lngi UNAN.html

<!DOCTYPE html>
<html>
<body>
Running: <input type="checkbox" id="numberRunning" checked></input>
<p><font size="5" id="number"></font></p>
<script>
var t=0;
var tReduce=0;
function save() {
	localStorage.setItem('unanlngi', JSON.stringify(t));
}

function load() {
	if (localStorage.getItem('unanlngi')) {
		t = JSON.parse(localStorage.getItem('unanlngi'));
	}
}

function smoothCurve(fraction, lowerLimit, upperLimit, steepness) {
	fraction = Math.max(Math.min(fraction, 1), 0);
	steepness = 2;//Math.max(Math.min(steepness, 2), 2);
	return lowerLimit-1+(upperLimit-lowerLimit+1)**((fraction+fraction**steepness*(steepness-1))/steepness)
}
var maxPrecisionDigits = 25;
var precisionDigits = maxPrecisionDigits;
var versionNum = 0;
var finishedArray = false;

function removeTrailingZerosInArray(Array) {
	while (Array.includes(",0]")) {
		Array = Array.replace(/,0\]/g, "]");
	}
	return Array;
}

function LinArraySolve(Array) { // Array is of the form ...[a,b,c,...](number)
// version: 1 = dont degenerate to 1 if (number) = 1
// [removed arrays][activeArray](numberArray)
// Array = "[1,3,5][0,2,2][0,2,2](3.4783)"
	Array = removeTrailingZerosInArray(Array);
	singleArray = Array.slice(Array.lastIndexOf("[")); // [0,2,2](3.4783)
	removedArray = Array.slice(0, Array.lastIndexOf("[")); // [1,3,5][0,2,2]
	numberArray = Number(singleArray.slice(singleArray.indexOf("(")+1, singleArray.indexOf(")"))); // 3.4783
	if (isNaN(numberArray)) {
		finishedArray = true;
		return Array;
	}
	activeArray = singleArray.slice(singleArray.indexOf("[")+1, singleArray.indexOf("]")).split(","); // array: 0,2,2 numbers are strings
	
	// Rule 1
	if (activeArray[0]==1 && activeArray.length==1) {
		if (numberArray < 10 && precisionDigits > 1) {
			resultNumber=10**numberArray;
			if (resultNumber >= 10000) {
				precisionDigits=0;//finishedArray = true;
			}
			return removedArray + "(" + resultNumber + ")";
		} else if (numberArray < 10000 && precisionDigits > 3) {
			precisionDigits=0;
			return removedArray + "(" + ((10**(numberArray%1)).toFixed(3) + "xe" + Math.floor(numberArray)) + ")"
		} else {
			precisionDigits=0;
			finishedArray = true;
			return Array;
		}
	}
	// Rule 2
	sumOfEntriesInActiveArray = activeArray.reduce(function(a,b){return a - -b;}, 0);
	
