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Merge pull request #1284 from theenchantedsword/main 

Solubility.js
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slweeb 2025-10-12 19:29:26 -04:00 committed by GitHub
parent fe2d01cb91 328ba56640
commit 60a6eb3c7d
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GPG Key ID: B5690EEEBB952194
3 changed files with 356 additions and 77 deletions
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1
mod-list.html
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@ -243,6 +243,7 @@
<tr><td>radioactive.js</td><td>Radioactive elements on the periodic table [WIP]</td><td>kaeud</td></tr>
<tr><td>random_rocks.js</td><td>Randomly generates rocks on game load</td><td>Alice</td></tr>
<tr><td>roseyiede.js</td><td>Several variants of a substance called roseyiede</td><td>Alice</td></tr>
<tr><td>solubility.js</td><td>Adds solubility and a simple-to-use format for other mods to use with it</td><td>Orchid</td></tr>
<tr><td>some_tf_liquids.js</td><td>Various liquids from the Thermal Foundation Minecraft mod</td><td>Alice</td></tr>
<tr><td>stickystuff.js</td><td>Slime, Honey, and others can stick to other elements</td><td>Suss</td></tr>
<tr><td>the_ground.js</td><td>Several rocks, worldgen types, and gemstones</td><td>Alice</td></tr>

146
mods/morechemistry.js
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@ -1,97 +1,78 @@
/*
*Version 2.2.0
*Version 2.2.1
*/
dependOn("orchidslibrary.js", ()=>{
elements.cloner.keyInput = "str:clone", elements.ecloner.keyInput = "str:clone", elements.slow_cloner.keyInput = "str:clone", elements.floating_cloner.keyInput = "str:clone";
let xDown = false;
elements.copper_sulfate = {
behavior: behaviors.POWDER,
color: ["#4391fd","#004cfe"],
reactions: {
ant: {"elem2": "dead_bug"},
fly: {"elem2": "dead_bug"},
firefly: {"elem2": "dead_bug"},
stink_bug: {"elem2": "dead_bug"},
bee: {"elem2": "dead_bug"},
termite: {"elem2": "dead_bug"},
spider: {"elem2": "dead_bug"},
plant: {"elem2": "dead_plant"},
grass: {"elem2": "dead_plant"},
algae: {"elem2": null},
kelp: {"elem2": "water"},
coral: {"elem2": "water"},
mushroom_cap: {"elem2": null},
mushroom_stalk: {"elem2": null},
mushroom_gill: {"elem2": null},
mushroom_spore: {"elem2": null},
zinc: {"stain2": "#2A1210"},
fire: {"elem1": null,"elem2": "poison_gas","chance": 0.1},
sugar: {"elem1": "oxidized_copper","elem2": null,"color1": ["#CB3D3D","#A6292B","#6E1B1B"]},
magnesium: {elem1: "copper", elem2: "epsom_salt"},
wood: {stain2: "#043023"},
},
tempHigh: 110,
fireColor: [
"#91d106",
"#feff97",
"#248e01"
],
state: "solid",
density: 3600,
hidden: true,
category: "powders",
id: 509,
movable: true,
properties: {
anhydrous: false
},
tick: function(pixel){
if(pixelTicks-pixel.start == 2 && xDown){
pixel.anhydrous = true;
let rgb = {r: 235, g: 247, b: 250};
elements.copper_sulfate.reactions = {
ant: {"elem2": "dead_bug"},
fly: {"elem2": "dead_bug"},
firefly: {"elem2": "dead_bug"},
stink_bug: {"elem2": "dead_bug"},
bee: {"elem2": "dead_bug"},
termite: {"elem2": "dead_bug"},
spider: {"elem2": "dead_bug"},
plant: {"elem2": "dead_plant"},
grass: {"elem2": "dead_plant"},
algae: {"elem2": null},
kelp: {"elem2": "water"},
coral: {"elem2": "water"},
mushroom_cap: {"elem2": null},
mushroom_stalk: {"elem2": null},
mushroom_gill: {"elem2": null},
mushroom_spore: {"elem2": null},
zinc: {"stain2": "#2A1210"},
fire: {"elem1": null,"elem2": "poison_gas","chance": 0.1},
sugar: {"elem1": "oxidized_copper","elem2": null,"color1": ["#CB3D3D","#A6292B","#6E1B1B"]},
magnesium: {elem1: "copper", elem2: "epsom_salt"},
wood: {stain2: "#043023"},
}
elements.copper_sulfate.tick = function(pixel){
if(pixelTicks-pixel.start == 2 && xDown){
pixel.anhydrous = true;
