332 lines
15 KiB
JavaScript
332 lines
15 KiB
JavaScript
urlParams = new URLSearchParams(window.location.search);
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if(urlParams.get('liquidAmount') != null) { //null check
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liquidAmount = urlParams.get('liquidAmount')
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if(isNaN(liquidAmount) || liquidAmount === "" || liquidAmount === null) { //NaN check
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liquidAmount = 10
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}
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liquidAmount = parseInt(liquidAmount)
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liquidAmount = Math.min(10000,Math.max(liquidAmount,1))
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} else {
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liquidAmount = 10
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}
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if(urlParams.get('makeLiquidString') !== null) { //if the variable exists at all
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makeLiquidString = true
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} else { //if it doesn't (and it returns null)
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makeLiquidString = false
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}
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function _randomInt(max) {
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if(max >= 0) {
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return Math.floor(Math.random() * (max + 1))
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} else {
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return 0 - Math.floor(Math.random() * (Math.abs(max) + 1))
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}
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}
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function _randomArrayChoice(array) {
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return array[_randomInt(array.length - 1)]
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}
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//arbitrarily picked
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const initialArrayL = ["m","n","p","t","ch","k","b","d","j","g","f","th","s","sh","h","l","r","y","w","z","sp","st","sk","sl","spl","stl","skl","sr","spr","str","skr","sl","fl","fr","pl","pr","tl","tr","kl","kr","shr","fl","fr","thr"] //:eggTF:
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const vowelArrayL = ["a","e","i","o","u","ay","ee","ie","oa","ew","oo","oi","ow"] //:eggTF:
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const medialArrayL = ["m","n","p","t","k","b","d","g","f","th","s","sh","h","l","r","y","z","sp","st","sk","sl","spl","stl","skl","sr","spr","str","skr","sl","fl","fr","pl","pr","tl","tr","kl","kr","shr","fl","fr","thr"] //:eggTF:
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const finalArrayL = ["m","n","p","t","k","b","d","g","f","th","s","sh","l","r","y","z","sp","st","sk","sl","spl","stl","skl","sr","spr","str","skr","pl","pr","tl","tr","bl","vr"] //:eggTF:
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function generateName() {
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//these are picked arbitrarily
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//console.log("getting random type")
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var randomInt1 = _randomInt(6)
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//console.log("generating type " + randomInt1)
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if(randomInt1 == 0) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(finalArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 1) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(finalArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 2) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(finalArrayL) + "e"
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 3) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(finalArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 4) {
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var randomName = _randomArrayChoice(vowelArrayL) + _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(finalArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 5) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(vowelArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else if(randomInt1 == 6) {
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var randomName = _randomArrayChoice(initialArrayL) + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(medialArrayL) + _randomArrayChoice(vowelArrayL)
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//console.log("generated T" + randomInt1 + " name")
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} else {
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var randomName = randomArrayChoice(vowelArrayL) + randomArrayChoice(medialArrayL) + randomArrayChoice(vowelArrayL) + randomArrayChoice(finalArrayL)
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//console.log("warning: type was above 6 somehow")
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}
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//console.log(randomName)
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return randomName
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}
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const whiteColor = {r: 255, g: 255, b: 255}
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const blackColor = {r: 0, g: 0, b: 0}
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function _rgbToHex(color) {
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if(typeof(color) == "object") { //Expects object like "{r: 172, g: 11, b: 34}"
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//console.log("Loading colors");
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//console.log("Loading R");
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var red = color.r;
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//console.log("Loading G");
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var green = color.g;
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//console.log("Loading B");
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var blue = color.b;
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//console.log("Rounding R");
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red = Math.round(red);
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//console.log("Rounding G");
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green = Math.round(green);
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//console.log("Rounding B");
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blue = Math.round(blue);
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//console.log("Bounding R");
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red = Math.min(255,Math.max(0,red));
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//console.log("Bounding G");
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green = Math.min(255,Math.max(0,green));
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//console.log("Bounding B");
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blue = Math.min(255,Math.max(0,blue));
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//console.log("Converting R");
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red = red.toString(16);
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//console.log("Converting G");
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green = green.toString(16);
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//console.log("Converting B");
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blue = blue.toString(16);
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//console.log("Padding R");
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while(red.length < 2) {
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red = "0" + red;
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};
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//console.log("Padding G");
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while(green.length < 2) {
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green = "0" + green;
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};
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//console.log("Padding B");
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while(blue.length < 2) {
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blue = "0" + blue;
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};
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//console.log("Concatenating");
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return "#" + red + green + blue;
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} else if(typeof(color) == "string") { //Expects string like "rgb(20,137,4)". Also doesn't round properly for some reason...
