d275995dfe
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)`
20 lines
667 B
Plaintext
20 lines
667 B
Plaintext
@settings(defaultLengthUnit = in)
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sketch001 = startSketchOn(XZ)
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|> startProfileAt([75.8, 317.2], %)
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|> angledLine(angle = 0, length = 268.43, tag = $rectangleSegmentA001)
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|> angledLine(angle = segAng(rectangleSegmentA001) - 90, length = 217.26, tag = $seg01)
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|> angledLine(angle = segAng(rectangleSegmentA001), length = -segLen(rectangleSegmentA001), tag = $yo)
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|> line(endAbsolute = [profileStartX(%), profileStartY(%)], tag = $seg02)
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|> close()
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extrude001 = extrude(sketch001, length = 100)
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chamf = chamfer(
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extrude001,
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length = 30,
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tags = [
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seg01,
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getNextAdjacentEdge(yo),
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getNextAdjacentEdge(seg02),
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getOppositeEdge(seg01)
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]
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)
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