cosplay: Touhou/Houjuu Nue #4

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nhf/diag.py Normal file
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import cadquery as Cq
def tidy_repr(obj):
"""Shortens a default repr string"""
return repr(obj).split(".")[-1].rstrip(">")
def _ctx_str(self):
return (
tidy_repr(self)
+ ":\n"
+ f" pendingWires: {self.pendingWires}\n"
+ f" pendingEdges: {self.pendingEdges}\n"
+ f" tags: {self.tags}"
)
Cq.cq.CQContext.__str__ = _ctx_str
def _plane_str(self):
return (
tidy_repr(self)
+ ":\n"
+ f" origin: {self.origin.toTuple()}\n"
+ f" z direction: {self.zDir.toTuple()}"
)
Cq.occ_impl.geom.Plane.__str__ = _plane_str
def _wp_str(self):
out = tidy_repr(self) + ":\n"
out += f" parent: {tidy_repr(self.parent)}\n" if self.parent else " no parent\n"
out += f" plane: {self.plane}\n"
out += f" objects: {self.objects}\n"
out += f" modelling context: {self.ctx}"
return out
Cq.Workplane.__str__ = _wp_str

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nhf/joints.py Normal file
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import cadquery as Cq
import math
import unittest
def hirth_joint(radius=60,
radius_inner=40,
radius_centre=30,
base_height=20,
n_tooth=16,
tooth_height=16,
tooth_height_inner=2):
"""
Creates a cylindrical Hirth Joint
"""
# ensures secant doesn't blow up
assert n_tooth >= 5
# angle of half of a single tooth
theta = math.pi / n_tooth
# Generate a tooth by lofting between two curves
inner_raise = (tooth_height - tooth_height_inner) / 2
# Outer tooth triangle spans a curve of length `2 pi r / n_tooth`. This
# creates the side profile (looking radially inwards) of each of the
# triangles.
outer = [
(radius * math.tan(theta), 0),
(0, tooth_height),
(-radius * math.tan(theta), 0),
]
inner = [
(radius_inner * math.sin(theta), 0),
(radius_inner * math.sin(theta), inner_raise - tooth_height_inner / 2),
(0, inner_raise + tooth_height_inner / 2),
(-radius_inner * math.sin(theta), inner_raise - tooth_height_inner / 2),
(-radius_inner * math.sin(theta), 0),
]
tooth = (
Cq.Workplane('YZ')
.polyline(inner)
.close()
.workplane(offset=radius - radius_inner)
.polyline(outer)
.close()
.loft(combine=True)
.val()
)
tooth_centre_radius = radius_inner * math.cos(theta)
teeth = (
Cq.Workplane('XY')
.polarArray(radius=radius_inner, startAngle=0, angle=360, count=n_tooth)
.eachpoint(lambda loc: tooth.located(loc))
.intersect(Cq.Solid.makeCylinder(
height=base_height + tooth_height,
radius=radius,
))
)
base = (
Cq.Workplane('XY')
.cylinder(
height=base_height,
radius=radius,
centered=(True, True, False))
.faces(">Z").tag("bore")
.union(teeth.val().move(Cq.Location((0,0,base_height))))
.clean()
)
#base.workplane(offset=tooth_height/2).circle(radius=radius,forConstruction=True).tag("mate")
base.polyline([(0, 0, 0), (0, 0, 1)], forConstruction=True).tag("mate")
return base
def hirth_assembly():
"""
Example assembly of two Hirth joints
"""
rotate = 180 / 16
obj1 = hirth_joint().faces(tag="bore").cboreHole(
diameter=10,
cboreDiameter=20,
cboreDepth=3)
obj2 = (
hirth_joint()
.rotate(
axisStartPoint=(0,0,0),
axisEndPoint=(0,0,1),
angleDegrees=rotate
)
)
result = (
Cq.Assembly()
.add(obj1, name="obj1", color=Cq.Color(0.8,0.8,0.5,0.3))
.add(obj2, name="obj2", color=Cq.Color(0.5,0.5,0.5,0.3), loc=Cq.Location((0,0,80)))
.constrain("obj1?mate", "obj2?mate", "Axis")
.solve()
)
return result
class TestJoints(unittest.TestCase):
def test_hirth_assembly(self):
print(Cq.__version__)
hirth_assembly()
if __name__ == '__main__':
unittest.main()

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nhf/touhou/__init__.py Normal file
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#+title: Cosplay: Houjuu Nue
* Controller
This part describes the electrical connections and the microcontroller code.
* Structure
This part describes the 3d printed and laser cut structures. ~structure.blend~
is an overall sketch of the shapes and looks of the wing.
* Pattern
This part describes the sewing patterns.

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import cadquery as Cq
def mystery():
return (
Cq.Workplane()
.box(1, 1, 1)
.tag("base")
.wires(">Z")
.toPending()
.translate((0.1, 0.1, 1.0))
.toPending()
.loft()
.faces(">>X", tag="base")
.workplane(centerOption="CenterOfMass")
.circle(0.2)
.extrude(3)
)

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#include <FastLED.h>
// Main LED strip setup
#define LED_PIN 5
#define NUM_LEDS 100
#define LED_PART 50
#define BRIGHTNESS 250
#define LED_TYPE WS2811
CRGB leds[NUM_LEDS];
CRGB color_red;
CRGB color_blue;
CRGB color_green;
#define DIAG_PIN 6
void setup() {
// Calculate colors
hsv2rgb_spectrum(CHSV(4, 255, 100), color_red);
hsv2rgb_spectrum(CHSV(170, 255, 100), color_blue);
hsv2rgb_spectrum(CHSV(90, 255, 100), color_green);
pinMode(LED_BUILTIN, OUTPUT);
pinMode(LED_PIN, OUTPUT);
pinMode(DIAG_PIN, OUTPUT);
// Main LED strip
FastLED.addLeds<LED_TYPE, LED_PIN, RGB>(leds, NUM_LEDS);
}
void loop() {
fill_segmented(CRGB::Green, CRGB::Orange);
delay(500);
flash(leds, NUM_LEDS, color_red, 10, 20);
delay(500);
flash(leds, NUM_LEDS, color_blue, 10, 20);
delay(500);
}
void fill_segmented(CRGB c1, CRGB c2)
{
//fill_solid(leds, LED_PART, c1);
fill_gradient_RGB(leds, LED_PART, CRGB::Black ,c1);
fill_gradient_RGB(leds + LED_PART, NUM_LEDS - LED_PART, CRGB::Black, c2);
FastLED.show();
}
void flash(CRGB *ptr, uint16_t num, CRGB const& lead, int steps, int step_time)
{
digitalWrite(LED_BUILTIN, LOW);
//fill_solid(leds, NUM_LEDS, CRGB::Black);
for (int i = 0; i < steps; ++i)
{
uint8_t factor = 255 * i / steps;
analogWrite(DIAG_PIN, factor);
CRGB tail = blend(lead, CRGB::Black, factor);
uint16_t front = factor * (int) num / 255;
fill_solid(ptr, front, tail);
//fill_gradient_RGB(ptr, front, tail, lead);
//fill_solid(leds + front, NUM_LEDS - front, CRGB::Black);
FastLED.show();
delay(step_time);
}
fill_gradient_RGB(ptr, num, CRGB::Black, lead);
FastLED.show();
analogWrite(DIAG_PIN, LOW);
}