "elbow_top"]:
is_top = t.endswith("_top")
is_parent = t.startswith("shoulder")
o = self.spacer_s1_shoulder().generate() if is_parent else self.spacer_s1_elbow().generate()
self._assembly_insert_spacer(
result,
o,
point_tag=t,
flipped=is_top != is_parent,
)
return result.solve()
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def profile_s2(self) -> Cq.Sketch:
profile = (
self.profile()
.reset()
.polygon(self._mask_elbow(), mode='s')
.reset()
.polygon(self._mask_wrist(), mode='i')
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)
return profile
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def surface_s2(self,
thickness: float = 25.4/16,
elbow_mount_inset: float = 0,
wrist_mount_inset: float = 0,
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front: bool = True) -> Cq.Workplane:
elbow_h = self.elbow_joint.child_beam.total_height
h = (self.elbow_height - elbow_h) / 2
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tags_elbow = [
("elbow_bot",
self.elbow_to_abs(elbow_mount_inset, h),
self.elbow_angle + 90),
("elbow_top",
self.elbow_to_abs(elbow_mount_inset, h + elbow_h),
self.elbow_angle - 90),
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]
wrist_h = self.wrist_joint.parent_beam.total_height
h = (self.wrist_height - wrist_h) / 2
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tags_wrist = [
("wrist_bot",
self.wrist_to_abs(-wrist_mount_inset, h),
self.wrist_angle + 90),
("wrist_top",
self.wrist_to_abs(-wrist_mount_inset, h + wrist_h),
self.wrist_angle - 90),
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]
profile = self.profile_s2()
tags = tags_elbow + tags_wrist
return nhf.utils.extrude_with_markers(profile, thickness, tags, reverse=front)
def spacer_s2_elbow(self) -> MountingBox:
holes = [
Hole(x)
for x in self.elbow_joint.child_hole_pos()
]
return MountingBox(
length=50.0, # FIXME: magic
width=self.s2_thickness,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.elbow_joint.hole_diam,
)
def spacer_s2_wrist(self) -> MountingBox:
holes = [
Hole(x)
for x in self.wrist_joint.parent_hole_pos()
]
return MountingBox(
length=70.0, # FIXME: magic
width=self.s1_thickness,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.wrist_joint.hole_diam,
)
def assembly_s2(self) -> Cq.Assembly:
result = (
Cq.Assembly()
.add(self.surface_s2(front=True), name="front",
color=self.material_panel.color)
.constrain("front", "Fixed")
.add(self.surface_s2(front=False), name="back",
color=self.material_panel.color)
.constrain("front@faces@>Z", "back@faces@<Z", "Point",
param=self.s1_thickness)
)
for t in ["elbow_bot", "elbow_top", "wrist_bot", "wrist_top"]:
is_top = t.endswith("_top")
is_parent = t.startswith("elbow")
o = self.spacer_s2_elbow() if is_parent else self.spacer_s2_wrist()
self._assembly_insert_spacer(
result,
o.generate(),
point_tag=t,
flipped=is_top != is_parent,
)
return result.solve()
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def profile_s3(self) -> Cq.Sketch:
profile = (
self.profile()
.reset()
.polygon(self._mask_wrist(), mode='s')
)
return profile
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def surface_s3(self,
front: bool = True) -> Cq.Workplane:
wrist_mount_inset = 0
wrist_h = self.wrist_joint.child_beam.total_height
h = (self.wrist_height - wrist_h) / 2
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tags = [
("wrist_bot",
self.wrist_to_abs(wrist_mount_inset, h),
self.wrist_angle + 90),
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("wrist_top",
self.wrist_to_abs(wrist_mount_inset, h + wrist_h),
self.wrist_angle - 90),
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]
profile = self.profile_s3()
return nhf.utils.extrude_with_markers(profile, self.panel_thickness, tags, reverse=front)
