Fix nasty auto-save bug

src/documentation/cyclical_time.ts

@@ -16,17 +16,17 @@ Time as a cycle. A cycle can be quite long (a few bars) or very short (a few pul
   - <ic>offset</ic>: offset (in beats) to apply. An offset of <ic>0.5</ic> will return true against the beat.
 	
 ${makeExample(
-    "Using different mod values",
-    `
+  "Using different mod values",
+  `
 // This code is alternating between different mod values
 beat([1,1/2,1/4,1/8].beat(2)) :: sound('hat').n(0).out()
 `,
-    true
-  )}
+  true
+)}
 
 ${makeExample(
-    "Some sort of ringtone",
-    `
+  "Some sort of ringtone",
+  `
 // Blip generator :)
 let blip = (freq) => {
   return sound('wt_piano')
@@ -41,16 +41,16 @@ beat(1/3) :: blip(400).pan(r(0,1)).out();
 flip(3) :: beat(1/6) :: blip(800).pan(r(0,1)).out();
 beat([1,0.75].beat(2)) :: blip([50, 100].beat(2)).pan(r(0,1)).out();
 `,
-    false
-  )}
+  false
+)}
 
 ${makeExample(
-    "Beat can match multiple values",
-    `
+  "Beat can match multiple values",
+  `
 beat([.5, 1.25])::sound('hat').out()
 `,
-    false
-  )}
+  false
+)}
 
 - <ic>pulse(n: number | number[] = 1, offset: number = 1)</ic>: return true every _n_ pulses. A pulse is the tiniest possible rhythmic value.
   - <ic>number</ic>: if <ic>number = 1</ic>, the function will return <ic>true</ic> every pulse. Lists can be used too.
@@ -58,21 +58,21 @@ beat([.5, 1.25])::sound('hat').out()
 
 
 ${makeExample(
-    "Intriguing rhythms",
-    `
+  "Intriguing rhythms",
+  `
 pulse([24, 16])::sound('hat').ad(0, .02).out()
 pulse([48, [36,24].dur(4, 1)])::sound('fhardkick').ad(0, .1).out()
 `,
-    true
-  )}
+  true
+)}
 ${makeExample(
-    "pulse is the OG rhythmic function in Topos",
-    `
+  "pulse is the OG rhythmic function in Topos",
+  `
 pulse([48, 24, 16].beat(4)) :: sound('linnhats').out()
 beat(1)::snd(['bd', '808oh'].beat(1)).out()
 `,
-    false
-  )}
+  false
+)}
 
 
 - <ic>bar(n: number | number[] = 1, offset: number = 1)</ic>: return true every _n_ bars.
@@ -80,37 +80,37 @@ beat(1)::snd(['bd', '808oh'].beat(1)).out()
   - <ic>offset</ic>: offset (in bars) to apply.
 
 ${makeExample(
-    "Four beats per bar: proof",
-    `
+  "Four beats per bar: proof",
+  `
 bar(1)::sound('kick').out()
 beat(1)::sound('hat').speed(2).out()
 `,
-    true
-  )}
+  true
+)}
 
 
 ${makeExample(
-    "Offsetting beat and bar",
-    `
+  "Offsetting beat and bar",
+  `
 bar(1)::sound('kick').out()
 beat(1)::sound('hat').speed(2).out()
 beat(1, 0.5)::sound('hat').speed(4).out()
 bar(1, 0.5)::sound('sn').out()
 `,
-    false
-  )}
+  false
+)}
 
 - <ic>onbeat(...n: number[])</ic>: The <ic>onbeat</ic> function allows you to lock on to a specific beat from the clock to execute code. It can accept multiple arguments. It's usage is very straightforward and not hard to understand. You can pass either integers or floating point numbers. By default, topos is using a <ic>4/4</ic> bar meaning that you can target any of these beats (or in-between) with this function.
 
