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sandboxels
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Merge branch 'main' of https://github.com/R74nCom/sandboxels

This commit is contained in:
slweeb 2023-12-15 21:10:09 -05:00
parent d4062c3bcd 69858328e6
commit b6f19ac64f
3 changed files with 283 additions and 37 deletions
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38
mods/heatglow.js Normal file
View File

@ -0,0 +1,38 @@
const heatfunc = function(pixel){
pixel.gethigh = (elements[pixel.element].tempHigh)
pixel.halftemp = ((20+pixel.gethigh)/2)
if (pixel.start == pixelTicks){
pixel.ogR = parseInt(pixel.color.slice(4, pixel.color.indexOf(',')), 10)
pixel.ogG = parseInt(pixel.color.slice(pixel.color.indexOf(',') + 1, pixel.color.lastIndexOf(',')), 10)
pixel.ogB = parseInt(pixel.color.slice(pixel.color.lastIndexOf(',') + 1, -1), 10)
}else if (pixelTicks > pixel.start){
if (pixel.temp <= (pixel.gethigh) - pixel.halftemp){
pixel.ctemp = 0;
} else if (pixel.temp > (pixel.gethigh)-pixel.halftemp && pixel.temp <= pixel.gethigh){
pixel.ctemp = ((1/pixel.halftemp)*pixel.temp)-(((pixel.gethigh)-pixel.halftemp)/pixel.halftemp)
}
if (pixel.ctemp <= 0.5){
pixel.newR = (((510-(2*pixel.ogR))*pixel.ctemp)+pixel.ogR);
pixel.newG = ((0-((2*pixel.ogG)*pixel.ctemp))+pixel.ogG);
pixel.newB = ((0-((2*pixel.ogB)*pixel.ctemp))+pixel.ogB);
}else if (pixel.ctemp > 0.5){
pixel.newR = 255;
pixel.newG = ((510*pixel.ctemp)-256);
pixel.newB= ((280*pixel.ctemp)-140);
}
pixel.color = "rgb(" + pixel.newR + "," + pixel.newG + "," + pixel.newB + ")";
}
};
const metals = ["iron", "glass", "copper", "gold", "brass","steel","nickel","zinc","silver","aluminum","bronze","metal_scrap","oxidized_copper","tin","lead"];
metals.forEach(metal => {
const prefunc = elements[metal].tick;
if (!prefunc){
elements[metal].tick = heatfunc;
}else{
const modfunc = function(pixel){
prefunc(pixel);
heatfunc(pixel);
};
elements[metal].tick = modfunc;
}
});

279
mods/morechemistry.js
View File

@ -35,33 +35,26 @@ function reactPixels(pixel1,pixel2) {
if (r.y !== undefined && (pixel1.y < r.y[0] || pixel1.y > r.y[1])) {
return false;
}
if (r.explosion !== undefined){
if (r.radius !== undefined){
let radius = r.radius;
let list = r.explosion.split(",");
console.log(list);
console.log(pixel1, pixel2, radius, list);
customExplosion(pixel1, pixel2, radius, list);
}
}
if (r.elem1 !== undefined) {
// if r.elem1 is an array, set elem1 to a random element from the array, otherwise set it to r.elem1
if (Array.isArray(r.elem1)) {
var elem1 = r.elem1[Math.floor(Math.random() * r.elem1.length)];
if(elem1 == "customExplosion"){
if(r.items !== undefined){
elements.customExplosion.rItems = r.items
} else{
return false;
}
}
} else {
var elem1 = r.elem1;
if(elem1 == "customExplosion"){
if(r.items !== undefined){
elements.customExplosion.rItems = r.items
} else{
return false;
}
}
}
} else { var elem1 = r.elem1; }
if (elem1 == null) {
deletePixel(pixel1.x,pixel1.y);
}
else {
changePixel(pixel1,elem1);
changePixel(pixel1,elem1);
}
}
if (r.charge1) { pixel1.charge = r.charge1; }
