feat: Add various content types to docusaurus (#7231)

This brings blog posts, showcase posts, and newsletter editions into the Docusaurus site.

It also adds support for using TailwindCSS inside a container. So this will probably end up being the new freesewing.org site in v4.

sites/dev/docs/tutorials/pattern-design/part3/complete/readme.mdx

@@ -1,24 +1,24 @@
 ---
 title: Dealing with laser cutters
-order: 25
+sidebar_position: 25
 ---
 
 Laser cutters is merely an example of a situation where your user wants not the
 complete detailed pattern with all annotations, but just the outlines.
 Essentially what we had at the end of part 2 of this tutorial.
 
-Since then, we've added a bunch of embellishments, and perhaps the user does 
+Since then, we've added a bunch of embellishments, and perhaps the user does
 not want those.
 
-Well, good news: there is a setting for that too. That setting is `complete`, 
+Well, good news: there is a setting for that too. That setting is `complete`,
 and more annotations will automatically take it into account.
 
-For example, if you put a logo or title on the pattern, it will check the 
+For example, if you put a logo or title on the pattern, it will check the
 `complete` setting and if it is `false` it will do nothing.
-When we say we're going to *complete* our pattern, we mean we're going to add
+When we say we're going to _complete_ our pattern, we mean we're going to add
 things like a title and a scalebox and so on.
 
-So while in most scenarios you don't have to worry about `complete`, you 
+So while in most scenarios you don't have to worry about `complete`, you
 should keep it in mind when you are adding text or paths to the design
 that should not be shown on a non-complete pattern.
 
@@ -46,15 +46,15 @@ function draftBib({
   part,
 }) {
 
-  /*
-    * Construct the neck opening
-    */
-  const target = (measurements.head * options.neckRatio) / 4
-  let tweak = 1
-  let delta
-  do {
-    points.right = new Point((tweak * measurements.head) / 10, 0)
-    points.bottom = new Point(0, (tweak * measurements.head) / 12)
+/\*
+_ Construct the neck opening
+_/
+const target = (measurements.head _ options.neckRatio) / 4
+let tweak = 1
+let delta
+do {
+points.right = new Point((tweak _ measurements.head) / 10, 0)
+points.bottom = new Point(0, (tweak \* measurements.head) / 12)
 
     points.rightCp1 = points.right.shift(90, points.bottom.dy(points.right) / 2)
     points.bottomCp2 = points.bottom.shift(0, points.bottom.dx(points.right) / 2)
@@ -66,229 +66,229 @@ function draftBib({
     delta = paths.neck.length() - target
     if (delta > 0) tweak = tweak * 0.99
     else tweak = tweak * 1.02
-  } while (Math.abs(delta) > 1)
 
-  points.rightCp2 = points.rightCp1.flipY()
-  points.bottomCp1 = points.bottomCp2.flipX()
+} while (Math.abs(delta) > 1)
 
-  points.left = points.right.flipX()
-  points.leftCp1 = points.rightCp2.flipX()
-  points.leftCp2 = points.rightCp1.flipX()
+points.rightCp2 = points.rightCp1.flipY()
+points.bottomCp1 = points.bottomCp2.flipX()
 
-  points.top = points.bottom.flipY()
-  points.topCp1 = points.bottomCp2.flipY()
-  points.topCp2 = points.bottomCp1.flipY()
+points.left = points.right.flipX()
+points.leftCp1 = points.rightCp2.flipX()
+points.leftCp2 = points.rightCp1.flipX()
 
-  /*
-    * Construct the outline
-    */
-  let width = measurements.head * options.widthRatio
-  let length = measurements.head * options.lengthRatio
+points.top = points.bottom.flipY()
+points.topCp1 = points.bottomCp2.flipY()
+points.topCp2 = points.bottomCp1.flipY()
 
-  points.topLeft = new Point(width / -2, points.top.y - (width / 2 - points.right.x))
-  points.topRight = points.topLeft.shift(0, width)
-  points.bottomLeft = points.topLeft.shift(-90, length)
-  points.bottomRight = points.topRight.shift(-90, length)
+/\*
+_ Construct the outline
+_/
+let width = measurements.head _ options.widthRatio
+let length = measurements.head _ options.lengthRatio
 
-  points.edgeLeft = new Point(points.topLeft.x, points.left.y)
-  points.edgeRight = new Point(points.topRight.x, points.right.y)
-  points.edgeTop = new Point(0, points.topLeft.y)
+points.topLeft = new Point(width / -2, points.top.y - (width / 2 - points.right.x))
+points.topRight = points.topLeft.shift(0, width)
+points.bottomLeft = points.topLeft.shift(-90, length)
+points.bottomRight = points.topRight.shift(-90, length)
 