	if (activeArray[0] > 0 && numberArray>=1 && numberArray<2) { // Rule 2a
		versionNum = 0;
		activeArray[0] -= 1;
		numberArray = smoothCurve(numberArray%1, 1, 10, sumOfEntriesInActiveArray);
		precisionDigits -= 1+Math.log10(numberArray);
		return removedArray + "[" + activeArray + "](" + numberArray + ")";
	}
	if (activeArray[0] > 0) { // Rule 2b
		versionNum = 0;
		if (numberArray>=10) {
			precisionDigits=0;
			finishedArray = true;
			return Array;
		} else {
			oldActiveArray = activeArray+"";
			newActiveArray = activeArray;
			newActiveArray[0] -= 1;
			newNumberArray = numberArray;
			newNumberArray -= Math.floor(numberArray-1);
			return removedArray + ("[" + newActiveArray + "]").repeat(Math.floor(numberArray-1)) + "[" + oldActiveArray + "](" + newNumberArray + ")";
		}
	}	
	if (activeArray[0] == 0) { // Rule 3
		currentEntry=0;
		while (activeArray[currentEntry]==0){
			currentEntry++;
		} // current entry is first non0 entry
		activeArray[currentEntry]--;
		if (numberArray >= 2) {
			activeArray[currentEntry-1] = Math.ceil(numberArray);
			if (currentEntry==1) {
				numberArray = smoothCurve(numberArray-Math.ceil(numberArray)+1, 2, 10, sumOfEntriesInActiveArray);
				versionNum = 0;
				precisionDigits -= Math.log10(numberArray);
			} else {
				numberArray = smoothCurve(numberArray-Math.ceil(numberArray)+1, 0, 10, sumOfEntriesInActiveArray);
				versionNum = 1;
				precisionDigits -= Math.log10(1+numberArray);
			}
			return removeTrailingZerosInArray(removedArray + "[" + activeArray + "](" + numberArray + ")");
		} else if (numberArray >= 1 && numberArray < 2 && versionNum==0) {
			activeArray[currentEntry-1] = 2;
			numberArray = smoothCurve(numberArray%1, 1, 10, sumOfEntriesInActiveArray);
			precisionDigits -= Math.log10(numberArray);
			return removeTrailingZerosInArray(removedArray + "[" + activeArray + "](" + numberArray + ")");	
		} else if (numberArray < 2 && versionNum==1) {
			if (currentEntry < 1) {versionNum = 0;}
			activeArray[currentEntry-1] = Math.ceil(numberArray);
			if (currentEntry>1) {
				numberArray = smoothCurve(numberArray-Math.ceil(numberArray)+1, 0, 10, sumOfEntriesInActiveArray);
				precisionDigits -= Math.log10(1+numberArray);
			} else {
				numberArray = smoothCurve(numberArray-Math.ceil(numberArray)+1, 2, 10, sumOfEntriesInActiveArray);
				precisionDigits -= Math.log10(numberArray);
			}
			return removeTrailingZerosInArray(removedArray + "[" + activeArray + "](" + numberArray + ")");				
		}
	}
}
function evaluateLinArray(Array) {
	finishedArray = false;
	precisionDigits = maxPrecisionDigits;
	Array = LinArraySolve(Array);
	while ((precisionDigits > 0 || !Array.includes("][")) && !Array.includes("e") && !finishedArray &&Array.length<300) {
		Array = LinArraySolve(Array);
	}
	numberArray = Number(Array.slice(Array.indexOf("(")+1, Array.indexOf(")"))); // 1.234
	if (isNaN(numberArray)) {return Array;}
	if (numberArray >= 2) {
		numberArray = Math.floor(numberArray);
		return Array.slice(0,Array.indexOf("(")) + "(" + numberArray + ")";
	} else {
		return Array.slice(0,Array.lastIndexOf("[")) + "(10)";
	}
	return Array;
}

function linArrayEntries(number) {
	versionNum = 1;
	return "[" + "0,".repeat(Math.floor(number)) + "1](" + smoothCurve(number%1, 1, 10, 1) + ")";
}
function convertOnceToLAN(Array) { // [1,2,3][2,4][3,3](12)
	//Array = Array.replace("(","").replace(")","");
	removedArray = Array.slice(0, Array.lastIndexOf("[")); // [1,2,3][2,4]
	partialArray = Array.slice(Array.lastIndexOf("[")+1, Array.lastIndexOf("]")).split(","); // 3,3 (array)
	lastNumberArray = Array.slice(Array.indexOf("(")+1,Array.indexOf(")")); // 12
	for (currentEntry=0; currentEntry<partialArray.length; currentEntry++) {
		partialArray[currentEntry] -= -1;
	}
	partialArray[0] -= 1;
	if (partialArray[0] > 0) {
		return removedArray + "(" + "{10," + lastNumberArray + "," + partialArray + "}" + ")";
	}
	currentEntry = 1;
	while (partialArray[currentEntry] == 1) {
		currentEntry++;
	}
	partialArray[currentEntry]--;
	return removedArray + "({" + "10,".repeat(currentEntry+1) + lastNumberArray + "," + partialArray.slice(currentEntry) + "})";
}
function convertToLAN(Array) {
	currentArray = Array
	while (currentArray.includes("[")) {
		currentArray = convertOnceToLAN(currentArray);
	}
	while (currentArray.includes(",1}")) {
		currentArray = currentArray.replace(",1}","}");
	}
	return currentArray.replace("(","").replace(")","").replace("xe","e");
}
function convertToUNAN(Array) {
	if (Array.includes("[")) {
		return 10 + Array.replace(/\]\[/g, "]10[").replace("(","").replace(")","").replace("xe","e");
	} else {
		return Array.replace("(","").replace(")","").replace("xe","e");
	}
}
load();
function displayNumber() {
	tReduce = 0;
	if (t < 1000) {
		finalNumber = Math.floor(t/10);
	} else if (t >= 1000 && t < 30000){
		finalNumber = Math.floor(10**(2+8*((t-1000)/29000)));
	} else if (t >= 30000 && t < 1000000) {
		finalNumber = convertToUNAN(evaluateLinArray(linArrayEntries(1+((t-30000)/970000)**0.75)));
	} else {
		finalNumber = convertToUNAN(evaluateLinArray(linArrayEntries(2+((t-1000000)/5000000)**0.9)));
		while (finalNumber == "10" && 2+((t-1000000)/5000000)**0.9 > 1) {
			tReduce++;
			finalNumber = convertToUNAN(evaluateLinArray(linArrayEntries(2+Math.max(((t-1000000-tReduce)/5000000),0)**0.9)));
		}
	}
	if (document.getElementById("numberRunning").checked) {
		t+=1;
	}
	finalNumber // for unan
	document.getElementById("number").innerHTML = finalNumber;
}
setInterval(displayNumber, 16);
setInterval(save, 100);