@ -100,6 +93,13 @@ function reactPixels(pixel1,pixel2) {
if (r.func) { r.func(pixel1,pixel2); }
return r.elem1!==undefined || r.elem2!==undefined;
}
function customExplosion(pixel1, pixel2, radius, list) {
let x = pixel1.x;
let y = pixel1.y;
deletePixel(x, y);
deletePixel(pixel2.x, pixel2.y);
explodeAt(x, y, radius, list);
};
let obj = {};
obj.items = "";
elements.sodiumhydroxide = {
@ -118,7 +118,7 @@ elements.sodiumhydroxide = {
"acid_gas": { "elem2":"fire", },
"vinegar": { "elem1": ["sodium_acetate", "water"], },
"aqua_regia": { "elem1": null, "elem2": ["fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop"], },
},
@ -127,7 +127,7 @@ elements.sodiumhydroxide = {
fireColor: "#fba600",
category: "liquids",
state: "liquid",
density: 2130,
density: 1.525,
stain: -0.25,
name: "SodiumHydroxide",
stateHigh: "sodiumhydroxidecrystals",
@ -148,7 +148,7 @@ elements.sodiumhydroxidecrystals = {
"water": { "elem1": null, "elem2": "sodiumhydroxide", },
"vinegar": { "elem1": null, "elem2": "sodium_acetate", },
"aqua_regia": { "elem1": null, "elem2": ["fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop"], },
},
@ -202,17 +202,18 @@ elements.sodium.reactions = {
},
"acid": {
"elem1": "explosion",
},
"aqua_regia": { "elem1": null, "elem2": ["fire", "pop", "fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop"], },
}
"chloroauric_acid": { "elem1": "gold", "elem2": ["fire", "fire", "pop"], },
};
elements.magnesium = {
color: "#e6e6e6",
reactions: {
"acid": { "elem1": "hydrogen", "chance": 0.02, },
"aqua_regia": { "elem1": "hydrogen", "chance": 0.2, "elem2": "pop", },
},
behavior: behaviors.POWDER,
fireColor: "#ffffff",
@ -224,6 +225,7 @@ elements.magnesium = {
stateHigh: "molten_magnesium",
tempHigh: "650",
burn: 50,
density: 1738,
}
elements.molten_magnesium = {
color: ["#fab298", "#f78157", "#ff9169", "#ff9e7a"],
@ -235,7 +237,8 @@ elements.molten_magnesium = {
name: "MoltenMagnesium",
temp: 650,
stateLow: "magnesium",
tempLow: 600
tempLow: 600,
density: 1460,
}
elements.acidic_water = {
burn: 0,
@ -252,10 +255,20 @@ elements.acidic_water = {
state: "liquid",
density: 1000,
name: "AcidWater",
density: 1100,
}
elements.acid.ignore.push("magnesium");
elements.acid.ignore.push("sodiumhydroxide");
elements.acid.ignore.push("sodiumhydroxidecrystals");
elements.acid.ignore.push("rubidiumhydroxide");
elements.acid.ignore.push("rubidiumhydroxidecrystals");
elements.acid.ignore.push("rubidiumsalt");
elements.acid.ignore.push("rubidium");
elements.acid.ignore.push("moltenrubidium");
elements.acid.ignore.push("potassium");
elements.acid.ignore.push("MoltenPotassium");
elements.acid.ignore.push("potassiumhydroxide");
elements.acid.ignore.push("potassiumhydroxidecrystals");
elements.acid.ignore.push("water");
elements.acid.ignore.push("acidic_water");
elements.acid.ignore.push("gold");
@ -360,6 +373,7 @@ elements.chloroauric_acid = {
color: "#ba7b00",
tempHigh: 60,
stateHigh: "liquid_chloroauric_acid",
density: 4400,
}
elements.liquid_chloroauric_acid = {
behavior: behaviors.LIQUID,
