(1) Take the minimally interesting set of characters. Take the set X of all binary strings (so just 0s & 1s) of length 6 (why? to be explained later).
(2) Use the sufficiently interesting ways to make sufficiently interesting edges. To make a tree, for each string y in X, draw an edge between y & the string z in X which is equal to the concatenation of the indices 234 + 345 of y. & to make type A nontree edges, do the same but for 456 + 123.
Why do things this way? Because, retroactively, it's all about pairs & binaries & balances & symmetries, so you take halves/trigrams & combine them in the different ways that thematically follow. You have 123 + 456, 456 + 123, 234 + 345, & 345 + 234. The 1st is an identity operation. The 2nd creates type A nontree edges. The 3rd creates a hierarchical tree, (& which is like the identity operation, & which suggests partial identity). The 4th creates type B nontree edges. The 1st is unused, & the 4th is redundant because you can just do the 2nd (& which compresses the 4th in the 8 digits language). So only the 2nd & the 3rd are really used.
(3) Pair strings (by symmetry or by complementarity where there's no symmetry) to minimize repetition in parsing, & to maximize dynamism.
(4) Order by 000000 & 111111 & 010101 & 101010. & decline everything except for "a" & "d", & "c" & "e", & "c1234" & "e1234". (& because there's nothing which is like 0, then 0 & 1, then 01 & 10.)
(5) Parse by following type A nontree edges whenever & for however long you like, & then by pairs (& by left to right), & then by depth, & then by breadth. (& strings are notated on the lefthand, & their type A nontree edges are notated on the righthand. & "< >" means that both strings' type A nontree edges lead to the other string in the pair. & "self" means that each string in the pair's type A nontree edge leads back to itself.)
HOW TO ASSIGN MEANING
"a" represents the creation & then being of empty space. "d" represents the creation & then being of matter, (the initial singularity). "b" represents inflationary energy spreading thin the plasma succeeding the initial singularity, & which is only detectable by the single line being pushed against the uppermost & then the lowermost of the observed universe (& the observer following). "b1234" represent a weakening inflation still spreading & thinner the coalescing plasma. (& swap both plasmas for gas if coming from "j4", "i4", or "j"?)
(& notably, almost all ending pairs lead back to "b" & "b1234" & splittingly, & this is like the Bubble Universe hypothesis. & inversely, almost all beginning pairs lead back to "f" & "f1234" & coalescingly. & both generally transitioning from gas to plasma.) (& notably, you can go from "b" & "b123" to the ends of other cycles, & coalescingly, & then go on normally, skipping primordial blackholes. & inversely, ... "f" & "f234", & splittingly. & both generally transitioning from plasma to gas.) (& notably, while "h3" & "j3" can slow? orbit?, "b" & "b1234" & "f" & "f1234" can't, implying they're too energetic for slow orbits.) (& notably, all symmetric pairs represent at least one orbit? or up or down movement?)
"c" represents the emptiness before the creation of reheat plasma. "e" represents the creation of reheat plasma. "c1" represents that plasma collapsing into an event horizon & the eternal infall, necessitating special & general relativity. "e1" represents peer plasma that is present immediately after crossing the event horizon & it's fall. "c2/e2" & "c3/e3" represent the tidal forcing of plasma, (& going to & from "h4" or "j1", they also represent the possibility of whole universes existing inside blackholes, & of postprimordial matters to fall into blackholes, etc.) "c4" represents the cauchy horizon, & can go to & from "e", & which represents the indeterminateness of the cauchy horizon, & the possibility of the collapse of matter into a cauchy horizon without an event horizon. "e4" represents the blackhole singularity, & can go to & from "c", & which represents the possibility of an un?/reheated? naked singularity. (& contextually, & symbolically, — "a" & "d" are like "c" & "e", & "c1" & "e1" are like "c4" & "e4".)
(& notably, you can get something like a whitehole by parsing backwards from "e4" to "c1".) (& notably, matter that falls into a blackhole tends to become plasma because of contact with the accretion disk where it's heated up & then ionized.) (& archetypally, "h4" going to "c3/e3" makes sense because most blackholes are smaller near the postprimordial beginning, & "j1" going to "c2/e2" makes sense because most blackholes are larger near the postprimordial end. & them bypassing the phenomenology of the eternal infall & the extended fall towards tidal forcing makes sense because things in the postprimordial universe don't fall into blackholes as often as in the primordial universe, let alone supermassive blackholes.)
"f" & "f1234" represent the moments after the creation of matter (& at the singularity). They first split into a large mass of lines & a single line, then lose the single line, then split again into a smaller but still large mass of lines & a single line, then lose the single line. This altogether represents the struggle between gravity & the accelerating expansion & the high energies of the early plasmafilled universe. & "g" represents the dark ages, where almost every atom is gaseous? & nothing is coalesced. & "h" represents the beginning of the formation of larger gaseous masses, & "h1" represents the completion of major gas formations. & "hij" & their tertiaries, (ex. "h1234" & "i1234" & "j1234"), represent the increasing acceleration of the expansion of the universe spreading thin the gas matter inside, but with things outside the observed universe coming in & out of view.
(& this is maybe obvious, but it makes sense energetically for the tertiaries of "hij" to, generally, after losing a line, — orbit either once or forever or something in between, then slow orbit either instantaneously or forever or something in between.) (& notably, their lines are lost in the core horizontally, & along the periphery vertically.) (& notably, "i2" moves up & down, whereas "i3" actually orbits to & from "i".)
(& jumping around represents other contexts replacing the current context. So you could be experiencing "j4" but then there's "c1", & it's either a blackhole coming from outside the observed universe or it's quantum mechanics.) (& parsing this language archetypally?, as in, without following type A nontree edges, you get the archetypal? experience of this physics.) (& this language also seems to show the most archetypal moments to do things like orbiting, slow orbiting, creating or falling into blackholes, etc.) & as an aside, the type A nontree edges leading to & from "c4" & "e4" are the only ones that don't resonate very much with our physics.
WHY 6 DIGITS & NOT 4 OR 8 OR HIGHER? (& FRACTALS) (& MUSIC) (& OTHER NOTABLE MATHEMATICAL OBJECTS)
6 is sufficiently interesting. 4 is too compressed & has no blackhole or whitehole. 8 & highers are hierarchically repetitive & have fractal? blackholes.
(& 4 & 6 & 8 & highers' languages are also mappable onto each other in categorylike & fractallike ways, & Grothendieck's topoi resonates alot with this.) (& you can map the strings onto chords, & then play them archetypally.) (& you can do all this with matrices, tensors, & etc.)