let rgb = {r: 235, g: 247, b: 250};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
let multi = (pixel.temp-70)/100;
multi = (multi < 0) ? 0 : ((multi > 1) ? 1 : multi);
if(Math.random() < 0.05*multi){
pixel.anhydrous = true;
let rgb = {r: 235, g: 247, b: 250};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
if(pixel.anhydrous){
let neighbors = [];
for(let coords of squareCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
neighbors[neighbors.length] = (isEmpty(x,y) && !outOfBounds(x,y)) ? "air" : (!outOfBounds(x,y)) ? pixelMap[x][y].element : undefined;
}
if(neighbors.includes("air") && pixel.temp < 50 && Math.random() < 0.00035){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
let multi = (pixel.temp-70)/100;
multi = (multi < 0) ? 0 : ((multi > 1) ? 1 : multi);
if(Math.random() < 0.05*multi){
pixel.anhydrous = true;
let rgb = {r: 235, g: 247, b: 250};
} else if (neighbors.includes("steam") || neighbors.includes("water") || neighbors.includes("salt_water") || neighbors.includes("sugar_water") || neighbors.includes("dirty_water") || neighbors.includes("seltzer") || neighbors.includes("pool_water") || neighbors.includes("slush")){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
if(pixel.anhydrous){
let neighbors = [];
for(let coords of squareCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
neighbors[neighbors.length] = (isEmpty(x,y) && !outOfBounds(x,y)) ? "air" : (!outOfBounds(x,y)) ? pixelMap[x][y].element : undefined;
}
if(neighbors.includes("air") && pixel.temp < 50 && Math.random() < 0.00035){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
} else if (neighbors.includes("steam") || neighbors.includes("water") || neighbors.includes("salt_water") || neighbors.includes("sugar_water") || neighbors.includes("dirty_water") || neighbors.includes("seltzer") || neighbors.includes("pool_water") || neighbors.includes("slush")){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
}
}
}
elements.water.ignore = ["copper_sulphate"], elements.steam.ignore = ["copper_sulphate"], elements.pool_water.ignore = ["copper_sulphate", 'pool_ice'], elements.salt_water.ignore = ["copper_sulphate", 'salt_ice'], elements.sugar_water.ignore = ["copper_sulphate", 'sugar_ice'], elements.seltzer.ignore = ["copper_sulphate", 'seltzer_ice'],
@ -806,6 +787,7 @@ dependOn("orchidslibrary.js", ()=>{
category: "salts",
state: "solid",
density: 3900,
solubility: {water: 3.5},
reactions: {
potassium: {elem1: "gold_coin", elem2: "potassium_salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}, color1: ["#574000", "#705200", "#634900", "#755600"]},
sodium: {elem1: "gold_coin", elem2: "salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}, color1: ["#574000", "#705200", "#634900", "#755600"]},
@ -823,6 +805,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
density: 2320,
solubility: {water: 0.543, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
baking_soda: {elem1: "magnesium_carbonate", elem2: "salt"},
lye: {elem1: "magnesium_hydroxide", elem2: "salt"},
@ -852,6 +835,7 @@ dependOn("orchidslibrary.js", ()=>{
behavior: behaviors.POWDER,
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
solubility: {water: 0.745, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
baking_soda: {elem1: "limestone", elem2: "salt"},
lye: {elem1: "slaked_lime", elem2: "salt"},
@ -941,6 +925,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
color: ["#ffffff", "#fcfcfc", "#ffffff", "#ededed"],
density: 2470,
solubility: {water: 0.8, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
water: {elem1: "gallium", elem2: "acid"},
steam: {elem1: "gallium", elem2: "acid_gas"},
@ -972,6 +957,7 @@ dependOn("orchidslibrary.js", ()=>{
density: 2480,
tempHigh: 630,
stateHigh: ["chlorine", "aluminum"],
solubility: {water: 0.458, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
