Improve markdown formatting with code quotes

Author: AnonymousUser98

presets/Presets.md

@@ -1,205 +1,206 @@
 ## Common Waves
 
-**Sine Wave:** Math.sin(t\*vf)\*va
+**Sine Wave:** `Math.sin(t\*vf)\*va`
 
-**Square Wave:** Math.sign(Math.sin(t\*vf))\*va
+**Square Wave:** `Math.sign(Math.sin(t\*vf))\*va`
 
-**Triangle Wave:** (2/Math.PI)\*Math.asin(Math.sin(2\*t\*vf))\*va
+**Triangle Wave:** `(2/Math.PI)\*Math.asin(Math.sin(2\*t\*vf))\*va`
 
-**Triangle Wave (GGB):** (2/Pi)\*asin(sin(2\*t\*vf))\*va
+**Triangle Wave (GGB):** `(2/Pi)\*asin(sin(2\*t\*vf))\*va`
 
 
 
 ## Hybrid Wave
 
-**GGB:** (sin(t vf)\*((2)/(π)) sin^(-1)(sin(2 t vf))+sgn(sin(t vf)))\*((1.84)/(π)) va
+**GGB:** `(sin(t vf)\*((2)/(π)) sin^(-1)(sin(2 t vf))+sgn(sin(t vf)))\*((1.84)/(π)) va`
 
-**JS:** ((Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))+Math.sign(Math.sin(t\*vf)))\*((1.84)/(Math.PI)))\*va
+**JS:** `((Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))+Math.sign(Math.sin(t\*vf)))\*((1.84)/(Math.PI)))\*va`
 
 
 
 ## Modified Hybrid Wave
 
-**GGB:** ((sin(t vf)\*((2)/(π)) sin^(-1)(sin(2 t vf))+sgn(sin(t vf)))\*((0.54)/(π))+(sin(t vf)\*((2)/(π)) sin^(-1)((sin(2 t vf))^(vp))))\*va
+**GGB:** `((sin(t vf)\*((2)/(π)) sin^(-1)(sin(2 t vf))+sgn(sin(t vf)))\*((0.54)/(π))+(sin(t vf)\*((2)/(π)) sin^(-1)((sin(2 t vf))^(vp))))\*va`
 
-**JS:** ((Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))+Math.sign(Math.sin(t\*vf)))\*((0.54)/(Math.PI))+(Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin((Math.sin(2\*t\*vf))\*\*(vp))))\*va
+**JS:** `((Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))+Math.sign(Math.sin(t\*vf)))\*((0.54)/(Math.PI))+(Math.sin(t\*vf)\*((2)/(Math.PI))\*Math.asin((Math.sin(2\*t\*vf))\*\*(vp))))\*va`
 
 *Parameter should be an integer; Polarity changes base pattern*
 
 
 
 ## Mountain Wave
 
-**GGB**: ((2)/(π)) sin^(-1)(sin(t\*2 vf)) va+((2)/(π)) tan(sin(t vf)) va vp
+**GGB**: `((2)/(π)) sin^(-1)(sin(t\*2 vf)) va+((2)/(π)) tan(sin(t vf)) va vp`
 
-**JS**: (2/Math.PI)\*Math.asin(Math.sin(2\*t\*vf))\*va + (2/Math.PI)\*Math.tan(Math.sin(t\*vf))\*va\*vp
+**JS**: `(2/Math.PI)\*Math.asin(Math.sin(2\*t\*vf))\*va + (2/Math.PI)\*Math.tan(Math.sin(t\*vf))\*va\*vp`
 
 
 
 ## Cosine Sine Wave
 
-**GGB:** sin(cos(t vf) vp) va
+**GGB:** `sin(cos(t vf) vp) va`
 
-**JS:** Math.sin(Math.cos(t\*vf)\*vp)\*va
+**JS:** `Math.sin(Math.cos(t\*vf)\*vp)\*va`
 
 
 
 ## Spike Wave
 
-**GGB:** (sin(t vf))^(vp) va
+**GGB:** `(sin(t vf))^(vp) va`
 
-**JS**: (Math.sin(t\*vf)\*\*vp)\*va
+**JS**: `(Math.sin(t\*vf)\*\*vp)\*va`
 
 *Parameter (vp) should be an odd integer*
 
 
 
 ## Costan Wave
 
-**GGB:** cos(tan(t vf) vp) va
+**GGB:** `cos(tan(t vf) vp) va`
 
-**JS:** Math.cos(Math.tan(t\*vf)\*vp)\*va
+**JS:** `Math.cos(Math.tan(t\*vf)\*vp)\*va`
 
 
 
 ## Sintan Wave
 
-**GGB:** sin(tan(t vf)) va
+**GGB:** `sin(tan(t vf)) va`
 
-**JS:** Math.sin(Math.tan(t\*vf))\*va
+**JS:** `Math.sin(Math.tan(t\*vf))\*va`
 
 
 
 ## Pulse Wave
 
-**GGB:** sin(cos(t vf) (5+vp-1)) sin^(7)(t vf) va
+**GGB:** `sin(cos(t vf) (5+vp-1)) sin^(7)(t vf) va`
 