-  points.edgeLeftCp = points.edgeLeft.shiftFractionTowards(points.topLeft, 0.5)
-  points.edgeRightCp = points.edgeLeftCp.flipX()
-  points.edgeTopLeftCp = points.edgeTop.shiftFractionTowards(points.topLeft, 0.5)
-  points.edgeTopRightCp = points.edgeTopLeftCp.flipX()
+points.edgeLeft = new Point(points.topLeft.x, points.left.y)
+points.edgeRight = new Point(points.topRight.x, points.right.y)
+points.edgeTop = new Point(0, points.topLeft.y)
 
-  /*
-    * Round the end of the straps
-    */
-  let strap = points.edgeTop.dy(points.top)
+points.edgeLeftCp = points.edgeLeft.shiftFractionTowards(points.topLeft, 0.5)
+points.edgeRightCp = points.edgeLeftCp.flipX()
+points.edgeTopLeftCp = points.edgeTop.shiftFractionTowards(points.topLeft, 0.5)
+points.edgeTopRightCp = points.edgeTopLeftCp.flipX()
 
-  points.tipRight = points.edgeTop.translate(strap / 2, strap / 2)
-  points.tipRightTop = new Point(points.tipRight.x, points.edgeTop.y)
-  points.tipRightBottom = new Point(points.tipRight.x, points.top.y)
+/\*
+_ Round the end of the straps
+_/
+let strap = points.edgeTop.dy(points.top)
 
-  /*
-    * Macros will return the auto-generated IDs
-    */
-  const ids1 = {
-    tipRightTop: macro('round', {
-      id: 'tipRightTop',
-      from: points.edgeTop,
-      to: points.tipRight,
-      via: points.tipRightTop,
-    }),
-    tipRightBottom: macro('round', {
-      id: 'tipRightBottom',
-      from: points.tipRight,
-      to: points.top,
-      via: points.tipRightBottom,
-    }),
-  }
+points.tipRight = points.edgeTop.translate(strap / 2, strap / 2)
+points.tipRightTop = new Point(points.tipRight.x, points.edgeTop.y)
+points.tipRightBottom = new Point(points.tipRight.x, points.top.y)
 