 ${makeExample(
-    "Some simple yet detailed rhythms",
-    `
+  "Some simple yet detailed rhythms",
+  `
 onbeat(1,2,3,4)::snd('kick').out() // Bassdrum on each beat
 onbeat(2,4)::snd('snare').n([8,4].beat(4)).out() // Snare on acccentuated beats
 onbeat(1.5,2.5,3.5, 3.75)::snd('hat').gain(r(0.9,1.1)).out() // Cool high-hats
 `,
-    true
-  )}
+  true
+)}
 
 ## Cyclical rhythm generators
 	
@@ -119,8 +119,8 @@ We included a bunch of popular rhythm generators in Topos such as the euclidian
 
 - <ic>rhythm(divisor: number, pulses: number, length: number, rotate: number): boolean</ic>: generates <ic>true</ic> or <ic>false</ic> values from an euclidian rhythm sequence. This is another version of <ic>euclid</ic> that does not take an iterator.
 ${makeExample(
-    "rhythm is a beginner friendly rhythmic function!",
-    `
+  "rhythm is a beginner friendly rhythmic function!",
+  `
 rhythm(.5, 4, 8)::sound('sine')
   .fmi(2)
   .room(0.5).size(8)
@@ -129,38 +129,38 @@ rhythm(.5, 7, 8)::sound('sine')
   .freq(125).ad(0, .2).out()
 rhythm(.5, 3, 8)::sound('sine').freq(500).ad(0, .5).out()
 `,
-    true
-  )}
+  true
+)}
 
 
 - <ic>oneuclid(pulses: number, length: number, rotate: number): boolean</ic>: generates <ic>true</ic> or <ic>false</ic> values from an euclidian rhythm sequence. This is another version of <ic>euclid</ic> that does not take an iterator.
 ${makeExample(
-    "Using oneuclid to create a rhythm without iterators",
-    `
+  "Using oneuclid to create a rhythm without iterators",
+  `
   // Change speed using bpm
   bpm(250)
   oneuclid(5, 9) :: snd('kick').out()
   oneuclid(7,16) :: snd('east').end(0.5).n(irand(3,5)).out()
 `,
-    true
-  )}
+  true
+)}
 
 - <ic>bin(iterator: number, n: number): boolean</ic>: a binary rhythm generator. It transforms the given number into its binary representation (_e.g_ <ic>34</ic> becomes <ic>100010</ic>). It then returns a boolean value based on the iterator in order to generate a rhythm.
 - <ic>binrhythm(divisor: number, n: number): boolean: boolean</ic>: iterator-less version of the  binary rhythm generator.
 	
 ${makeExample(
-    "Change the integers for a surprise rhythm!",
-    `
+  "Change the integers for a surprise rhythm!",
+  `
 bpm(135);
 beat(.5) && bin($(1), 12) && snd('kick').n([4,9].beat(1.5)).out()
 beat(.5) && bin($(2), 34) && snd('snare').n([3,5].beat(1)).out()
 `,
-    true
-  )}
+  true
+)}
 
 ${makeExample(
-    "binrhythm for fast cool binary rhythms!",
-    `
+  "binrhythm for fast cool binary rhythms!",
+  `
 let a = 0;
 a = beat(4) ? irand(1,20) : a;
 binrhythm(.5, 6) && snd(['kick', 'snare'].beat(0.5)).n(11).out()
@@ -169,34 +169,34 @@ binrhythm([.5, .25].beat(1), 30) && snd('wt_granular').n(a)
   .adsr(0, r(.1, .4), 0, 0).freq([50, 60, 72].beat(4))
   .room(1).size(1).out()
 `,
-    true
-  )}
+  true
+)}
 
 ${makeExample(
-    "Submarine jungle music",
-    `
+  "Submarine jungle music",
+  `
 bpm(145);
 beat(.5) && bin($(1), 911) && snd('ST69').n([2,3,4].beat())
   .delay(0.125).delayt(0.25).end(0.25).speed(1/3)
   .room(1).size(1).out()
 beat(.5) && sound('amencutup').n(irand(2,7)).shape(0.3).out() 
 `,
-    false
-  )}
+  false
+)}
 	
 If you don't find it spicy enough, you can add some more probabilities to your rhythms by taking advantage of the probability functions. See the functions documentation page to learn more about them. 
 	
 ${makeExample(
-    "Probablistic drums in one line!",
-    `
+  "Probablistic drums in one line!",
+  `
 prob(60)::beat(.5) && euclid($(1), 5, 8) && snd('kick').out()
 prob(60)::beat(.5) && euclid($(2), 3, 8) && snd('mash')
   .n([1,2,3].beat(1))
   .pan(usine(1/4)).out()
 prob(80)::beat(.5) && sound(['hh', 'hat'].pick()).out()
 `,
-    true
-  )}
+  true
+)}