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modeling-app/public/kcl-samples/router-template-cross-bar/main.kcl
Adam Chalmers aea82e004a KCL: Convert x/y lines to use keyword arguments (#5615) 
Previously, `xLine`, `xLineTo`, `yLine` and `yLineTo` used positional arguments. Now:

- `xLineTo` and `yLineTo` have been removed
- `xLine` and `yLine` both use keyword arguments:
  - `length`, optional (i.e. a relative distance along the X or Y axis)
  - `endAbsolute` optional (i.e. an absolute point along the X or Y axis)
  - `tag` optional
- Exactly one of `length` or `endAbsolute` must be given. Not both, not neither.

For example:

```
// Old way
|> xLine(6.04, %)
|> yLineTo(20, %, $base)

// New way
|> xLine(length = 6.04)
|> yLine(endAbsolute = 20, tag = $base)
```

This also improves some of the general-purpose keyword arguments code in modeling app's TS codebase.
2025-03-07 22:07:16 -06:00

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// Router template for a cross bar
// A guide for routing a notch into a cross bar.
// Set Units
@settings(defaultLengthUnit = mm)
routerDiameter = 12.7
templateDiameter = 11 / 16 * inch()
templateGap = (templateDiameter - routerDiameter) / 2 - 0.5
slateWidthHalf = 41.5 / 2
minClampingDistance = 50 + 30
templateThickness = 10
radius = 10
depth = 30
distanceToInsideEdge = slateWidthHalf + templateThickness + templateGap
sketch001 = startSketchOn('XZ')
|> startProfileAt([ZERO, depth + templateGap], %)
|> xLine(length = slateWidthHalf - radius, tag = $seg01)
|> arc({
angleEnd = 0,
angleStart = 90,
radius = 10 + templateGap
}, %, $seg09)
|> yLine(endAbsolute = -templateThickness, tag = $seg03)
|> xLine(length = templateThickness, tag = $seg07)
|> yLine(endAbsolute = (segEndY(seg01) + templateThickness) / 2 - templateThickness, tag = $seg02)
|> xLine(endAbsolute = segEndX(seg03) + minClampingDistance, tag = $seg06)
|> yLine(length = templateThickness * 2, tag = $seg08)
|> xLine(endAbsolute = segEndX(seg02) + 0, tag = $seg05)
|> yLine(endAbsolute = segEndY(seg01) + templateThickness, tag = $seg10)
|> xLine(endAbsolute = ZERO, tag = $seg04)
|> xLine(length = -segLen(seg04))
|> yLine(length = -segLen(seg10))
|> xLine(length = -segLen(seg05))
|> yLine(length = -segLen(seg08))
|> xLine(length = segLen(seg06))
|> yLine(length = -segLen(seg02))
|> xLine(length = segLen(seg07))
|> yLine(length = segLen(seg03))
|> arc({
angleEnd = 90,
angleStart = 180,
radius = 10 + templateGap
}, %)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
extrude001 = extrude(sketch001, length = 5)
sketch003 = startSketchOn(extrude001, 'START')
|> startProfileAt([distanceToInsideEdge, 0], %)
|> angledLine([180, templateThickness], %, $rectangleSegmentA002)
|> angledLine([
segAng(rectangleSegmentA002) + 90,
templateThickness
], %, $rectangleSegmentB002)
|> angledLine([
segAng(rectangleSegmentA002),
-segLen(rectangleSegmentA002)
], %, $rectangleSegmentC002)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
extrude003 = extrude(sketch003, length = 13)
sketch002 = startSketchOn(extrude001, 'START')
|> startProfileAt([-distanceToInsideEdge, 0], %)
|> angledLine([0, templateThickness], %, $rectangleSegmentA001)
|> angledLine([
segAng(rectangleSegmentA001) - 90,
templateThickness
], %, $rectangleSegmentB001)
|> angledLine([
segAng(rectangleSegmentA001),
-segLen(rectangleSegmentA001)
], %, $rectangleSegmentC001)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
extrude002 = extrude(sketch002, length = 13)
sketch004 = startSketchOn(extrude002, 'END')
|> startProfileAt([-distanceToInsideEdge, 0], %)
|> angledLine([0, distanceToInsideEdge * 2], %, $rectangleSegmentA003)
|> angledLine([
segAng(rectangleSegmentA003) - 90,
templateThickness
], %, $rectangleSegmentB003)
|> angledLine([
segAng(rectangleSegmentA003),
-segLen(rectangleSegmentA003)
], %, $rectangleSegmentC003)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
extrude004 = extrude(sketch004, length = 4)
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