}
elements.acid.reactions.aluminum = {elem1: "hydrogen", elem2: "aluminum_chloride"};
elements.acid.reactions.purple_gold = {elem1: ["aluminum_chloride", "aluminum_chloride", "hydrogen"], elem2: "gold"};
@ -1079,6 +1065,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
category: "salts",
alias: "Mg(CH₃COO)₂",
solubility: {water: 0.53, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
acid: {elem1: "magnesium_chloride", elem2: "vinegar"},
baking_soda: {elem1: "magnesium_carbonate", elem2: "sodium_acetate"},
@ -1095,6 +1082,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
category: "salts",
alias: "Ca(CH₃COO)₂",
solubility: {water: 0.347, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
acid: {elem1: "calcium_chloride", elem2: "vinegar"},
baking_soda: {elem1: "limestone", elem2: "sodium_acetate"},
@ -1113,6 +1101,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
category: "salts",
alias: "CH₃COOK",
solubility: {water: 2.55, color: ["#7a9ff0", "#7aa4ff", "#729bf2", "#6f9cfc"]},
reactions: {
acid: {elem1: "potassium_salt", elem2: "vinegar"},
baking_soda: {elem1: "caustic_potash", elem2: "sodium_acetate"},
@ -1128,6 +1117,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
category: "salts",
alias: "Cu(CH₃COO)₂",
solubility: {water: 0.072},
reactions: {
sodium: {elem1: "copper", elem2: "sodium_acetate"},
potassium: {elem1: "copper", elem2: "potassium_acetate"},
@ -1148,6 +1138,7 @@ dependOn("orchidslibrary.js", ()=>{
state: "solid",
category: "salts",
alias: "CuCl₂",
solubility: {water: 0.743},
reactions: {
sodium: {elem1: "copper", elem2: "sodium_acetate"},
potassium: {elem1: "copper", elem2: "potassium_acetate"},
@ -1265,6 +1256,7 @@ dependOn("orchidslibrary.js", ()=>{
alias: "H₂PtCl₆",
tempHigh: 500,
stateHigh: ["acid_gas", "chlorine", "platinum", "platinum"],
solubility: {water: 1, },
reactions: {
sodium: {elem1: "salt", elem2: "platinum", color2: ["#404040", "#525252", "#454545", "#2e2e2e", "#262626"]},
potassium: {elem1: "potassium_salt", elem2: "platinum", color2: ["#404040", "#525252", "#454545", "#2e2e2e", "#262626"]},

286
mods/solubility.js Normal file
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@ -0,0 +1,286 @@
/*
* Version 1.0.0
*/
dependOn("orchidslibrary.js", ()=>{
elements.water.reactions.salt = undefined;
elements.water.reactions.sugar = undefined;
elements.water.properties = {capacity: 100, elemsDissolved: {}};
elements.salt.solubility = {water: 0.36, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.sugar.solubility = {water: 2, visc: 850, color: ["#9bb0de", "#a8bbe3", "#a2b8e8", "#a7b7d9"]};
elements.lye.solubility = {water: 1.09, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.caustic_potash.solubility = {water: 1.1, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.potassium_salt.solubility = {water: 0.3397, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.borax.solubility = {water: 0.041, color: ["#658ce0", "#7299ed", "#7597e0", "#78a1fa"]};
elements.epsom_salt.solubility = {water: 0.351, color: ["#658ce0", "#7299ed", "#7597e0", "#78a1fa"]};
elements.sodium_acetate.solubility = {water: 1.233, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.baking_soda.solubility = {water: 0.097, color: ["#7ca3f7", "#7798e0", "#89abf5", "#96b8ff"]};
elements.copper_sulfate.solubility = {water: 0.32, color: ["#4a68f0", "#3358ff", "#2948d6", "#2146ed"]};
elements.lye.reactions.water = undefined;
elements.soap.reactions.water = undefined;
elements.ash.solubility = {water: 1.1, func: function(p1, p2){
if(p1.elemsDissolved.caustic_potash != undefined){
p1.elemsDissolved.caustic_potash += p1.elemsDissolved.ash;
p1.elemsDissolved.ash = 0;
} else {
p1.elemsDissolved.caustic_potash = p1.elemsDissolved.ash;