@ -377,6 +391,7 @@ elements.liquid_chloroauric_acid = {
stateLow: "chloroauric_acid",
tempHigh: 115,
stateHigh: "gold",
density: 2500,
}
elements.nitrogen_oxide = {
behavior: behaviors.GAS,
@ -386,7 +401,8 @@ elements.nitrogen_oxide = {
color: "#961400",
reactions: {
"water": { "elem1": null, "elem2": "nitric_acid", },
}
},
density: 2.62,
}
elements.nitric_acid = {
behavior: behaviors.LIQUID,
@ -395,6 +411,7 @@ elements.nitric_acid = {
name: "NitricAcid",
color: "#ffffff",
reactions: { "acid": { "elem1": null, "elem2": "aqua_regia",}, },
density: 1.51,
}
elements.aqua_regia = {
"behavior": [
@ -521,6 +538,7 @@ elements.aqua_regia = {
"alias": "HCl + HN03",
"movable": true,
"color": "#ffdd9b",
density: 1.3,
}
elements.potassium = {
behavior: behaviors.POWDER,
@ -528,6 +546,8 @@ elements.potassium = {
"category": "powders",
"state": "powder",
"alias": "K",
tempHigh: 63.65,
stateHigh: "MoltenPotassium",
reactions: {
"water": { "elem1": "potassiumhydroxide", "elem2": ["fire", "fire", "pop", "water"], },
"acid": { "elem1": null, "elem2": ["water", "smoke", "fire"], },
@ -537,11 +557,34 @@ elements.potassium = {
"acid_gas": { "elem2":"fire", },
"acid_gas": { "elem2":"fire", },
"aqua_regia": { "elem1": null, "elem2": ["fire", "pop", "pop", "fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "fire", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop", "pop"], },
"liquid_chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop", "pop"], },
},
density: 862,
}
elements.MoltenPotassium = {
behavior: behaviors.LIQUID,
color: ["#9c9c9c", "#8c8b8b", "#7d7d7d", "#999797"],
state: "liquid",
name: "MoltenPotassium",
viscosity: 0.55,
reactions: {
water: { explosion: "fire,potassiumhydroxide,potassiumhydroxide,potassiumhydroxide,hydrogen,hydrogen,pop", radius: 3 },
molten_sodium: { elem1: null, elem2: "NaK" },
acid: { explosion: "fire,fire,hydrogen,pop,pop,hydrogen", radius: 5 },
chloroauric_acid: { elem1: "gold", explosion: "fire,fire,gold_coin,hydrogen,hydrogen,pop", radius: 6},
liquid_chloroauric_acid: { elem1: "gold", explosion: "fire,fire,gold_coin,hydrogen,hydrogen,pop", radius: 6
},
aqua_regia: { explosion: "fire,fire,fire,fire,hydrogen,pop,hydrogen,pop", radius: 7},
nitric_acid: { explosion: "fire,fire,fire,hydrogen,pop", radius: 6},
acidic_water: { explosion: "fire,potassiumhydroxide,hydrogen,hydrogen", radius: 4 },
},
temp: 70,
tempLow: 63.65,
stateLow: "potassium",
density: 862,
}
elements.potassiumhydroxide = {
color: "#c9c5b1",
@ -554,7 +597,7 @@ elements.potassiumhydroxide = {
"acid_gas": { "elem2":"fire", },
"acid_gas": { "elem2":"fire", },
"aqua_regia": { "elem1": null, "elem2": ["fire", "pop", "pop", "fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "fire", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "pop"], }
},
@ -563,7 +606,7 @@ elements.potassiumhydroxide = {
fireColor: "#fba600",
category: "liquids",
state: "liquid",
density: 2130,
density: 2.12,
stain: -0.25,
name: "PotassiumHydroxide",
stateHigh: "potassiumhydroxidecrystals",
@ -584,7 +627,7 @@ elements.potassiumhydroxidecrystals = {
