185 lines
4.6 KiB
Text
185 lines
4.6 KiB
Text
---
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title: Creating the closure
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order: 91
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---
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Things are starting to look good, but we can't fit the bib over the baby's head like this.
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So we must create a closure. We'll let the straps overlap at the end, and put in a snap
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later.
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## Using macros
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To round the straps, we'll use something new: **a macro**. To use macros, we
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need the `macro` method, which we can destructure to get access to it.
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Macros are little helpers that automate things that would otherwise get rather
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tedious. There are macros to add titles to our pattern, or grainline
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indicators, a scalebox, and there's a macro to round corners. The `round`
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macro.
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:::note
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You can find more information on the `round` macro in [the macros docs](/reference/macros/round/).
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:::
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We need a half circle here, but the `round` macro works on 90° angles, so
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we'll use it twice. As such, we'll add some points to guide the macro, and
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then put it to work.
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Like our neck opening, we've only drawn half since we can simply copy the
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points to the other side.
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<Example tutorial caption="Now the straps overlap. Which doesn't work for a pattern as it would make it impossible to cut it out of a single piece of fabric. So let's deal with the overlap next.">
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```design/src/bib.mjs
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function draftBib({
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Path,
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Point,
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paths,
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points,
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measurements,
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options,
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// highlight-start
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macro,
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// highlight-end
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part,
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}) {
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/\*
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- Construct the quarter neck opening
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_/
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let tweak = 1
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let target = (measurements.head _ options.neckRatio) /4
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let delta
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do {
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points.right = new Point(
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tweak _ measurements.head / 10,
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0
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)
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points.bottom = new Point(
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0,
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tweak _ measurements.head / 12
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)
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points.rightCp1 = points.right.shift(
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90,
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points.bottom.dy(points.right) / 2
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)
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points.bottomCp2 = points.bottom.shift(
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0,
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points.bottom.dx(points.right) / 2
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)
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paths.quarterNeck = new Path()
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.move(points.right)
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.curve(
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points.rightCp1,
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points.bottomCp2,
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points.bottom
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)
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.hide()
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delta = paths.quarterNeck.length() - target
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if (delta > 0) tweak = tweak * 0.99
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else tweak = tweak * 1.02
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} while (Math.abs(delta) > 1)
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/\*
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- Construct the complete neck opening
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\*/
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points.rightCp2 = points.rightCp1.flipY()
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points.bottomCp1 = points.bottomCp2.flipX()
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points.left = points.right.flipX()
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points.leftCp1 = points.rightCp2.flipX()
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points.leftCp2 = points.rightCp1.flipX()
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points.top = points.bottom.flipY()
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points.topCp1 = points.bottomCp2.flipY()
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points.topCp2 = points.bottomCp1.flipY()
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paths.neck = new Path()
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.move(points.top)
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.curve(points.topCp2, points.leftCp1, points.left)
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.curve(points.leftCp2, points.bottomCp1, points.bottom)
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.curve(points.bottomCp2, points.rightCp1, points.right)
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.curve(points.rightCp2, points.topCp1, points.top)
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.close()
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.addClass('fabric')
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/\*
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- Drawing the bib outline
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_/
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const width = measurements.head _ options.widthRatio
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const length = measurements.head \* options.lengthRatio
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points.topLeft = new Point(
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width / -2,
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points.top.y - (width / 2 - points.right.x)
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)
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points.topRight = points.topLeft.shift(0, width)
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points.bottomLeft = points.topLeft.shift(-90, length)
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points.bottomRight = points.topRight.shift(-90, length)
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/\*
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- Shape the straps
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\*/
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points.edgeLeft = new Point(points.topLeft.x, points.left.y)
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points.edgeRight = new Point(points.topRight.x, points.right.y)
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points.edgeTop = new Point(0, points.topLeft.y)
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points.edgeLeftCp = points.edgeLeft.shiftFractionTowards(points.topLeft, 0.5)
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points.edgeRightCp = points.edgeLeftCp.flipX()
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points.edgeTopLeftCp = points.edgeTop.shiftFractionTowards(
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points.topLeft,
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0.5
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)
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points.edgeTopRightCp = points.edgeTopLeftCp.flipX()
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// highlight-start
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// Round the straps
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const strap = points.edgeTop.dy(points.top)
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points.tipRight = points.edgeTop.translate(strap / 2, strap / 2)
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points.tipRightTop = new Point(points.tipRight.x, points.edgeTop.y)
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points.tipRightBottom = new Point(points.tipRight.x, points.top.y)
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macro("round", {
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id: "tipRightTop",
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from: points.edgeTop,
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to: points.tipRight,
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via: points.tipRightTop,
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hide: false
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})
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macro("round", {
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id: "tipRightBottom",
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from: points.tipRight,
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to: points.top,
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via: points.tipRightBottom,
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hide: false
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})
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// highlight-end
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/*
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- Now, adapt our `rect` path so it's no longer a rectangle:
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\*/
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paths.rect = new Path()
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.move(points.edgeTop)
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.curve(points.edgeTopLeftCp, points.edgeLeftCp, points.edgeLeft)
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.line(points.bottomLeft)
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.line(points.bottomRight)
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.line(points.edgeRight)
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.curve(points.edgeRightCp, points.edgeTopRightCp, points.edgeTop)
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.close()
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return part
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}
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```
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</Example>
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Notice that we always draw our path at the end after we've manipulated our points.
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```
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