p1.elemsDissolved.ash = 0;
}
if(p2.dissolved >= 100){
changePixel(p2, getItem(["limestone", "quicklime", "charcoal", "dust", "dust"]));
p2.dissolved = undefined;
}
}};
elements.water.reactions.ash = undefined;
function getItem(obj){
let res;
if(Array.isArray(obj)){
res = obj[Math.round(Math.random()*obj.length)];
while(res == null){
res = obj[Math.round(Math.random()*obj.length)];
}
} else {
res = obj;
}
return res;
}
function aqueousReaction(p1, p2){
for(let elem in p1.elemsDissolved){
if(elements[elem].reactions != null && p2.element != "water" && elements[elem].reactions[p2.element] != undefined){
let r = elements[elem].reactions[p2.element];
if(r.tempMin && !((p1.temp >= r.tempMin) && (p2.temp >= r.tempMin))){
return false;
}
if(r.tempMax && !((p1.temp <= r.tempMax) && (p2.temp <= r.tempMax))){
return false;
}
if(r.charged && !(p1.charge || p2.charge)){
return false;
}
let c = (r.chance != undefined) ? r.chance : 1;
c = c*((p1.elemsDissolved[elem]/100)/elements[elem].solubility.water);
if(Math.random() > c){
return false;
}
if(r.aqFunc){
r.aqFunc(p1, p2);
}
if(r.elem1 != undefined){
let e = getItem(r.elem1);
if(elements[e].solubility != undefined && elements[e].solubility.water != undefined){
p1.elemsDissolved[e] = p1.elemsDissolved[elem];
p1.elemsDissolved[elem] = undefined;
} else {
if(e === null){
deletePixel(p1.x, p1.y);
} else {
changePixel(p1, e);
}
}
}
if(r.elem2 != undefined){
changePixel(p2, getItem(r.elem2));
}
if(r.charge1){
p1.charge = r.charge1;
}
if(r.charge2){
p2.charge = r.charge2;
}
if(r.stain1){
stainPixel(p1,r.stain1,0.05);
}
if(r.stain2){
stainPixel(p2,r.stain2,0.05);
}
} else if (p2.element == "water"){
for(let e2 in p2.elemsDissolved){
if(elements[elem].reactions != undefined && elements[elem].reactions[e2] != undefined){
let r = elements[elem].reactions[e2];
if(r.tempMin && !((p1.temp >= r.tempMin) && (p2.temp >= r.tempMin))){
return false;
}
if(r.tempMax && !((p1.temp <= r.tempMax) && (p2.temp <= r.tempMax))){
return false;
}
if(r.charged && !(p1.charge || p2.charge)){
return false;
}
let c = (r.chance != undefined) ? r.chance : 1;
c = c*((p1.elemsDissolved[elem]/100)/elements[elem].solubility.water);
if(Math.random() > c){
return false;
}
if(r.aqFunc){
r.aqFunc(p1, p2);
}
if(r.elem1 != undefined){
let e = getItem(r.elem1);
if(elements[e].solubility != undefined && elements[e].solubility.water != undefined){
p1.elemsDissolved[e] = p1.elemsDissolved[elem];
p1.elemsDissolved[elem] = undefined;
} else {
if(e === null){
deletePixel(p1.x, p1.y);
} else {
changePixel(p1, e);
}
}
}
if(r.elem2 != undefined){
let e = getItem(r.elem2);
if(elements[e].solubility != undefined && elements[e].solubility.water != undefined){
p2.elemsDissolved[e] = p1.elemsDissolved[elem];
p2.elemsDissolved[elem] = undefined;
} else {
if(e === null){
deletePixel(p2.x, p2.y);
} else {
changePixel(p2, e);
}
}
}
if(r.charge1){
p1.charge = r.charge1;
}
if(r.charge2){
p2.charge = r.charge2;
}
if(r.stain1){
stainPixel(p1,r.stain1,0.05);
}
if(r.stain2){
stainPixel(p2,r.stain2,0.05);
}
}
}
}
}
}
function updateColor(pixel){
let c = pixel.oColor;
for(let element in pixel.elemsDissolved){
//if(elements[element].solubility.color != undefined){
let color = (elements[element].solubility.color != undefined) ? getItem(elements[element].solubility.color) : getItem(elements[element].color);
/*if(Array.isArray(elements[element].solubility.color)){
color = elements[element].solubility.color[Math.round(Math.random()*elements[element].solubility.color.length)];
while(color == undefined){
color = elements[element].solubility.color[Math.round(Math.random()*elements[element].solubility.color.length)];
}
} else {
color = elements[element].solubility.color;
}*/
if(color.startsWith("#")){
color = hexToRGB(color);
