cadquery/notebook_nueva/utils.py

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import cadquery as cq
from math import floor
def extrude_shape(*, model, face, w, h, x_offset, y_offset, element, height):
return (
model.faces(face)
.workplane(centerOption="CenterOfBoundBox")
.center(-w / 2 + x_offset + element["x"], -h / 2 + y_offset + element["y"])
.placeSketch(element["shape"])
.extrude(height)
)
def punch_hole(*, model, face, w, h, x_offset, y_offset, hole, depth):
return (
model.faces(face)
.workplane(centerOption="CenterOfBoundBox")
.center(-w / 2 + x_offset + hole["x"], -h / 2 + y_offset + hole["y"])
.placeSketch(hole["shape"])
.cutBlind(-depth)
)
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def extrude_shape2(*, model, face, w, h, x_offset, y_offset, hole, depth):
return (
model.faces(face)
.workplane(centerOption="CenterOfBoundBox")
.center(-w / 2 + x_offset + hole["x"], -h / 2 + y_offset + hole["y"])
.placeSketch(hole["shape"])
.extrude(-depth)
)
def hex_vents(*, size, width, height):
# size is radius of the hexagon
# Information about how this works:
# https://www.redblobgames.com/grids/hexagons/
x_step = size * (3**0.5)
y_step = size * 3 / 2
x_count = floor(width / x_step) - 1
if height > 4 * size:
y_count = floor((height - 2 * size) / (1.5 * size))
else:
y_count = 1
x_size = (x_count + 0.5) * x_step # Assumes at least 2 rows
y_size = 2 * size + 1.5 * size * (y_count - 1)
x_offset = (width - x_size) / 2 + 0.5 * x_step
y_offset = (height - y_size) / 2 + size
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vent_positions = []
for x in range(0, x_count):
for y in range(0, y_count):
vent_positions.append(
(
(x + (y % 2) / 2) * x_step + x_offset,
y * y_step + y_offset,
)
)
vents = [
{
"x": 0,
"y": 0,
"shape": cq.Sketch().push(vent_positions).regularPolygon(size * 0.9, 6),
}
]
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return vents