(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 a warm? inflation spreading thin the plasmalike 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 warm? inflation still spreading & thinner the coalescing plasma. (& notably, all symmetric pairs represent at least 1 orbit? or up or down move?)
(& notably, almost all ending pairs lead back to "b" & "b1234" & splittingly, & this is alot like false vacuum decay. & 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, showing inflation can just stop. & 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 that they're too energetic for slow orbits, & that the 1st half of the language is more energetic as a whole? than the 2nd half. & notably, "c" & "e" & "c1234" & "e1234" represent creation on the whole & are thus beyond merely being more or less energetic than "i" & "i1234". & notably, "h" & "i" & "j" each have 1 more repetitive selfreferencing type A nontree edge than "b" & "f" each have, also making "hij" less energetic.)
"c" represents the emptiness before reheating. "e" represents reheating. "c1" represents reheat 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 tidal forcing, (& 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 un?/reheated? naked singularities. (& contextually, & symbolically, — "a" & "d" are like "c" & "e", & "c1" & "e1" are like "c4" & "e4".) (& "c1" & "e1", & "c4" & "e4" are pocketlikes?)
(& 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 singularity's jumpcutted deadend or outflow, (& by wormholelike? activity or by some other, & into a new or into the same universe, & either into the same or into a different locale). 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 gaseous formations. & "hij" & their tertiaries, (ex. "h1234" & "i1234" & "j1234"), represent the acceleration of the expansion of the universe spreading & thinner the gaseous matter inside, but with things outside the observed universe coming in & going 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. & there are no stars here.
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.)