} else if(color.startsWith("rgb(")){
color = getRGB(color);
}
c = interpolateRgb(getRGB(c), color, ((pixel.elemsDissolved[element]/100)/elements[element].solubility.water) || 0.01);
//console.log(rgb, color, getRGB(pixel.oColor), ((pixel.elemsDissolved[elem]/100)/elements[elem].solubility.water));
}
pixel.color = c;
//}
}
function solventTick(pixel) {
if(pixel.start = pixelTicks+5){
pixel.oColor = pixel.color;
}
pixel.capacity = (1+((pixel.temp-20)/80))*100;
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
let p2 = getPixel(x,y);
let total = 0;
for(let elem in pixel.elemsDissolved){
total += pixel.capacity*((pixel.elemsDissolved[elem]/100)/elements[elem].solubility.water);
}
if(p2 != null){
aqueousReaction(pixel, p2);
}
if(p2 != null && total < pixel.capacity){
if(elements[p2.element].solubility != null && elements[p2.element].solubility[pixel.element] != null){
let solubilityObj = elements[p2.element].solubility;
p2.dissolved = (p2.dissolved == undefined) ? elements[p2.element].solubility[pixel.element] : p2.dissolved+elements[p2.element].solubility[pixel.element];
if(pixel.elemsDissolved[p2.element] == undefined){
pixel.elemsDissolved[p2.element] = elements[p2.element].solubility[pixel.element];
} else {
pixel.elemsDissolved[p2.element] += elements[p2.element].solubility[pixel.element];
}
updateColor(pixel, p2.element);
if(solubilityObj.func != undefined){
solubilityObj.func(pixel, p2);
}
if(p2.dissolved >= 100){
deletePixel(p2.x, p2.y);
}
}
} else if(total > (pixel.capacity+20) && p2 == null) {
let solArr = [], elemArr = [];
for(let elem in pixel.elemsDissolved){
elemArr.push(elem);
solArr.push(elements[elem].solubility[pixel.element]);
}
let index = solArr.indexOf(Math.min(...solArr));
if(isEmpty(x,y) && !outOfBounds(x,y)){
createPixel(elemArr[index], x, y);
let max = (pixel.elemsDissolved[elemArr[index]] > (total-pixel.capacity)) ? total-pixel.capacity : pixel.elemsDissolved[elemArr[index]];
pixelMap[x][y].dissolved = 100-max;
updateColor(pixel);
pixel.elemsDissolved[elemArr[index]] -= max;
}
}
else if (p2 != null && p2.element == "water"){
for(let elem in pixel.elemsDissolved){
if(p2.elemsDissolved[elem] == undefined) {p2.elemsDissolved[elem] = 0;};
if(p2.elemsDissolved[elem] > pixel.elemsDissolved[elem] && pixel.elemsDissolved[elem]/100 < elements[elem].solubility[pixel.element]){
p2.elemsDissolved[elem]--;
pixel.elemsDissolved[elem]++;
updateColor(pixel);
updateColor(p2);
} else if (p2.elemsDissolved[elem] < pixel.elemsDissolved[elem] && p2.elemsDissolved[elem]/100 < elements[elem].solubility[pixel.element]) {
p2.elemsDissolved[elem]++;
pixel.elemsDissolved[elem]--;
updateColor(pixel);
updateColor(p2);
}
}
}
}
if(pixel.temp >= elements[pixel.element].solventTempHigh){
let elem = null;
let num = Math.random();
if(elem === null){
for(let e in pixel.elemsDissolved){
if(num <= ((pixel.elemsDissolved[e]/100)/elements[e].solubility.water)){
elem = e;
}
}
}
elem = (elem == null) ? "steam" : elem;
changePixel(pixel, elem);
pixel.dissolvedElems = {};
}
}
behaviors.SOLVENT = function(pixel){
let visc = 0;
for(let elem in pixel.elemsDissolved){
if(elements[elem].solubility.visc != undefined){
visc += ((pixel.elemsDissolved[elem]/100)/elements[elem].solubility[pixel.element])*elements[elem].solubility.visc;
}
}
if(elements[pixel.element].viscosity != undefined){
visc = visc*(elements[pixel.element].viscosity/1000);
}
let chance = 1-(visc/1000);
let dir = (Math.random()<chance) ? (Math.random() < 0.5) ? 1 : -1 : 0;
if(!tryMove(pixel, pixel.x+dir, pixel.y+1) && !tryMove(pixel, pixel.x, pixel.y+1)){
tryMove(pixel, pixel.x+dir, pixel.y);
}
}
elements.water.tick = solventTick;
elements.water.behavior = behaviors.SOLVENT;
elements.water.tempHigh = undefined;
elements.water.solventTempHigh = 100;
}, true);