"water": { "elem1": null, "elem2": "potassiumhydroxide", },
"vinegar": { "elem1": null, "elem2": "sodium_acetate", },
"aqua_regia": { "elem1": null, "elem2": ["fire", "pop", "pop", "fire", "fire", "hydrogen"], },
"acid_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"acidic_water": { "elem1": null, "elem2": ["water", "pop", "pop"], },
"nitric_acid": { "elem1": null, "elem2": ["fire", "pop", "fire", "pop", "hydrogen"], },
"chloroauric_acid": {"elem1": "gold", "elem2": ["fire", "fire", "pop", "pop"], },
},
@ -592,7 +635,7 @@ elements.potassiumhydroxidecrystals = {
fireColor: "#fba600",
category: "powders",
state: "powder",
density: 2130,
density: 2040,
name: "PotassiumHydroxideCrystals",
}
elements.supercooler = {
@ -612,6 +655,7 @@ elements.iron_chloride = {
density: 1740,
burnTime: 500,
name: "IronChloride",
density: 2900,
}
elements.aluminum_chloride = {
color: ["#faff61", "#f7f7e4", "#ffffb5"],
@ -624,7 +668,9 @@ elements.aluminum_chloride = {
density: 1740,
burnTime: 500,
name: "AluminumChloride",
density: 2440,
}
elements.zinc_chloride = {
color: ["#faff61", "#f7f7e4", "#ffffb5"],
reactions: {
@ -637,6 +683,7 @@ elements.zinc_chloride = {
density: 1740,
burnTime: 500,
name: "ZincChloride",
density: 2910,
}
elements.acid.ignore.push("zinc");
elements.acid.ignore.push("iron");
@ -650,8 +697,8 @@ elements.kilonova = {
maxSize: 1,
temp: 100000000,
}
elements.supernova.behavior = [ ["XX", "XX", "XX"], [ "XX", "EX:80>plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,molten_iron,molten_uranium,oxygen,molten_sodium,sulfur_gas,neon,chlorine,molten_calcium,molten_nickel,molten_copper,molten_zinc,gallium_gas AND CH:NeutronStar", "XX" ], ["XX", "XX", "XX"] ]
elements.kilonova.behavior = [ ["XX", "XX", "XX"], [ "XX", "EX:200>plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,molten_iron,molten_uranium,molten_lead,oxygen,molten_sodium,molten_gold,molten_tungsten,sulfur_gas,neon,chlorine,molten_calcium,molten_nickel,molten_copper,molten_zinc,gallium_gas AND CH:void", "XX" ], ["XX", "XX", "XX"] ]
elements.supernova.behavior = [ ["XX", "XX", "XX"], [ "XX", "EX:80>plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,molten_iron,molten_uranium,oxygen,molten_sodium,sulfur_gas,neon,chlorine,molten_calcium,molten_nickel,molten_copper,molten_zinc,gallium_gas,hydrogen,hydrogen,hydrogen,hydrogen,helium,helium,helium AND CH:NeutronStar", "XX" ], ["XX", "XX", "XX"] ]
elements.kilonova.behavior = [ ["XX", "XX", "XX"], [ "XX", "EX:200>plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,molten_iron,molten_uranium,molten_lead,oxygen,molten_sodium,molten_gold,molten_tungsten,sulfur_gas,neon,chlorine,molten_calcium,molten_nickel,molten_copper,molten_zinc,gallium_gas,hydrogen,hydrogen,hydrogen,hydrogen,hydrogen,helium,helium,helium,helium AND CH:void", "XX" ], ["XX", "XX", "XX"] ]
elements.NeutronStar = {
behavior: [["XX", "XX", "XX"], ["CR:light", "XX", "CR:light"], ["XX", "XX", "XX"]],
name: "NeutronStar",
@ -667,6 +714,7 @@ elements.NeutronStar = {
reactions: {
"NeutronStar": { "elem1": "kilonova", "temp1": 100000000, },
},
density: 10**17,
