cosplay: Touhou/Houjuu Nue #4
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@ -33,6 +33,7 @@ class Material(Enum):
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PLASTIC_PLA = 0.5, _color('azure3', 0.6)
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RESIN_TRANSPARENT = 1.1, _color('cadetblue2', 0.6)
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ACRYLIC_BLACK = 0.5, _color('gray50', 0.6)
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ACRYLIC_TRANSPARENT = 0.5, _color('ghostwhite', 0.5)
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def __init__(self, density: float, color: Cq.Color):
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self.density = density
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@ -332,6 +332,7 @@ class TorsionJoint:
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)
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def track(self):
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# TODO: Cover outer part of track only. Can we do this?
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groove_profile = (
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Cq.Sketch()
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.circle(self.radius)
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@ -104,12 +104,16 @@ class Parameters(Model):
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shoulder_attach_diam: float = 8
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"""
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Heights for various wing joints, where the numbers start from the first joint.
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Heights for various wing joints, where the numbers start from the first
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joint.
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"""
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wing_s0_thickness: float = 40
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wing_s0_height: float = 100
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wing_r1_height: float = 100
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wing_r1_width: float = 400
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# Length of the spacer
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wing_s1_thickness: float = 20
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wing_s1_spacer_thickness: float = 25.4 / 8
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wing_s1_spacer_width: float = 20
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trident_handle: Handle = field(default_factory=lambda: Handle(
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diam=38,
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@ -121,6 +125,9 @@ class Parameters(Model):
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simplify_geometry=False,
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))
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material_panel: Material = Material.ACRYLIC_TRANSPARENT
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material_bracket: Material = Material.ACRYLIC_TRANSPARENT
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def __post_init__(self):
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super().__init__(name="houjuu-nue")
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assert self.wing_root_radius > self.hs_hirth_joint.radius,\
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@ -258,6 +265,10 @@ class Parameters(Model):
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result.faces("<Z").tag("base")
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return result
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#@target(name="wing/joining-plate", kind=TargetKind.DXF)
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#def joining_plate(self) -> Cq.Workplane:
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# return self.wing_joining_plate.plate()
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@target(name="wing_root")
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def wing_root(self) -> Cq.Assembly:
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"""
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@ -312,43 +323,42 @@ class Parameters(Model):
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)
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return result
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def wing_r1_profile(self) -> Cq.Sketch:
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"""
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Generates the first wing segment profile, with the wing root pointing in
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the positive x axis.
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"""
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# Depression of the wing middle
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bend = 200
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factor = 0.7
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@target(name="wing/s1-spacer", kind=TargetKind.DXF)
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def wing_s1_spacer(self) -> Cq.Workplane:
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result = (
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Cq.Sketch()
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.segment((0, 0), (0, self.wing_r1_height))
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.spline([
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(0, self.wing_r1_height),
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(0.5 * self.wing_r1_width, self.wing_r1_height - factor * bend),
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(self.wing_r1_width, self.wing_r1_height - bend),
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])
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.segment(
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(self.wing_r1_width, self.wing_r1_height - bend),
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(self.wing_r1_width, -bend),
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)
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.spline([
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(self.wing_r1_width, - bend),
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(0.5 * self.wing_r1_width, - factor * bend),
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(0, 0),
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])
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.assemble()
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Cq.Workplane('XZ')
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.sketch()
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.rect(self.wing_s1_spacer_width, self.wing_s1_thickness)
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.finalize()
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.extrude(self.wing_s1_spacer_thickness)
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)
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result.faces("<Z").tag("mate1")
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result.faces(">Z").tag("mate2")
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result.faces(">Y").tag("dir")
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return result
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def wing_r1(self) -> Cq.Solid:
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profile = self.wing_r1_profile()
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@target(name="wing/r1s1", kind=TargetKind.DXF)
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def wing_r1s1_profile(self) -> Cq.Sketch:
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return MW.wing_r1s1_profile()
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def wing_r1s1_panel(self, front=True) -> Cq.Workplane:
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profile = self.wing_r1s1_profile()
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anchors = [
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("shoulder_bot", 10, 10),
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("middle", 50, -20),
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("tip", 390, -150),
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]
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result = (
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Cq.Workplane("XY")
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.placeSketch(profile)
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.extrude(self.panel_thickness)