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//console.log("Splitting string")
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color = color.split(",");
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//console.log("Getting R");
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var red = parseFloat(color[0].substring(4))
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//console.log("Getting G");
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var green = parseFloat(color[1])
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//console.log("Getting B");
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var blue = parseFloat(color[2].slice(0,-1))
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//console.log("Rounding R");
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red = Math.round(red);
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//console.log("Rounding G");
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green = Math.round(green);
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//console.log("Rounding B");
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blue = Math.round(blue);
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//console.log("Bounding R");
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red = Math.min(255,Math.max(0,red));
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//console.log("Bounding G");
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green = Math.min(255,Math.max(0,green));
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//console.log("Bounding B");
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blue = Math.min(255,Math.max(0,blue));
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//console.log("Converting R");
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red = red.toString(16);
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//console.log("Converting G");
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green = green.toString(16);
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//console.log("Converting B");
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blue = blue.toString(16);
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//console.log("Padding R");
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while(red.length < 2) {
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red = "0" + red;
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};
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//console.log("Padding G");
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while(green.length < 2) {
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green = "0" + green;
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};
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//console.log("Padding B");
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while(blue.length < 2) {
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blue = "0" + blue;
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};
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//console.log("Concatenating");
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return "#" + red + green + blue;
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} else {
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throw "error: Only objects and strings are supported."
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};
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};
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function _multiplyColorObjects(color1,color2,weight1=0.5) { /*third argument is for color1 and expects a float from 0
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to 1, where 0 means "all color2" and 1 means "all color1"*/
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var w1 = Math.min(Math.max(weight1,0),1)
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var red1 = color1.r
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var green1 = color1.g
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var blue1 = color1.b
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var red2 = color2.r
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var green2 = color2.g
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var blue2 = color2.b
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var red3 = (red1 * w1) + (red2 * (1 - w1))
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var green3 = (green1 * w1) + (green2 * (1 - w1))
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var blue3 = (blue1 * w1) + (blue2 * (1 - w1))
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return {r: red3, g: green3, b: blue3}
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}
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function generateColors() {
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var randomR = _randomInt(255)
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var randomG = _randomInt(255)
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var randomB = _randomInt(255)
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var randomColor = {r: randomR, g: randomG, b: randomB}
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var newLiquidColor = _multiplyColorObjects(whiteColor,randomColor,weight1=0.1)
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var newSolidColor = _multiplyColorObjects(whiteColor,randomColor,weight1=0.4)
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var newGasColor = _multiplyColorObjects(whiteColor,randomColor,weight1=0.7)
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var newLiquidColor = _rgbToHex(newLiquidColor)
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var newSolidColor = _rgbToHex(newSolidColor)
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var newGasColor = _rgbToHex(newGasColor)
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return [newLiquidColor, newSolidColor, newGasColor]
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}
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function _add2(number1,number2) {
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return number1 + number2
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}
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function _arrayAverage(array) {
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var total = array.reduce(_add2,0)
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return total / array.length
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}
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function _generateAveragedRandoms() {
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return _arrayAverage([Math.random(),Math.random(),Math.random()])
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}
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function avgRndToMult() {
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return 1 + (0.55 - _generateAveragedRandoms())
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}
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if(makeLiquidString == true) {
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liquidString = ""
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}
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for(i = 0; i < liquidAmount; i++) {
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var name = generateName();
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var meltingAdjustment = avgRndToMult();
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var densityAdjustment = avgRndToMult();
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var hardnessAdjustment = avgRndToMult();
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var conductivity = Math.random() ** 1.8;
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var conductivityEnabled = Math.random();
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var conducts = null;
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conductivityEnabled < 1/3 ? conducts = true : conducts = false;
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var burn = (Math.random() ** 2) * 100;
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var burnTime = 10 ** ((0.5 + Math.random()) ** 3);
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var burningEnabled = Math.random();
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var burns = null;
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burningEnabled < 1/3 ? burns = true : burns = false;
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var colors = generateColors();
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var viscosity = (1 + Math.random()) ** 10;
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var solidDensityMultiplier = 1+(Math.abs(1-avgRndToMult()));
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var solidDensityRelationRandomizer = Math.random();