}
elements.acid.ignore.push("pipe");
elements.acid.ignore.push("gold");
@ -681,6 +729,7 @@ elements.NaK = {
state: "liquid",
alias: "Sodium-Potassium alloy",
color: "#848484",
viscosity: 9.4,
reactions: {
"water": {
func: function (pixel1, pixel2) {customExplosion(pixel1, pixel2, 5, ["fire", "fire", "pop", "hydrogen", "sodiumhydroxide", "potassiumhydroxide","sodiumhydroxide", "potassiumhydroxide","sodiumhydroxide", "potassiumhydroxide"])}
@ -688,8 +737,8 @@ elements.NaK = {
acid: {
func: function (pixel1, pixel2) {customExplosion(pixel1, pixel2, 6, ["fire", "pop", "hydrogen", "water", "pop", "hydrogen", "hydrogen"])}
},
acid_water: {
func: function (pixel1, pixel2) {customExplosion(pixel1, pixel2, 3, ["pop", "hydrogen", "hydrogen", "water"])}
acidic_water: {
func: function (pixel1, pel2) {customExplosion(pixel1, pixel2, 3, ["pop", "hydrogen", "hydrogen", "water","sodiumhyixdroxide", "potassiumhydroxide"])}
},
chloroauric_acid: { elem1: "gold",
func: function (pixel1, pixel2) {customExplosion(pixel1, pixel2, 7, ["fire", "fire", "pop", "hydrogen", "gold_coin", "hydrogen", "pop"])}
@ -702,6 +751,162 @@ elements.NaK = {
},
aqua_regia: {
func: function (pixel1, pixel2) {customExplosion(pixel1, pixel2, 9, ["fire", "fire", "pop", "hydrogen", "fire", "fire", "hydrogen", "pop", "flash"])}
}
},
};
},
density: 868,
};
elements.rubidium = {
behavior: behaviors.POWDER,
category: "powders",
name: "Rubidium",
color: ["#9e9e9e", "#ababab", "#bababa", "#adadad"],
tempHigh: 39.5,
stateHigh: "moltenrubidium",
reactions: {
chlorine: { elem1: "rubidiumsalt" },
acid: { explosion: "fire,rubidiumsalt,water", radius: 7, },
aqua_regia: { explosion: "fire,rubidiumsalt,fire,water", radius: 8, },
acidic_water: { explosion: "water,water,water,rubidiumsalt", radius: 3.5, },
nitric_acid: { explosion: "fire,fire,hydrogen", radius: 7 },
chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
liquid_chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
},
density: 1532,
fireColor: "#d91e1e",
tick: function(pixel) {
pixel.burning = true;
},
}
elements.moltenrubidium = {
density: 1532,
behavior: behaviors.LIQUID,
viscosity: 8,
name: "MoltenRubidium",
category: "liquids",
color: ["#adacac", "#adadad", "#c2c2c2", "#b8b8b8"],
reactions: {
chlorine: { elem1: "rubidiumsalt" },
acid: { explosion: "fire,rubidiumsalt,water", radius: 7, },
aqua_regia: { explosion: "fire,rubidiumsalt,fire,water", radius: 8, },
acidic_water: { explosion: "water,water,water,rubidiumsalt", radius: 3.5, },
nitric_acid: { explosion: "fire,fire,hydrogen", radius: 7 },
chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
liquid_chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
fireColor: "#d91e1e",
},
tick: function(pixel) {
pixel.burning = true;
},
tempLow: 38,
stateLow: "rubidium",
}
elements.rubidiumsalt = {
state: "powder",
name: "RubidiumSalt",
alias: "Rubidium Chloride or RbCl",
color: ["#e6e6e6", "#f5f5f5", "#fafafa", "#f0f0f0"],
behavior: behaviors.POWDER,
category: "powders",
density: 2800,
}
elements.hydrogen.burnInto = "steam";
elements.irradiate = {