-**JS**: ((Math.sin(Math.cos(t\*vf)\*(5+vp-1)))\*((Math.sin(t\*vf)\*\*7)))\*va
+**JS**: `((Math.sin(Math.cos(t\*vf)\*(5+vp-1)))\*((Math.sin(t\*vf)\*\*7)))\*va`
 
 
 
 ## Noisy Sine Wave
 
-**GGB:** (((2)/(π)) sin^(-1)(sin(t vf) cos(tan(t vf)))+sin(t vf))\*((va)/(2))
+**GGB:** `(((2)/(π)) sin^(-1)(sin(t vf) cos(tan(t vf)))+sin(t vf))\*((va)/(2))`
 
-**JS:** (((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf)\*Math.cos(Math.tan(t\*vf)))+Math.sin(t\*vf))\*((va)/(2))
+**JS:** `(((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf)\*Math.cos(Math.tan(t\*vf)))+Math.sin(t\*vf))\*((va)/(2))`
 
 
 
 ## Batman Wave
 
-**GGB:** ((sin^(-1)(sin(t vf vp)))/(tan(t vf))) va
+**GGB:** `((sin^(-1)(sin(t vf vp)))/(tan(t vf))) va`
 
-**JS:** ((Math.asin(Math.sin(t\*vf\*vp)))/(Math.tan(t\*vf)))\*va
+**JS:** `((Math.asin(Math.sin(t\*vf\*vp)))/(Math.tan(t\*vf)))\*va`
 
 *Parameter (vp) should be an odd integer other than 1*
 
 
 
 ## Parametric Trig Wave
 
-**GGB:** sinh^(-1)(tan(cos(t vf+cos(t vp vf)))) va
+**GGB:** `sinh^(-1)(tan(cos(t vf+cos(t vp vf)))) va`
 
-**JS:** Math.asinh(Math.tan(Math.cos(t\*vf+Math.cos(t\*vp\*vf))))\*va
+**JS:** `Math.asinh(Math.tan(Math.cos(t\*vf+Math.cos(t\*vp\*vf))))\*va`
 
 
 
 ## Insect Wave
 
-**GGB:** sin(tanh^(-1)(sin(t vf))) va
+**GGB:** `sin(tanh^(-1)(sin(t vf))) va`
 
-**JS:** Math.sin(Math.atanh(Math.sin(t\*vf)))\*va
+**JS:** `Math.sin(Math.atanh(Math.sin(t\*vf)))\*va`
 
 *It makes a buzzing sound, like an insect*
 
 
 
 ## Needle Wave
 
-**GGB:** ((sin(tanh^(-1)(sin(t \* vf))) \* va sinh^(-1)(tan(cos(t \* vf + cos(t \* vf)))) \* va)/(sin(cos(t \* vf)) \* va))
+**GGB:** `((sin(tanh^(-1)(sin(t \* vf))) \* va sinh^(-1)(tan(cos(t \* vf + cos(t \* vf)))) \* va)/(sin(cos(t \* vf)) \* va))`
 
-**JS:** ((Math.sin(Math.atanh(Math.sin(t\*vf)))\*va\*Math.asinh(Math.tan(Math.cos(t\*vf+Math.cos(t\*vf))))\*va)/(Math.sin(Math.cos(t\*vf))\*va))
+**JS:** `((Math.sin(Math.atanh(Math.sin(t\*vf)))\*va\*Math.asinh(Math.tan(Math.cos(t\*vf+Math.cos(t\*vf))))\*va)/(Math.sin(Math.cos(t\*vf))\*va))`
 
 
 
 ## Nested Sine Wave
 
-**GGB:** sin(t vf+sin(t vf vp)) va
+**GGB:** `sin(t vf+sin(t vf vp)) va`
 
-**JS:** Math.sin((t\*vf)+Math.sin(t\*vf\*vp))\*va
+**JS:** `Math.sin((t\*vf)+Math.sin(t\*vf\*vp))\*va`
 
 *Works well if parameter is an even integer*
 
 
 
 ## Nested Cosine Sine Wave
 
-**GGB:** sin(cos(t \* vf) \* vp) \* va sin(t \* vf + sin(t \* vf \* vp)) \* va
+**GGB:** `sin(cos(t \* vf) \* vp) \* va sin(t \* vf + sin(t \* vf \* vp)) \* va`
 
-**JS:** (Math.sin(Math.cos(t\*vf)\*vp)\*va)\*(Math.sin((t\*vf)+Math.sin(t\*vf\*vp))\*va)
+**JS:** `(Math.sin(Math.cos(t\*vf)\*vp)\*va)\*(Math.sin((t\*vf)+Math.sin(t\*vf\*vp))\*va)`
 
 *Works well if parameter is an integer*
 
 
 
 ## Fin Wave
 
-**GGB:** ((2)/(π)) sin^(-1)(sin(t vf))\*((2)/(π)) cos^(-1)(cos(t vf)) va
+**GGB:** `((2)/(π)) sin^(-1)(sin(t vf))\*((2)/(π)) cos^(-1)(cos(t vf)) va`
 
