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modeling-app/rust/kcl-lib/tests/scale_after_fillet/input.kcl
Adam Chalmers d275995dfe KCL: Angled line should use keyword args (#5803) 
We continue migrating KCL stdlib functions to use keyword arguments. Next up is the `angledLine` family of functions (except `angledLineThatIntersects, which will be a quick follow-up).

Before vs. after:

`angledLine({angle = 90, length = 3}, %, $edge)`
  => `angledLine(angle = 90, length = 3, tag = $edge)`

`angledLineOfXLength({angle = 90, length = 3}, %, $edge)`
  => `angledLine(angle = 90, lengthX = 3, tag = $edge)`

`angledLineOfYLength({angle = 90, length = 3}, %, $edge)`
  => `angledLine(angle = 90, lengthY = 3, tag = $edge)`

`angledLineToX({angle = 90, length = 3}, %, $edge)`
  => `angledLine(angle = 90, endAbsoluteX = 3, tag = $edge)`

`angledLineToY({angle = 90, length = 3}, %, $edge)`
  => `angledLine(angle = 90, endAbsoluteY = 3, tag = $edge)`
2025-04-09 14:55:15 -05:00

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export boltDiameter = 0.625
export boltLength = 2.500
export boltHeadLength = boltDiameter
export boltHeadDiameter = 0.938
export boltHexDrive = 1 / 2
export boltHexFlatLength = boltHexDrive / (2 * cos(toRadians(30)))
export boltThreadLength = 1.75
export fn bolt() {
// Create the head of the cap screw
boltHead = startSketchOn('XZ')
|> circle(center = [0, 0], radius = boltHeadDiameter / 2, tag = $topEdge)
|> extrude(length = -boltHeadLength)
|> fillet(radius = 0.020, tags = [topEdge, getOppositeEdge(topEdge)])
// Define the sketch of the hex pattern on the screw head
hexPatternSketch = startSketchOn(boltHead, 'start')
|> startProfileAt([
boltHexDrive / 2,
boltHexFlatLength / 2
], %)
|> angledLine(
angle = 270,
length = boltHexFlatLength,
)
|> angledLine(
angle = 210,
length = boltHexFlatLength,
)
|> angledLine(
angle = 150,
length = boltHexFlatLength,
)
|> angledLine(
angle = 90,
length = boltHexFlatLength,
)
|> angledLine(
angle = 30,
length = boltHexFlatLength,
)
|> close()
|> extrude(length = -boltHeadLength * 0.75)
boltBody = startSketchOn(boltHead, 'end')
|> circle(center = [0, 0], radius = boltDiameter / 2, tag = $filletEdge)
|> extrude(length = boltLength)
|> fillet(radius = .020, tags = [getOppositeEdge(filletEdge)])
|> appearance(color = "#4dd043", metalness = 90, roughness = 90)
return boltBody
}
bolt()
|> scale(x = 3.14, y = 3.14, z = 3.14)
// https://www.mcmaster.com/91251a404/
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