/*
[1](n) = {10, n}
[2](n) = {10, n, 2}
[0,1](n) = {10, 10, n}
[1,1](n) = {10, n, 1, 2}

rule 1: {1}[n] = 10^n
rule 2a: {a,b,c,...}[n] = {a-1,b,c,...}[1~10], 1<=n<2
rule 2b: {a,b,c,...}[n] = {a-1,b,c,...}{a,b,c,...}[n-1], n>=2
rule 3a: {0,a,b,c,...}[n] = {2,a-1,b,c,...}[1~10], 1<=n<2
rule 3b: {0,a,b,c,...}[n] = {ceil(n),a-1,b,c,...}[2~10], n>=2
{0,0,a,b,c,...}[n] = {0,ceil(n),a-1,b,c,...}[1~10]??

Plan
{x}[4] = {0,0,0,0,1}[10] = {0,0,0,10}[10] = {0,0,10,9}[10] = {0,10,9,9}[10]
{0,0,0,0,1}[10.01] = {0,0,0,11}[1.02]

{x}[4.1] = {0,0,0,0,0,1}[1.26] = {0,0,0,0,2}[1.82] = {0,0,0,2,1}[6.61] = {0,0,7,1,1}[4.07] = {0,5,6,1,1}[1.17] = {2,4,6,1,1}[1.48] = {1,4,6,1,1}[3.02] = {0,4,6,1,1}{0,4,6,1,1}{0,4,6,1,1}[1.05] = {0,4,6,1,1}{0,4,6,1,1}{2,3,6,1,1}[1.11] = {0,4,6,1,1}{0,4,6,1,1}{1,3,6,1,1}[1.30] = {0,4,6,1,1}{0,4,6,1,1}{0,3,6,1,1}[2.00] = {0,4,6,1,1}{0,4,6,1,1}{2,2,6,1,1}[10.00]


{2}[2] = {1}[10] = 10^10
{2}[3] = {1}{1}[10] = 10^^3
{2}[10] = 10^^10
{3}[2] = {2}[10] = 10^^10
{3}[2.0001] = {2}{2}[~1]
{3}[2.5] = {2}{2}[10^0.5]
{3}[3] = {2}{2}[10] = 10^^^3
{4}[2] = {3}[10] = 10^^^10

Let {0,1}[1.n] = {3}[1.n]
{0,1}[2] = {2}[10] = 10^^10
{0,1}[2.5] = {3}[2+9^0.5]
{0,1}[3] = {3}[10] = 10^^^10
{1,1}[2] = {0,1}[10] = 10{10}10
{1,1}[2.001] = {0,1}{0,1}[1.002] = {0,1}{3}[1.002] = {0,1}{2}[1.005] = {0,1}{1}[1.01] ~ {0,1}[10]
{2,1}[2] = {1,1}[10]

{0,2}[2] = {2,1}[10]
{0,2}[2.5] = {3,1}[1+9^0.5]
{0,2}[3] = {3,1}[10]

{0,0,1}[2] = {0,2}[10] = {10,1}[10]
{0,0,1}[2.5] = {0,3}[?]



*/



</script>
</body>
</html>