-**JS:** (((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf)))\*(((2)/(Math.PI))\*Math.acos(Math.cos(t\*vf)))\*va
+**JS:** `(((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf)))\*(((2)/(Math.PI))\*Math.acos(Math.cos(t\*vf)))\*va`
 
 
 
 ## Trisine Wave
 
-**GGB:** sin^(-1)(sin(2 t vf) sin(t vf))+sin^(-1)(sin(2 t vf)) sin^(-1)(sin(t vf\*5)) va
+**GGB:** `sin^(-1)(sin(2 t vf) sin(t vf))+sin^(-1)(sin(2 t vf)) sin^(-1)(sin(t vf\*5)) va`
 
-**JS:** Math.asin(Math.sin(2\*t\*vf)\*Math.sin(t\*vf))+Math.asin(Math.sin(2\*t\*vf))\*Math.asin(Math.sin(t\*vf\*5))\*va
+**JS:** `Math.asin(Math.sin(2\*t\*vf)\*Math.sin(t\*vf))+Math.asin(Math.sin(2\*t\*vf))\*Math.asin(Math.sin(t\*vf\*5))\*va`
 
 
 
 ## Trisine Mountain Wave
 
-**GGB:** (sin^(-1)(sin(t vf+sin(t vf)))+sin^(-1)(cos(t vf-5))) va
+**GGB:** `(sin^(-1)(sin(t vf+sin(t vf)))+sin^(-1)(cos(t vf-5))) va`
 
-**JS:** (Math.asin(Math.sin((t\*vf)+Math.sin(t\*vf)))+Math.asin(Math.cos(t\*vf-5)))\*va
+**JS:** `(Math.asin(Math.sin((t\*vf)+Math.sin(t\*vf)))+Math.asin(Math.cos(t\*vf-5)))\*va`
 
 
 
 ## Lightning Wave
 
-**GGB:** (sin^(5)(t vf\*2)+sin(t vf)-sin^(-1)(sin(t vf\*2)) sin^(-1)(cos(t vf\*2))-sin(tan(t vf\*9))) va
+**GGB:** `(sin^(5)(t vf\*2)+sin(t vf)-sin^(-1)(sin(t vf\*2)) sin^(-1)(cos(t vf\*2))-sin(tan(t vf\*9))) va`
 
-**JS:** ((Math.sin(t\*vf\*2)\*\*5)+Math.sin(t\*vf)-Math.asin(Math.sin(t\*vf\*2))\*Math.asin(Math.cos(t\*vf\*2))-Math.sin(Math.tan(t\*vf\*9)))\*va
+**JS:** `((Math.sin(t\*vf\*2)\*\*5)+Math.sin(t\*vf)-Math.asin(Math.sin(t\*vf\*2))\*Math.asin(Math.cos(t\*vf\*2))-Math.sin(Math.tan(t\*vf\*9)))\*va`
 
 
 
 ## Drip Wave
 
-**GGB:** (((2)/(π)) sin^(-1)(sin(t vf))+sin^(19)(t vf)) va
+**GGB:** `(((2)/(π)) sin^(-1)(sin(t vf))+sin^(19)(t vf)) va`
 
-**JS:** (((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf))+(Math.sin(t\*vf))^19)\*va
+**JS:** `(((2)/(Math.PI))\*Math.asin(Math.sin(t\*vf))+(Math.sin(t\*vf))^19)\*va`
 
 
 
 ## Bird Wave
 
-**GGB:** ((2)/(π)) sin^(-1)(sin(2 t vf)) sin(t vf)\*1.4 va
+**GGB:** `((2)/(π)) sin^(-1)(sin(2 t vf)) sin(t vf)\*1.4 va`
 
-**JS:** (((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))\*Math.sin(t\*vf)\*1.4)\*va
+**JS:** `(((2)/(Math.PI))\*Math.asin(Math.sin(2\*t\*vf))\*Math.sin(t\*vf)\*1.4)\*va`
 
 
 
 ## M/W Wave
 
-**GGB:** sin(tan^(-1)(sin(t vf))+sin^(-1)(sin(3 t vf))) va
+**GGB:** `sin(tan^(-1)(sin(t vf))+sin^(-1)(sin(3 t vf))) va`
 
-**JS:** (Math.sin(Math.atan(Math.sin(t\*vf))+Math.asin(Math.sin(3\*t\*vf))))\*va
+**JS:** `(Math.sin(Math.atan(Math.sin(t\*vf))+Math.asin(Math.sin(3\*t\*vf))))\*va`
 
 
 
 ## Bird Dip Wave
 
-**GGB:** sin(t vf) cos^(2)(tan(t vf) cos(t\*3 vf)) va
+**GGB:** `sin(t vf) cos^(2)(tan(t vf) cos(t\*3 vf)) va`
+
+**JS:** `Math.sin(t\*vf)\*(Math.cos(Math.tan(t\*vf)\*Math.cos(t\*3\*vf))\*\*2)\*va`
 
-**JS:** Math.sin(t\*vf)\*(Math.cos(Math.tan(t\*vf)\*Math.cos(t\*3\*vf))\*\*2)\*va