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.val()
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)
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plane = result.faces(">Z" if front else "<Z").workplane()
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sign = 1 if front else -1
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tag_direction = "+Y" if front else "-Y"
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for name, px, py in anchors:
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plane.moveTo(px, sign * py).tagPlane(name)
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#plane.moveTo(px, sign * py).tagPlane(f"{name}_dir", direction=tag_direction)
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return result
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######################
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@ -405,6 +415,29 @@ class Parameters(Model):
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)
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return result
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def wing_r1s1_assembly(self) -> Cq.Assembly:
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result = (
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Cq.Assembly()
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.add(self.wing_r1s1_panel(front=True), name="panel_front",
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color=self.material_panel.color)
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.add(self.wing_r1s1_panel(front=False), name="panel_back",
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color=self.material_panel.color)
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.constrain("panel_front@faces@>Z", "panel_back@faces@<Z", "Point",
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param=self.wing_s1_thickness)
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)
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for tag in ["shoulder_bot", "middle", "tip"]:
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(
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result
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.add(self.wing_s1_spacer(), name=f"{tag}_spacer",
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color=self.material_bracket.color)
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.constrain(f"panel_front?{tag}", f"{tag}_spacer?mate1", "Plane")
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.constrain(f"panel_back?{tag}", f"{tag}_spacer?mate2", "Plane")
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)
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result.solve()
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return result
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def wing_r1_assembly(self) -> Cq.Assembly:
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result = (
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Cq.Assembly()
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@ -226,3 +226,34 @@ def wing_root(joint: HirthJoint,
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loc=Cq.Location((0, 0, -joint.total_height)))
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)
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return result
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def wing_r1s1_profile() -> Cq.Sketch:
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"""
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Generates the first wing segment profile, with the wing root pointing in
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the positive x axis.
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"""
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# Depression of the wing middle
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h = 100
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w = 400
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bend = 200
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factor = 0.7
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result = (
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Cq.Sketch()
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.segment((0, 0), (0, h))
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.spline([
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(0, h),
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(0.5 * w, h - factor * bend),
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(w, h - bend),
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])
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.segment(
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(w, h - bend),
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(w, -bend),
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)
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.spline([
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(w, - bend),
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(0.5 * w, - factor * bend),
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(0, 0),
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])
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.assemble()
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)
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return result
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18
nhf/utils.py
18
nhf/utils.py
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@ -6,6 +6,7 @@ Adds the functions to `Cq.Workplane`:
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2. `tagPlane`
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"""
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import cadquery as Cq
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from typing import Union, Tuple
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def tagPoint(self, tag: str):
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@ -18,12 +19,16 @@ def tagPoint(self, tag: str):
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Cq.Workplane.tagPoint = tagPoint
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def tagPlane(self, tag: str, axis='Z'):
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def tagPlane(self, tag: str,
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direction: Union[str, Cq.Vector, Tuple[float, float, float]] = '+Z'):
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"""
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Adds a phantom `Cq.Edge` in the given location which can be referenced in a
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`Axis`, `Point`, or `Plane` constraint.
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"""
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if isinstance(direction, str):
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x, y, z = 0, 0, 0
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assert len(direction) == 2
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sign, axis = direction
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if axis in ('z', 'Z'):
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z = 1
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elif axis in ('y', 'Y'):
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@ -32,7 +37,16 @@ def tagPlane(self, tag: str, axis='Z'):
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x = 1
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else:
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assert False, "Axis must be one of x,y,z"
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edge = Cq.Edge.makeLine((-x, -y, -z), (x, y, z))
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if sign == '+':
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sign = 1
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elif sign == '-':
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sign = -1
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else:
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assert False, "Sign must be one of +/-"
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v = Cq.Vector(x, y, z) * sign
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else:
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v = Cq.Vector(direction)
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edge = Cq.Edge.makeLine(v * (-1), v)
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self.eachpoint(edge.moved, useLocalCoordinates=True).tag(tag)
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Cq.Workplane.tagPlane = tagPlane
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