-  /*
-    * Create points from them with easy names
-    */
-  for (const side in ids1) {
-    for (const id of ['start', 'cp1', 'cp2', 'end']) {
-      points[`${side}${utils.capitalize(id)}`] = points[ids1[side].points[id]].copy()
-    }
-  }
-
-  /*
-    * Rotate straps so they don't overlap
-    */
-  let rotateThese = [
-    'edgeTopLeftCp',
-    'edgeTop',
-    'tipRight',
-    'tipRightTop',
-    'tipRightTopStart',
-    'tipRightTopCp1',
-    'tipRightTopCp2',
-    'tipRightTopEnd',
-    'tipRightBottomStart',
-    'tipRightBottomCp1',
-    'tipRightBottomCp2',
-    'tipRightBottomEnd',
-    'tipRightBottom',
-    'top',
-    'topCp2',
-  ]
-
-  while (points.tipRightBottomStart.x > -1) {
-    for (let p of rotateThese) points[p] = points[p].rotate(1, points.edgeLeft)
-  }
-
-  /*
-    * Add points to anchor snaps on
-    */
-  points.snapLeft = points.top.shiftFractionTowards(points.edgeTop, 0.5)
-
-  /*
-    * Mirror points to the other side
-    */
-  points.edgeTopRightCp = points.edgeTopLeftCp.flipX()
-  points.topCp1 = points.topCp2.flipX()
-  points.tipLeftTopStart = points.tipRightTopStart.flipX()
-  points.tipLeftTopCp1 = points.tipRightTopCp1.flipX()
-  points.tipLeftTopCp2 = points.tipRightTopCp2.flipX()
-  points.tipLeftTopEnd = points.tipRightTopEnd.flipX()
-  points.tipLeftBottomStart = points.tipRightBottomStart.flipX()
-  points.tipLeftBottomCp1 = points.tipRightBottomCp1.flipX()
-  points.tipLeftBottomCp2 = points.tipRightBottomCp2.flipX()
-  points.tipLeftBottomEnd = points.tipRightBottomEnd.flipX()
-  points.snapRight = points.snapLeft.flipX()
-
-  /*
-    * Round the bottom of the bib
-    * Radius is fixed, but you could use an option for it)
-    *
-    * Macros will return the auto-generated IDs
-    */
-  const ids2 = {
-    bottomLeft: macro('round', {
-      id: 'bottomLeft',
-      from: points.topLeft,
-      to: points.bottomRight,
-      via: points.bottomLeft,
-      radius: points.bottomRight.x / 4,
-    }),
-    bottomRight: macro('round', {
-      id: 'bottomRight',
-      from: points.bottomLeft,
-      to: points.topRight,
-      via: points.bottomRight,
-      radius: points.bottomRight.x / 4,
-    }),
-  }
-  /*
-    * Create points from them with easy names
-    */
-  for (const side in ids2) {
-    for (const id of ['start', 'cp1', 'cp2', 'end']) {
-      points[`${side}${utils.capitalize(id)}`] = points[ids2[side].points[id]].copy()
-    }
-  }
-
-  /*
-    * Construct the path
-    */
-  paths.seam = new Path()
-    .move(points.edgeLeft)
-    .line(points.bottomLeftStart)
-    .curve(points.bottomLeftCp1, points.bottomLeftCp2, points.bottomLeftEnd)
-    .line(points.bottomRightStart)
-    .curve(points.bottomRightCp1, points.bottomRightCp2, points.bottomRightEnd)
-    .line(points.edgeRight)
-    .curve(points.edgeRightCp, points.edgeTopRightCp, points.tipLeftTopStart)
-    .curve(points.tipLeftTopCp1, points.tipLeftTopCp2, points.tipLeftTopEnd)
-    .curve(points.tipLeftBottomCp1, points.tipLeftBottomCp2, points.tipLeftBottomEnd)
-    .curve(points.topCp1, points.rightCp2, points.right)
-    .curve(points.rightCp1, points.bottomCp2, points.bottom)
-    .curve(points.bottomCp1, points.leftCp2, points.left)
-    .curve(points.leftCp1, points.topCp2, points.tipRightBottomEnd)
-    .curve(points.tipRightBottomCp2, points.tipRightBottomCp1, points.tipRightBottomStart)
-    .curve(points.tipRightTopCp2, points.tipRightTopCp1, points.tipRightTopStart)
-    .curve(points.edgeTopLeftCp, points.edgeLeftCp, points.edgeLeft)
-    .close()
-    .attr('class', 'fabric')
-
-  /*
-    *
-    *  Annotations
-    *
-    */
-
-  /*
-    * Cut list
-    */
-  store.cutlist.addCut({ cut: 1, from: 'fabric' })
-
-  /*
-    * Add the snaps
-    */
-  snippets.snapStud = new Snippet('snap-stud', points.snapLeft)
-  snippets.snapSocket = new Snippet('snap-socket', points.snapRight).attr('opacity', 0.5)
-
-  // highlight-start
-  /*
-    * Add the bias tape
-    */
-  if (complete)
-    paths.bias = paths.seam
-      .offset(-5)
-      .addClass('note dashed')
-      .addText('tutorial:finishWithBiasTape', 'center fill-note')
-  // highlight-end
-
-  /*
-    * Add the title
-    */
-  points.title = points.bottom.shift(-90, 45)
-  macro('title', {
-    at: points.title,
-    nr: 1,
-    title: 'bib',
-    align: 'center',
-    scale: 0.8,
-  })
-
-  /*
-    * Add the scalebox
-    */
-  points.scalebox = points.title.shift(-90, 65)
-  macro('scalebox', { at: points.scalebox })
-
-  /*
-    * Add the logo
-    */
-  points.logo = new Point(0, 0)
-  snippets.logo = new Snippet('logo', points.logo)