def spacer_s3_wrist(self) -> MountingBox:
holes = [
Hole(x)
for x in self.wrist_joint.child_hole_pos()
]
return MountingBox(
length=70.0, # FIXME: magic
width=self.s1_thickness,
thickness=self.spacer_thickness,
holes=holes,
hole_diam=self.wrist_joint.hole_diam
)
def assembly_s3(self) -> Cq.Assembly:
result = (
Cq.Assembly()
.add(self.surface_s3(front=True), name="front",
color=self.material_panel.color)
.constrain("front", "Fixed")
.add(self.surface_s3(front=False), name="back",
color=self.material_panel.color)
.constrain("front@faces@>Z", "back@faces@<Z", "Point",
param=self.s1_thickness)
)
for t in ["wrist_bot", "wrist_top"]:
is_top = t.endswith("_top")
is_parent = True
o = self.spacer_s3_wrist()
self._assembly_insert_spacer(
result,
o.generate(),
point_tag=t,
flipped=is_top != is_parent,
)
return result.solve()
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def assembly(self,
parts: Optional[list[str]] = None
) -> Cq.Assembly():
if parts is None:
parts = ["s0", "shoulder", "s1", "elbow", "s2", "wrist", "s3"]
result = (
Cq.Assembly()
)
if "s0" in parts:
result.add(self.assembly_s0(), name="s0")
if "shoulder" in parts:
result.add(self.shoulder_joint.assembly(), name="shoulder")
if "s0" in parts and "shoulder" in parts:
(
result
.constrain("s0/shoulder?conn_top0", "shoulder/parent_top/lip?conn0", "Plane")
.constrain("s0/shoulder?conn_top1", "shoulder/parent_top/lip?conn1", "Plane")
.constrain("s0/shoulder?conn_bot0", "shoulder/parent_bot/lip?conn0", "Plane")
.constrain("s0/shoulder?conn_bot1", "shoulder/parent_bot/lip?conn1", "Plane")
)
if "s1" in parts:
result.add(self.assembly_s1(), name="s1")
if "s1" in parts and "shoulder" in parts:
(
result
.constrain("s1/shoulder_top?conn0", "shoulder/child/lip_top?conn0", "Plane")
.constrain("s1/shoulder_top?conn1", "shoulder/child/lip_top?conn1", "Plane")
.constrain("s1/shoulder_bot?conn0", "shoulder/child/lip_bot?conn0", "Plane")
.constrain("s1/shoulder_bot?conn1", "shoulder/child/lip_bot?conn1", "Plane")
)
if "elbow" in parts:
result.add(self.elbow_joint.assembly(), name="elbow")
if "s1" in parts and "elbow" in parts:
(
result
.constrain("s1/elbow_top?conn0", "elbow/parent_upper/top?conn0", "Plane")
.constrain("s1/elbow_top?conn1", "elbow/parent_upper/top?conn1", "Plane")
.constrain("s1/elbow_bot?conn0", "elbow/parent_upper/bot?conn0", "Plane")
.constrain("s1/elbow_bot?conn1", "elbow/parent_upper/bot?conn1", "Plane")
)
if "s2" in parts:
result.add(self.assembly_s2(), name="s2")
if "s2" in parts and "elbow" in parts:
(
result
.constrain("s2/elbow_top?conn0", "elbow/child/top?conn0", "Plane")
.constrain("s2/elbow_top?conn1", "elbow/child/top?conn1", "Plane")
.constrain("s2/elbow_bot?conn0", "elbow/child/bot?conn0", "Plane")
.constrain("s2/elbow_bot?conn1", "elbow/child/bot?conn1", "Plane")
)
if "wrist" in parts:
result.add(self.wrist_joint.assembly(), name="wrist")
if "s2" in parts and "wrist" in parts:
(
result
.constrain("s2/wrist_top?conn0", "wrist/parent_upper/top?conn0", "Plane")
.constrain("s2/wrist_top?conn1", "wrist/parent_upper/top?conn1", "Plane")
.constrain("s2/wrist_bot?conn0", "wrist/parent_upper/bot?conn0", "Plane")
.constrain("s2/wrist_bot?conn1", "wrist/parent_upper/bot?conn1", "Plane")
)
if "s3" in parts:
result.add(self.assembly_s3(), name="s3")
if "s3" in parts and "wrist" in parts:
(
result
.constrain("s3/wrist_top?conn0", "wrist/child/top?conn0", "Plane")
.constrain("s3/wrist_top?conn1", "wrist/child/top?conn1", "Plane")
.constrain("s3/wrist_bot?conn0", "wrist/child/bot?conn0", "Plane")
.constrain("s3/wrist_bot?conn1", "wrist/child/bot?conn1", "Plane")
)
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return result.solve()
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