"color": "rgb(25,150,25)",
"temp": 2,
"category": "tools",
"canPlace": false,
"desc": "Use on irradiatable pixels to turn them radioactive.",
"colorObject": {
"r": 25,
"g": 150,
"b": 25
},
tool: function(pixel) {
if (pixel.element == "lead") {
changePixel(pixel, "uranium");
} else if(pixel.element == "glass"){
changePixel(pixel, "rad_glass");
} else if (pixel.element == "steam"){
changePixel(pixel, "rad_steam");
} else if (pixel.element == "cloud" || pixel.element == "rain_cloud"){
changePixel(pixel, "rad_cloud");
} else if (pixel.element == "water"){
changePixel(pixel, "fallout");
}
},
}
elements.deradiate = {
name: "DE-radiate",
"color": "rgb(255,255,255)",
"temp": 2,
"category": "tools",
"canPlace": false,
"desc": "Use on irradiatable pixels to turn them radioactive.",
"colorObject": {
"r": 25,
"g": 150,
"b": 25
},
tool: function(pixel) {
if (pixel.element == "uranium") {
changePixel(pixel, "lead");
} else if (pixel.element == "rad_glass") {
changePixel(pixel, "glass");
} else if (pixel.element == "rad_steam"){
changePixel(pixel, "steam");
} else if (pixel.element == "rad_cloud"){
changePixel(pixel, "cloud");
} else if (pixel.element == "fallout"){
changePixel(pixel, "water");
} else if (pixel.element == "radiation"){
deletePixel(pixel.x, pixel.y);
}
},
};
elements.rubidiumhydroxide = {
burn: 50,
color: "#c9c5b1",
behavior: behaviors.LIQUID,
reactions: {
chlorine: { elem1: "rubidiumsalt" },
acid: { explosion: "fire,rubidiumsalt,water", radius: 7, },
aqua_regia: { explosion: "fire,rubidiumsalt,fire,water", radius: 8, },
acidic_water: { explosion: "water,water,water,rubidiumsalt", radius: 3.5, },
nitric_acid: { explosion: "fire,fire,hydrogen", radius: 7 },
chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
liquid_chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
},
viscosity: 0.56,
//tempHigh: 64.7,
fireColor: "#d91e1e",
category: "liquids",
state: "liquid",
density: 2.12,
name: "RubidiumHydroxide",
stateHigh: "potassiumhydroxidecrystals",
tempHigh: "1388",
}
elements.rubidiumhydroxidecrystals = {
burn: 50,
color: "#c9c5b1",
behavior: behaviors.POWDER,
reactions: {
water: { elem1: null, elem2: "rubidiumhydroxide", },
chlorine: { elem1: "rubidiumsalt" },
acid: { explosion: "fire,rubidiumsalt,water", radius: 7, },
aqua_regia: { explosion: "fire,rubidiumsalt,fire,water", radius: 8, },
acidic_water: { explosion: "water,water,water,rubidiumsalt", radius: 3.5, },
nitric_acid: { explosion: "fire,fire,hydrogen", radius: 7 },
chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
liquid_chloroauric_acid: { explosion: "fire,fire,hydrogen,gold_coin", radius: 7, },
},
fireColor: "#d91e1e",
category: "powders",
state: "powder",
density: 2.12,
name: "RubidiumHydroxideCrystals",
stateHigh: "potassiumhydroxidecrystals",
tempHigh: "1388",
}

3
mods/nousersthings.js
View File

@ -1234,6 +1234,9 @@ elements.filter = {
noMix: true,
},
elements.heat_test = {
onSelect: function() {
logMessage("Use heatglow.js for more elements to glow when they are hot.");
},
color: "#787878",
behavior: behaviors.WALL,
category: "solids",