-
-  return part
+/\*
+_ Macros will return the auto-generated IDs
+_/
+const ids1 = {
+tipRightTop: macro('round', {
+id: 'tipRightTop',
+from: points.edgeTop,
+to: points.tipRight,
+via: points.tipRightTop,
+}),
+tipRightBottom: macro('round', {
+id: 'tipRightBottom',
+from: points.tipRight,
+to: points.top,
+via: points.tipRightBottom,
+}),
 }
-```
+
+/\*
+_ Create points from them with easy names
+_/
+for (const side in ids1) {
+for (const id of ['start', 'cp1', 'cp2', 'end']) {
+points[`${side}${utils.capitalize(id)}`] = points[ids1[side].points[id]].copy()
+}
+}
+
+/\*
+_ Rotate straps so they don't overlap
+_/
+let rotateThese = [
+'edgeTopLeftCp',
+'edgeTop',
+'tipRight',
+'tipRightTop',
+'tipRightTopStart',
+'tipRightTopCp1',
+'tipRightTopCp2',
+'tipRightTopEnd',
+'tipRightBottomStart',
+'tipRightBottomCp1',
+'tipRightBottomCp2',
+'tipRightBottomEnd',
+'tipRightBottom',
+'top',
+'topCp2',
+]
+
+while (points.tipRightBottomStart.x > -1) {
+for (let p of rotateThese) points[p] = points[p].rotate(1, points.edgeLeft)
+}
+
+/\*
+_ Add points to anchor snaps on
+_/
+points.snapLeft = points.top.shiftFractionTowards(points.edgeTop, 0.5)
+
+/\*
+_ Mirror points to the other side
+_/
+points.edgeTopRightCp = points.edgeTopLeftCp.flipX()
+points.topCp1 = points.topCp2.flipX()
+points.tipLeftTopStart = points.tipRightTopStart.flipX()
+points.tipLeftTopCp1 = points.tipRightTopCp1.flipX()
+points.tipLeftTopCp2 = points.tipRightTopCp2.flipX()
+points.tipLeftTopEnd = points.tipRightTopEnd.flipX()
+points.tipLeftBottomStart = points.tipRightBottomStart.flipX()
+points.tipLeftBottomCp1 = points.tipRightBottomCp1.flipX()
+points.tipLeftBottomCp2 = points.tipRightBottomCp2.flipX()
+points.tipLeftBottomEnd = points.tipRightBottomEnd.flipX()
+points.snapRight = points.snapLeft.flipX()
+
+/\*
+_ Round the bottom of the bib
+_ Radius is fixed, but you could use an option for it) \*
+_ Macros will return the auto-generated IDs
+_/
+const ids2 = {
+bottomLeft: macro('round', {
+id: 'bottomLeft',
+from: points.topLeft,
+to: points.bottomRight,
+via: points.bottomLeft,
+radius: points.bottomRight.x / 4,
+}),
+bottomRight: macro('round', {
+id: 'bottomRight',
+from: points.bottomLeft,
+to: points.topRight,
+via: points.bottomRight,
+radius: points.bottomRight.x / 4,
+}),
+}
+/\*
+_ Create points from them with easy names
+_/
+for (const side in ids2) {
+for (const id of ['start', 'cp1', 'cp2', 'end']) {
+points[`${side}${utils.capitalize(id)}`] = points[ids2[side].points[id]].copy()
+}
+}
+
+/\*
+_ Construct the path
+_/
+paths.seam = new Path()
+.move(points.edgeLeft)
+.line(points.bottomLeftStart)
+.curve(points.bottomLeftCp1, points.bottomLeftCp2, points.bottomLeftEnd)
+.line(points.bottomRightStart)
+.curve(points.bottomRightCp1, points.bottomRightCp2, points.bottomRightEnd)
+.line(points.edgeRight)
+.curve(points.edgeRightCp, points.edgeTopRightCp, points.tipLeftTopStart)
+.curve(points.tipLeftTopCp1, points.tipLeftTopCp2, points.tipLeftTopEnd)
+.curve(points.tipLeftBottomCp1, points.tipLeftBottomCp2, points.tipLeftBottomEnd)
+.curve(points.topCp1, points.rightCp2, points.right)
+.curve(points.rightCp1, points.bottomCp2, points.bottom)
+.curve(points.bottomCp1, points.leftCp2, points.left)
+.curve(points.leftCp1, points.topCp2, points.tipRightBottomEnd)
+.curve(points.tipRightBottomCp2, points.tipRightBottomCp1, points.tipRightBottomStart)
+.curve(points.tipRightTopCp2, points.tipRightTopCp1, points.tipRightTopStart)
+.curve(points.edgeTopLeftCp, points.edgeLeftCp, points.edgeLeft)
+.close()
+.attr('class', 'fabric')
+
+/\* \*
+_ Annotations
+_
+\*/
+
+/\*
+_ Cut list
+_/
+store.cutlist.addCut({ cut: 1, from: 'fabric' })
+
+/\*
+_ Add the snaps
+_/
+snippets.snapStud = new Snippet('snap-stud', points.snapLeft)
+snippets.snapSocket = new Snippet('snap-socket', points.snapRight).attr('opacity', 0.5)
+
+// highlight-start
+/\*
+_ Add the bias tape
+_/
+if (complete)
+paths.bias = paths.seam
+.offset(-5)
+.addClass('note dashed')
+.addText('tutorial:finishWithBiasTape', 'center fill-note')
+// highlight-end
+
+/\*
+_ Add the title
+_/
+points.title = points.bottom.shift(-90, 45)
+macro('title', {
+at: points.title,
+nr: 1,
+title: 'bib',
+align: 'center',
+scale: 0.8,
+})
+
+/\*
+_ Add the scalebox
+_/
+points.scalebox = points.title.shift(-90, 65)
+macro('scalebox', { at: points.scalebox })
+
+/\*
+_ Add the logo
+_/
+points.logo = new Point(0, 0)
+snippets.logo = new Snippet('logo', points.logo)
+
+return part
+}
+
+````
 </Example>
 
 
@@ -556,6 +556,6 @@ function draftBib({
 
   return part
 }
-```
-</Example>
+````
 
+</Example>