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var solidIsLessDense = null;
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var solidDensity = null;
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solidDensityRelationRandomizer < 0.1 ? solidIsLessDense = true : solidIsLessDense = false;
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solidIsLessDense == true ? solidDensity = (1000 / solidDensityMultiplier) * densityAdjustment : solidDensity = (1000 * solidDensityMultiplier) * densityAdjustment;
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var freezingPoint = (273 * (meltingAdjustment ** 10)) - 273;
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var boilingPoint = freezingPoint + Math.abs((273 * (avgRndToMult() ** 9)) - 273);
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var gasDensity = 0.00143 * avgRndToMult() * 1000 * densityAdjustment;
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if(typeof(elements[name]) != "undefined") {
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name = name + _randomArrayChoice(vowelArrayL) + _randomArrayChoice(finalArrayL);
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};
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liquidConductivityAdjust = 0.5 * Math.sqrt(avgRndToMult());
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elements[name] = {
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name: name,
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color: colors[0],
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behavior: behaviors.LIQUID,
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tempLow: freezingPoint,
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temp: freezingPoint + 20,
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tempHigh: boilingPoint,
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stateLow: `${name}_ice`,
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stateHigh: `${name}_gas`,
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category: "random liquids",
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state: "liquid",
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density: 1000 * densityAdjustment,
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//conduct: goes here
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//burn and burnTime go here
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hardness: 0.3 * hardnessAdjustment,
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viscosity: viscosity,
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breakInto: `${name}_gas`,
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};
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elements[`${name}_ice`] = {
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name: `${name} ice`,
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color: colors[1],
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behavior: behaviors.WALL,
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tempHigh: freezingPoint,
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temp: freezingPoint - 20,
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stateHigh: name,
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category: "random solids",
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state: "solid",
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density: solidDensity,
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//conduct: goes here
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//burn and burnTime go here
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hardness: 0.6 * hardnessAdjustment,
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breakInto: name,
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};
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elements[`${name}_gas`] = {
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name: `${name} gas`,
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color: colors[2],
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behavior: behaviors.GAS,
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tempLow: boilingPoint,
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temp: boilingPoint + 20,
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stateLow: name,
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category: "random gases",
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state: "gas",
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density: gasDensity,
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//burn and burnTime go here
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hardness: 1,
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};
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if(burns == true) {
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elements[name].burn = burn
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elements[name].burnTime = burnTime
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elements[`${name}_ice`].burn = burn
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elements[`${name}_ice`].burnTime = burnTime
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elements[`${name}_gas`].burn = burn
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elements[`${name}_gas`].burnTime = burnTime
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}
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if(conducts == true) {
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elements[name].conduct = conductivity * liquidConductivityAdjust
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elements[`${name}_ice`].conduct = conductivity
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}
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if(makeLiquidString == true) {
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//Append moddable code for the liquid state to liquidString
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liquidString = liquidString + `elements.${name} = {\n name: \"${name}\",\n color: \"${colors[0]}\",\n behavior: behaviors.LIQUID,\n tempLow: ${freezingPoint},\n temp: ${freezingPoint + 20},\n tempHigh: ${boilingPoint},\n stateLow: \"${name}_ice\",\n stateHigh: \"${name}_gas\",\n category: \"random liquids\",\n state: \"liquid\",\n density: ${1000 * densityAdjustment},\n `
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if(conducts == true) { liquidString = liquidString + `conduct: ${conductivity * liquidConductivityAdjust},\n ` }
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if(burns == true) { liquidString = liquidString + `burn: ${burn},\n burnTime: ${burnTime},\n ` }
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liquidString = liquidString + `hardness: ${0.3 * hardnessAdjustment},\n viscosity: ${viscosity},\n breakInto: \"${name}_gas\",\n};\n\n`
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//Append moddable code for the solid state to liquidString
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liquidString = liquidString + `elements.${name}_ice = {\n name: \"${name} ice\",\n color: \"${colors[1]}\",\n behavior: behaviors.WALL,\n tempHigh: ${freezingPoint},\n temp: ${freezingPoint - 20},\n stateHigh: \"${name}\",\n category: \"random solids\",\n state: \"solid\",\n density: ${solidDensity},\n `
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if(conducts == true) { liquidString = liquidString + `conduct: ${conductivity},\n ` }
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if(burns == true) { liquidString = liquidString + `burn: ${burn},\n burnTime: ${burnTime},\n ` }
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liquidString = liquidString + `hardness: ${0.6 * hardnessAdjustment},\n breakInto: \"${name}\",\n};\n\n`
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//Append moddable code for the gaseous state to liquidString
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liquidString = liquidString + `elements.${name}_gas = {\n name: \"${name} gas\",\n color: \"${colors[2]}\",\n behavior: behaviors.GAS,\n tempLow: ${boilingPoint},\n temp: ${boilingPoint + 20},\n stateLow: \"${name}\",\n category: \"random gases\",\n state: \"solid\",\n density: ${gasDensity},\n `
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if(burns == true) { liquidString = liquidString + `burn: ${burn},\n burnTime: ${burnTime},\n ` }
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liquidString = liquidString + `hardness: 1,\n};\n\n`
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}
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}
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if(makeLiquidString == true) {
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console.log(`Liquids added to liquidString (length ${liquidString.length})`)
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}
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