function toObject(color) { color = color.match(/\d+/g); return { r: color[0], g: color[1], b: color[2] }; } function RGBToHex2(rgb) { var r = Math.min(255, parseInt(rgb.r)); var g = Math.min(255, parseInt(rgb.g)); var b = Math.min(255, parseInt(rgb.b)); return "#" + ((1 << 24) + (r << 16) + (g << 8) + b).toString(16).slice(1); } function acidReact(elem1, elem2, product1, product2, temp = 0) { if (elements[elem1] && elements[elem1].ignore) { if (product1 !== null) { if (product1 instanceof Array) { elements[elem1].ignore.push(...product1); } else { elements[elem1].ignore.push(product1); } } if (product2 !== null) { if (product2 instanceof Array) { elements[elem1].ignore.push(...product2); } else { elements[elem1].ignore.push(product2); } } elements[elem1].ignore.push(elem2); } if (elements[elem2] && elements[elem2].ignore) { if (product1 !== null) { if (product1 instanceof Array) { elements[elem2].ignore.push(...product1); } else { elements[elem2].ignore.push(product1); } } if (product2 !== null) { if (product2 instanceof Array) { elements[elem2].ignore.push(...product2); } else { elements[elem2].ignore.push(product2); } } elements[elem2].ignore.push(elem1); } if (product1 !== null) if (elements[product1] && elements[product1].ignore) { if (product2 !== null) elements[product1].ignore.push(product2); elements[product1].ignore.push(elem1); elements[product1].ignore.push(elem2); } if (product2 !== null) if (elements[product2] && elements[product2].ignore) { if (product1 !== null) elements[product2].ignore.push(product1); elements[product2].ignore.push(elem1); elements[product2].ignore.push(elem2); } if (!elements[elem1].reactions[elem2]) { elements[elem1].reactions[elem2] = { elem1: product1, elem2: product2, temp1: temp, temp2: temp }; } } elements.fluorine = { color: "#FFFFBF", behavior: behaviors.GAS, ignore: ["foof", "solid_foof", "oxygen", "ozone", "liquid_oxygen", "oxygen_ice", "chlorine", "liquid_chlorine", "liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_acid", "hydrofluoric_ice", "hydrofluoric_acid_gas", "fire", "smoke", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "gold", "hydrogen", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "tungsten", "tungsten_hexafluoride"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { changePixel(pixel, "fire"); } }, reactions: { steam: { elem1: "hydrofluoric_acid_gas", elem2: "hydrogen" }, liquid_oxygen: { elem1: "foof", elem2: null }, hydrogen: { elem1: "hydrogen_fluoride", elem2: "fire" }, tungsten: { elem1: "tungsten_hexafluoride", elem2: "fire" }, }, tempLow: -188.1, stateLow: "liquid_fluorine", state: "gas", category: "gases", density: 1.7, stain: 0.005, }; elements.liquid_fluorine = { color: "#ffff3b", behavior: behaviors.LIQUID, ignore: ["foof", "solid_foof", "oxygen", "ozone", "liquid_oxygen", "oxygen_ice", "chlorine", "liquid_chlorine", "liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_acid", "hydrofluoric_ice", "hydrofluoric_acid_gas", "fire", "smoke", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "seltzer", "pool_water", "primordial_soup", "gold", "hydrogen", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "tungsten", "tungsten_hexafluoride"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (Math.random() < 0.01 && (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness)) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change && Math.random() < 0.02) { changePixel(pixel, "fire"); } }, reactions: { steam: { elem1: "hydrofluoric_acid_gas", elem2: "hydrogen" }, hydrogen: { elem1: "hydrogen_fluoride", elem2: "fire" }, tungsten: { elem1: "tungsten_hexafluoride", elem2: "fire" }, }, temp: -198.1, tempHigh: -188.1, stateHigh: "fluorine", tempLow: -219.7, state: "liquid", category: "liquids", density: 1505, stain: 0.005, }; elements.hydrofluoric_acid = { color: ["#c8cf91", "#efff5e", "#a0cc39"], ignore: ["fire", "liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_acid", "hydrofluoric_ice", "hydrofluoric_acid_gas", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "seltzer", "pool_water", "primordial_soup", "gold", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "chloroform", "chloroform_gas", "chloroform_ice", "tetrafluoroethylene", "tungsten", "tungsten_hexafluoride"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "hydrogen_fluoride"); } else { deletePixel(pixel.x, pixel.y); return; } } else { behaviors.LIQUID(pixel); } }, reactions: {}, state: "liquid", category: "liquids", density: 1020, stain: 0.005, tempHigh: 100, stateHigh: "hydrofluoric_acid_gas", tempLow: -58.88, }; elements.hydrofluoric_acid_gas = { color: ["#acb37d", "#bfcc4b", "#668224"], ignore: ["liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_acid", "hydrofluoric_ice", "hydrofluoric_acid_gas", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "gold", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "chloroform", "chloroform_gas", "chloroform_ice", "tetrafluoroethylene", "tungsten", "tungsten_hexafluoride"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "hydrogen_fluoride"); } else { deletePixel(pixel.x, pixel.y); } } else { behaviors.GAS(pixel); } }, reactions: {}, state: "gas", density: 1.63, stain: 0.005, tempHigh: 400, stateHigh: "fire", tempLow: -10, stateLow: "hydrofluoric_acid", category: "gases", }; runAfterLoad(function () { reactList("fluorine", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "oxygen" }); reactList("liquid_fluorine", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "oxygen" }); reactList("hydrofluoric_acid", eLists.WATER, { elem2: "dirty_water" }); reactList("hydrofluoric_acid_gas", eLists.WATER, { elem2: "dirty_water" }); delete elements.hydrofluoric_acid.reactions["dirty_water"]; delete elements.hydrofluoric_acid_gas.reactions["dirty_water"]; }); elements.hydrogen_fluoride = { color: "#f2f28d", behavior: behaviors.GAS, ignore: ["liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_ice", "hydrofluoric_acid", "hydrofluoric_acid_gas", "fire", "smoke", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "gold", "hydrogen", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "chloroform", "chloroform_gas", "chloroform_ice", "tetrafluoroethylene"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change && Math.random() < 0.2) { changePixel(pixel, "fire"); } }, reactions: { steam: { elem1: "hydrofluoric_acid_gas", elem2: null }, }, state: "gas", category: "gases", density: 1.7, stain: 0.005, tempLow: -19.5, stateLow: "liquid_hydrogen_fluoride", }; elements.liquid_hydrogen_fluoride = { color: "#e2e28d", behavior: behaviors.LIQUID, ignore: ["liquid_hydrogen_fluoride", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "hydrofluoric_acid", "hydrofluoric_ice", "hydrofluoric_acid_gas", "fire", "smoke", "acid_gas", "neutral_acid", "acid", "acid_cloud", "water", "salt_water", "sugar_water", "dirty_water", "steam", "gold", "hydrogen", "polytetrafluoroethylene", "molten_polytetrafluoroethylene", "chloroform", "chloroform_gas", "chloroform_ice", "tetrafluoroethylene"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change && Math.random() < 0.2) { changePixel(pixel, "fire"); } }, reactions: { steam: { elem1: "hydrofluoric_acid_gas", elem2: null }, }, state: "liquid", category: "liquids", hidden: true, density: 1.7, stain: 0.005, temp: -20.5, tempHigh: -19.5, stateHigh: "hydrogen_fluoride", tempLow: -83.6, }; runAfterLoad(function () { reactList("hydrogen_fluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: null }); reactList("liquid_hydrogen_fluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: null }); }); elements.foof = { color: "#fa1e1e", behavior: behaviors.LIQUID, ignore: ["foof", "solid_foof", "fluorine", "liquid_fluorine", "fluorine_ice", "liquid_oxygen", "oxygen_ice", "oxygen", "ozone", "fire", "polytetrafluoroethylene", "molten_polytetrafluoroethylene"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change && Math.random() < 0.01) { changePixel(pixel, "explosion"); } else if (Math.random() < 0.0001) { if (Math.random() < 0.5) { changePixel(pixel, "oxygen", false); } else { changePixel(pixel, "fluorine", false); } pixelTempCheck(pixel); pixelTempCheck(pixel); } }, state: "liquid", category: "liquids", density: 1450, stain: 0.01, temp: -120, tempHigh: -57, stateHigh: ["oxygen", "fluorine", "explosion"], tempLow: -154, stateLow: "solid_foof", reactions: {}, }; elements.solid_foof = { color: "#fa4a1e", behavior: behaviors.WALL, ignore: ["foof", "solid_foof", "fluorine", "liquid_fluorine", "fluorine_ice", "liquid_oxygen", "oxygen_ice", "ozone", "oxygen", "fire", "polytetrafluoroethylene", "molten_polytetrafluoroethylene"], tick: function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change && Math.random() < 0.01) { changePixel(pixel, "explosion"); } else if (Math.random() < 0.00005) { if (Math.random() < 0.5) { changePixel(pixel, "oxygen", false); } else { changePixel(pixel, "fluorine", false); } pixelTempCheck(pixel); pixelTempCheck(pixel); } }, state: "solid", category: "solids", density: 1450, stain: 0.01, temp: -160, tempHigh: -154, stateHigh: "foof", reactions: {}, }; elements.tungsten_hexafluoride = { color: "#f5f57a", behavior: behaviors.GAS, tempLow: 17.1, state: "gas", category: "gases", density: 12.4, stain: 0.005, reactions: { steam: { elem1: "hydrofluoric_acid_gas", elem2: "tungsten" }, }, }; elements.liquid_tungsten_hexafluoride = { density: 4560, tempLow: 2.3 }; runAfterLoad(function () { reactList("tungsten_hexafluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "tungsten" }); }); if (!elements.acid.ignore) { elements.acid.ignore = []; } if (!elements.acid_gas.ignore) { elements.acid_gas.ignore = []; } let defaultAcidIgnore = structuredClone(elements.acid.ignore); let defaultAcidGasIgnore = structuredClone(elements.acid_gas.ignore); let defaultAcidReactions = { ash: { elem1: "neutral_acid", elem2: null }, limestone: { elem1: "neutral_acid", elem2: null }, quicklime: { elem1: "neutral_acid", elem2: null }, slaked_lime: { elem1: "neutral_acid", elem2: null }, borax: { elem1: "neutral_acid", elem2: null }, ammonia: { elem1: "neutral_acid", elem2: null }, bleach: { elem1: "neutral_acid", elem2: null }, caustic_potash: { elem1: "neutral_acid", elem2: null }, radium_hydroxide: { elem1: "neutral_acid", elem2: null }, actinium_hydroxide: { elem1: "neutral_acid", elem2: null }, water: { elem1: null, elem2: "dirty_water" }, salt_water: { elem1: null, elem2: "water" }, sugar_water: { elem1: null, elem2: "water" }, charcoal: { elem1: null, elem2: "carbon_dioxide" }, grape: { elem2: "juice", color1: "#291824" }, soap: { elem1: "hydrogen" }, sodium: { elem1: "explosion" }, potassium: { elem1: "explosion" }, meat: { elem2: "rotten_meat", elem1: null, chance: 0.5 }, }; let defaultAcidGasReactions = { acid_gas: { elem1: null, elem2: "acid_cloud", chance: 0.3, y: [0, 12], setting: "clouds" }, rain_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, snow_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, hail_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, pyrocumulus: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, fire_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, ash: { elem1: "hydrogen", elem2: null, chance: 0.05 }, limestone: { elem1: "hydrogen", elem2: null, chance: 0.05 }, quicklime: { elem1: "hydrogen", elem2: null, chance: 0.05 }, slaked_lime: { elem1: "hydrogen", elem2: null, chance: 0.05 }, borax: { elem1: "hydrogen", elem2: null, chance: 0.05 }, ammonia: { elem1: "hydrogen", elem2: null, chance: 0.05 }, bleach: { elem1: "hydrogen", elem2: null, chance: 0.05 }, grape: { elem2: "juice", color1: "#291824" }, soap: { elem1: "hydrogen" }, sodium: { elem1: "explosion" }, meat: { elem2: "rotten_meat", elem1: null, chance: 0.4 }, }; eListAdd("CAUSTIC", ["acid", "acid_gas", "fluorine", "liquid_fluorine", "hydrofluoric_acid", "hydrofluoric_acid_gas", "hydrogen_fluoride", "liquid_hydrogen_fluoride"]); eListAdd("CAUSTICIGNORE", []); eListAdd("ACID", ["acid", "hydrofluoric_acid"]); eListAdd("ACIDGAS", ["acid_gas", "hydrofluoric_acid_gas"]); if (enabledMods.includes("mods/generative_mods.js")) { runAfterLoad(function () { generateCloud("hydrofluoric_acid"); elements["hydrofluoric_acid_gas"].reactions["hydrofluoric_acid_gas"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.3, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["rain_cloud"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["cloud"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["snow_cloud"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["hail_cloud"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["pyrocumulus"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["hydrofluoric_acid_gas"].reactions["fire_cloud"] = { elem1: null, elem2: "hydrofluoric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["cloud"].reactions["anesthesia"] = { elem1: "nitric_acid_cloud", elem2: null, chance: 0.05 }; elements["rain_cloud"].reactions["anesthesia"] = { elem1: "nitric_acid_cloud", elem2: null, chance: 0.05 }; }); } function createAcid(name, reactions, gasReactions, color, categoryhidden, categoryhiddenGas, tempHigh, tempLowGas, tempLow, tempHighGas, density, densityGas, type, compound = "acid") { elements[name] = { forceAutoGen: true, color: color, behavior: ["XX|DB%5|XX", "DB%5 AND M2|XX|DB%5 AND M2", "DB%5 AND M2|DB%10 AND M1|DB%5 AND M2"], ignore: defaultAcidIgnore.concat(eLists.CAUSTICIGNORE), reactions: reactions, category: "liquids", hidden: categoryhidden, tempHigh: tempHigh, stateHigh: name + "_gas", tempLow: tempLow, state: "liquid", density: density, }; elements[name + "_gas"] = { behavior: ["M1|DB%5 AND M1|M1", "DB%5 AND M1|XX|DB%5 AND M1", "DB%5 AND M1|DB%10 AND M1|DB%5 AND M1"], ignore: defaultAcidGasIgnore.concat(eLists.CAUSTICIGNORE), reactions: gasReactions, category: "gases", hidden: categoryhiddenGas, tempHigh: tempHighGas, stateHigh: "fire", tempLow: tempLowGas, stateLow: name, temp: tempLowGas + 20, state: "gas", density: densityGas, }; elements.bless.reactions[name] = { elem2: "hydrogen" }; elements.bless.reactions[name + "_gas"] = { elem2: "hydrogen" }; if (enabledMods.includes("mods/generative_mods.js")) { runAfterLoad(function () { generateCloud(name); elements[name + "_gas"].reactions[name + "_gas"] = { elem1: null, elem2: name + "_cloud", chance: 0.3, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["rain_cloud"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["cloud"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["snow_cloud"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["hail_cloud"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["pyrocumulus"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements[name + "_gas"].reactions["fire_cloud"] = { elem1: null, elem2: name + "_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; }); } else { elements[name + "_gas"].reactions[name + "_gas"] = { elem1: null, elem2: "acid_cloud", chance: 0.3, y: [0, 12], setting: "clouds" }; } eLists.CAUSTIC.push(name, name + "_gas"); acidIgnore([name, name + "_gas", name + "_ice", name + "_cloud"]); if (type) { eListAddIon(type, [name, name + "_gas"], compound); } if (compound == "acid") { eListAddIon("HYDROGEN", [name, name + "_gas"], compound); runAfterLoad(function () { reactList(name, eLists.WATER, { elem1: null, elem2: "dirty_water" }); reactList(name + "_gas", eLists.WATER, { elem1: null, elem2: "dirty_water" }); delete elements[name].reactions["dirty_water"]; delete elements[name + "_gas"].reactions["dirty_water"]; }); } } function eListAddIon(listName, itemList, compoundType = "default", priority = 0) { eListAdd(listName, itemList); if (typeof itemList === "string") { itemList = [itemList]; } for (var i = 0; i < itemList.length; i++) { if (!elements[itemList[i]]) { elements[itemList[i]] = {}; } if (!elements[itemList[i]].salt) { elements[itemList[i]].salt = {}; } if (!elements[itemList[i]].salt[compoundType]) { elements[itemList[i]].salt[compoundType] = {}; elements[itemList[i]].salt[compoundType].priority = priority; elements[itemList[i]].salt[compoundType].components = []; } if (elements[itemList[i]].salt[compoundType].components.indexOf(listName) === -1) { elements[itemList[i]].salt[compoundType].components.push(listName); } } } function acidIgnore(ignore) { for (let i = 0; i < eLists.CAUSTIC.length; i++) { elements[eLists.CAUSTIC[i]].ignore = elements[eLists.CAUSTIC[i]].ignore.concat(ignore); } eLists.CAUSTICIGNORE = eLists.CAUSTICIGNORE.concat(ignore); } eListAdd("WATER", ["water", "salt_water", "sugar_water", "dirty_water", "neutral_acid", "seltzer", "pool_water", "primordial_soup"]); function reactList(element, list, reaction) { for (let i = 0; i < list.length; i++) { if (!elements[element].reactions[list[i]] && !(elements[element].ignore && elements[element].ignore.includes[list[i]])) { acidReact(element, list[i], reaction.elem1, reaction.elem2); elements[element].reactions[list[i]] = reaction; } } } function createSalt(name, nameWater, color, colorWater, hidden, hiddenWater, tempHigh, tempLowWater, tempHighWater, density, densityWater, cation, anion) { if (!elements[name]) { elements[name] = { color: color, behavior: behaviors.POWDER, category: "powders", density: density, state: "solid", tempHigh: tempHigh, reactions: { ice: { elem1: null, elem2: nameWater, chance: 0.1 }, rime: { elem1: null, elem2: nameWater, chance: 0.075 }, snow: { elem1: null, elem2: nameWater, chance: 0.25 }, packed_snow: { elem1: null, elem2: nameWater, chance: 0.05 }, packed_ice: { elem1: null, elem2: nameWater, chance: 0.01 }, water: { elem2: nameWater, elem1: null }, }, hidden: hidden, }; } if (!elements[nameWater]) { elements[nameWater] = { color: colorWater, behavior: behaviors.LIQUID, tempHigh: tempHighWater, stateHigh: ["steam", name], tempLow: tempLowWater, category: "liquids", reactions: { dirt: { elem1: null, elem2: "mud" }, sand: { elem1: null, elem2: "wet_sand" }, clay_soil: { elem1: null, elem2: "clay" }, dust: { elem1: "dirty_water", elem2: null }, ash: { elem1: "dirty_water", elem2: null }, carbon_dioxide: { elem1: "dirty_water", elem2: null }, sulfur: { elem1: "dirty_water", elem2: null }, charcoal: { elem1: "dirty_water", chance: 0.005 }, plague: { elem1: "dirty_water", elem2: null }, fallout: { elem1: "dirty_water", chance: 0.25 }, radiation: { elem1: "dirty_water", chance: 0.25 }, rust: { elem1: "dirty_water", chance: 0.005 }, quicklime: { elem1: null, elem2: "slaked_lime" }, rock: { elem2: "wet_sand", chance: 0.0005 }, fly: { elem2: "dead_bug", chance: 0.1, oneway: true }, firefly: { elem2: "dead_bug", chance: 0.1, oneway: true }, bee: { elem2: "dead_bug", chance: 0.05, oneway: true }, stink_bug: { elem2: "dead_bug", chance: 0.1, oneway: true }, cancer: { elem1: "dirty_water", chance: 0.25 }, // electrolysis: aluminum: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0025 }, zinc: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.015 }, steel: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0125 }, iron: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0125 }, tin: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.01 }, lead: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.01 }, brass: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.001 }, bronze: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.001 }, copper: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0075 }, silver: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0075 }, gold: { elem1: ["hydrogen", "hydrogen", "oxygen", name], charged: true, chance: 0.0075 }, fire: { elem2: "smoke" }, snow: { elem2: "slush" }, rat: { elem1: "dirty_water", chance: 0.2 }, slug: { elem2: "slime", elem1: null }, snail: { elem2: "calcium", elem1: null }, torch: { elem2: "wood" }, light: { color2: "#a1bac9" }, sawdust: { elem2: "cellulose", elem1: null }, oxygen: { elem2: "foam" }, paper: { elem2: "cellulose", elem1: null }, pollen: { elem2: null }, soda: { elem1: "foam", chance: 0.01 }, ice_nine: { elem1: "ice_nine" }, ant_wall: { elem2: ["mud", "mud", "wet_sand"], elem1: null, chance: 0.007 }, soap: { elem1: "water" }, dye: { elem2: null, chance: 0.05 }, ink: { elem2: null, chance: 0.01 }, sodium: { elem2: ["pop", "pop", "pop", "hydrogen"], chance: 0.01, temp1: 250 }, molten_sodium: { elem2: ["pop", "pop", "pop", "hydrogen"], chance: 0.01, temp1: 250 }, confetti: { elem2: [null, "cellulose"], chance: 0.001 }, greek_fire: { func: function (p, pixel) { if (!pixel.burning) { pixel.burning = true; pixel.burnStart = pixelTick; } }, }, }, state: "liquid", density: densityWater, conduct: 0.1, stain: -0.66, hidden: hiddenWater, }; elements["soap"].reactions[nameWater] = { elem1: ["foam", "bubble"], chance: 0.005 }; elements["radiation"].reactions[nameWater] = { elem1: "rad_steam", chance: 0.4 }; elements["iron"].reactions[nameWater] = { elem1: "rust", chance: 0.005 }; elements["copper"].reactions[nameWater] = { elem1: "oxidized_copper", chance: 0.005 }; elements["steel"].reactions[nameWater] = { elem1: "rust", chance: 0.004 }; elements["bronze"].reactions[nameWater] = { elem1: "oxidized_copper", chance: 0.0025 }; } eListAddIon(cation, [name, nameWater, "molten_" + name]); eListAddIon(anion, [name, nameWater, "molten_" + name]); eListAdd("WATER", nameWater); eListAdd("COMPOUND", name); } function toxic(name, chance) { Object.assign(elements[name].reactions, { blood: { elem1: null, elem2: "infection", chance: chance }, water: { elem1: null, elem2: "dirty_water", chance: chance }, soap: { elem1: null, chance: 0.02 }, plant: { elem1: null, elem2: "dead_plant", chance: chance }, evergreen: { elem1: null, elem2: "dead_plant", chance: chance }, cactus: { elem1: null, elem2: "dead_plant", chance: chance }, grass: { elem1: null, elem2: "dead_plant", chance: chance }, vine: { elem1: null, elem2: "dead_plant", chance: chance }, algae: { elem1: null, elem2: null, chance: chance }, kelp: { elem1: null, elem2: "dirty_water", chance: chance }, mushroom_spore: { elem1: null, elem2: null, chance: chance }, lichen: { elem1: null, elem2: null, chance: chance }, yeast: { elem1: null, elem2: null, chance: chance }, rat: { elem1: null, elem2: "rotten_meat", chance: chance }, frog: { elem1: null, elem2: "rotten_meat", chance: chance }, tadpole: { elem2: null, chance: chance }, fish: { elem1: null, elem2: "rotten_meat", chance: chance }, bird: { elem1: null, elem2: "rotten_meat", chance: chance }, head: { elem1: null, elem2: "rotten_meat", chance: chance }, body: { elem1: null, elem2: "rotten_meat", chance: chance }, homunculus: { elem1: null, elem2: "rotten_meat", chance: chance }, ant: { elem1: null, elem2: "dead_bug", chance: chance }, worm: { elem1: null, elem2: "dead_bug", chance: chance }, fly: { elem1: null, elem2: "dead_bug", chance: chance }, firefly: { elem1: null, elem2: "dead_bug", chance: chance }, bee: { elem1: null, elem2: "dead_bug", chance: chance }, stink_bug: { elem1: null, elem2: "dead_bug", chance: chance }, termite: { elem1: null, elem2: "dead_bug", chance: chance }, flea: { elem1: null, elem2: "dead_bug", chance: chance }, slug: { elem1: null, elem2: "slime", chance: chance }, snail: { elem1: null, elem2: "limestone", chance: chance }, sapling: { elem1: null, elem2: "dead_plant", chance: chance }, root: { elem1: null, elem2: "dead_plant", chance: chance }, flower_seed: { elem1: null, elem2: "dead_plant", chance: chance }, pistil: { elem1: null, elem2: "dead_plant", chance: chance }, petal: { elem1: null, elem2: "dead_plant", chance: chance }, grass_seed: { elem1: null, elem2: "dead_plant", chance: chance }, meat: { elem1: null, elem2: "rotten_meat", chance: chance }, cheese: { elem1: null, elem2: "rotten_cheese", chance: chance }, tree_branch: { elem1: null, elem2: "wood", chance: chance }, mushroom_cap: { elem1: null, elem2: null, chance: chance }, mushroom_gill: { elem1: null, elem2: null, chance: chance }, mushroom_stalk: { elem1: null, elem2: null, chance: chance }, hyphae: { elem1: null, elem2: null, chance: chance }, mycelium: { elem1: null, elem2: "dirt", chance: chance }, pollen: { elem2: null, chance: chance }, bone_marrow: { elem1: null, elem2: "rotten_meat", chance: chance }, hair: { elem1: null, elem2: null, chance: chance }, cell: { elem1: null, chance: chance }, cancer: { elem1: null, chance: chance }, }); } createSalt("salt", "salt_water", null, null, false, false, 0, 0, 0, 0, 0, "SODIUM", "CHLORIDE"); acidIgnore(["acid", "acid_gas", "acid_ice", "liquid_fluorine", "fluorine", "fluorine_ice", "hydrogen_fluoride", "liquid_hydrogen_fluoride", "hydrogen_fluoride_ice", "hydrofluoric_acid_ice", "hydrofluoric_acid", "hydrofluoric_acid_gas", "hydrofluoric_acid_cloud", "acid_cloud"]); elements.acid.name = "hydrochloricAcid"; elements.acid_gas.name = "hydrochloricAcidGas"; eListAddIon("CHLORIDE", ["acid", "acid_gas"], "acid"); eListAddIon("HYDROGEN", ["acid", "acid_gas"], "acid"); eListAddIon("FLUORIDE", ["hydrofluoric_acid", "hydrofluoric_acid_gas"], "acid"); eListAddIon("HYDROGEN", ["hydrofluoric_acid", "hydrofluoric_acid_gas"], "acid"); createAcid("generic_acid", defaultAcidReactions, defaultAcidGasReactions, "#80d488", true, true, 110, 100, -10, 400, 1020, 1); elements.generic_acid.name = "acid"; elements.generic_acid_gas.name = "acid_gas"; eLists.ACID.push("generic_acid"); eLists.ACIDGAS.push("generic_acid_gas"); if (!enabledMods.includes("mods/generative_mods.js")) { elements.acid_cloud.behavior = ["XX|XX|XX", "XX|CH:generic_acid%0.05|M1%2.5 AND BO", "XX|XX|XX"]; } createAcid("nitric_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#91993c", "#6b7041", "#5f614b"], false, false, 83, 70, -42, 400, 1500, 1.5, "NITRATE"); acidReact("nitric_acid", "ammonia", "fertilizer", null, 0); acidReact("nitric_acid_gas", "ammonia", "fertilizer", null, 0); eLists.ACID.push("nitric_acid"); eLists.ACIDGAS.push("nitric_acid_gas"); elements.nitric_oxide = { color: "#b8926c", behavior: behaviors.GAS, reactions: { steam: { elem1: "smog", elem2: null, chance: 0.01 }, oxygen: { elem1: "nitrogen_dioxide", elem2: null }, }, tempLow: -152, category: "gases", state: "gas", density: 1.34, }; toxic("nitric_oxide", 0.01); elements.liquid_nitric_oxide = { tempLow: -164, hidden: true, }; elements.nitrogen_dioxide = { color: "#964B00", behavior: behaviors.GAS, reactions: { steam: { elem1: "smog", elem2: null, chance: 0.01 }, }, temp: 30, tempLow: 21.15, category: "gases", state: "gas", density: 1.88, }; toxic("nitrogen_dioxide", 0.01); runAfterLoad(function () { reactList("nitrogen_dioxide", eLists.WATER, { elem1: null, elem2: "nitric_acid", chance: 0.01 }); }); runAfterLoad(function () { reactList("liquid_nitrogen_dioxide", eLists.WATER, { elem1: null, elem2: "nitric_acid", chance: 0.01 }); }); elements.liquid_nitrogen_dioxide = { tempLow: -9.3, hidden: true, reactions: structuredClone(elements.nitrogen_dioxide.reactions), }; if (enabledMods.includes("mods/generative_mods.js")) { elements["nitrogen_dioxide"].reactions["rain_cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["snow_cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["hail_cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["pyrocumulus"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["fire_cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["thunder_cloud"] = { elem1: null, elem2: "nitric_acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; } else { elements["nitrogen_dioxide"].reactions["rain_cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["snow_cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["hail_cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["pyrocumulus"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["fire_cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; elements["nitrogen_dioxide"].reactions["thunder_cloud"] = { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }; } acidIgnore(["nitric_oxide", "liquid_nitric_oxide", "nitric_oxide_ice", "nitrogen_dioxide", "liquid_nitrogen_dioxide", "nitrogen_dioxide_ice"]); elements.fertilizer = { color: "#e6c3a1", behavior: behaviors.POWDER, reactions: { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, }, tempHigh: 169.6, stateHigh: "fire", category: "powders", state: "solid", density: 1725, }; elements.ammonia.reactions["oxygen"] = { elem1: "steam", elem2: "nitric_oxide" }; 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,molten_lead,oxygen,molten_sodium,sulfur_gas,fluorine,neon,molten_potassium,chlorine,molten_calcium,molten_titanium,molten_nickel,molten_copper,molten_zinc,gallium_gas,bromine_gas,iodine_gas AND CH:neutronium,neutronium,quark_matter,void|XX", "XX|XX|XX"]; elements.gamma_ray_burst = { color: ["#fbf8ff", "#fbf3ff", "#f8f7ff"], behavior: ["XX|XX|XX", "XX|EX:100>plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,plasma,molten_gold,molten_uranium,molten_lead,molten_tungsten,molten_nickel,molten_copper,molten_zinc,gallium_gas,bromine_gas,iodine_gas,molten_tin,molten_silver AND CH:void|XX", "XX|XX|XX"], temp: 99999999700, category: "energy", state: "gas", density: 1000, hardness: 1, hidden: true, excludeRandom: true, maxSize: 1, }; elements.neutronium = { color: "#aaffff", behavior: ["XX|CR:neutron%0.1|XX", "CR:neutron%0.1|XX|CR:neutron%0.1", "XX|CR:neutron%0.1|XX"], temp: 1e6, tempHigh: 1e7, stateHigh: "liquid_neutronium", tempLow: 1e5, stateLow: ["molten_uranium", "molten_gold", "molten_tungsten", "molten_lead"], breakInto: ["gamma_ray_burst", "supernova", "supernova"], category: "special", state: "solid", density: 4e17, hardness: 0.999, excludeRandom: true, }; elements.liquid_neutronium = { color: "#ffffaa", behavior2: ["XX|CR:neutron%0.2|XX".split("|"), "M1 AND CR:neutron%0.2|XX|M1 AND CR:neutron%0.2".split("|"), "M1|M1|M1".split("|")], tick: function (pixel) { if (!isEmpty(pixel.x - 1, pixel.y, false) && (isEmpty(pixel.x - 1, pixel.y, true) || pixelMap[pixel.x - 1][pixel.y].element !== "liquid_neutronium") && !(outOfBounds(pixel.x - 1, pixel.y - 1) || !isEmpty(pixel.x - 1, pixel.y - 1, true))) { tryMove(pixel, pixel.x - 1, pixel.y - 1); } else if (!isEmpty(pixel.x + 1, pixel.y, false) && (isEmpty(pixel.x + 1, pixel.y, true) || pixelMap[pixel.x + 1][pixel.y].element !== "liquid_neutronium") && !(outOfBounds(pixel.x + 1, pixel.y - 1) || !isEmpty(pixel.x + 1, pixel.y - 1, true))) { tryMove(pixel, pixel.x + 1, pixel.y - 1); } else if (((!isEmpty(pixel.x + 1, pixel.y, false) && (isEmpty(pixel.x + 1, pixel.y, true) || pixelMap[pixel.x + 1][pixel.y].element !== "liquid_neutronium")) || (!isEmpty(pixel.x - 1, pixel.y, false) && (isEmpty(pixel.x - 1, pixel.y, true) || pixelMap[pixel.x - 1][pixel.y].element !== "liquid_neutronium"))) && !(outOfBounds(pixel.x, pixel.y - 1) || !isEmpty(pixel.x, pixel.y - 1, true))) { tryMove(pixel, pixel.x, pixel.y - 1); } else { pixelTick(pixel, elements.liquid_neutronium.behavior2); } doDefaults(pixel); }, temp: 2e7, tempLow: 1e7, stateLow: "neutronium", breakInto: ["gamma_ray_burst", "supernova", "supernova"], category: "special", state: "liquid", density: 2e17, hardness: 0.999, excludeRandom: true, }; elements.liquid_helium.behavior2 = ["XX|XX|XX".split("|"), "M1|XX|M1".split("|"), "M1|M1|M1".split("|")]; elements.liquid_helium.behavior = null; elements.liquid_helium.tick = function (pixel) { if (Math.random() < 0.9) { if (!isEmpty(pixel.x - 1, pixel.y, false) && (isEmpty(pixel.x - 1, pixel.y, true) || pixelMap[pixel.x - 1][pixel.y].element !== "liquid_helium") && !(outOfBounds(pixel.x - 1, pixel.y - 1) || !isEmpty(pixel.x - 1, pixel.y - 1, true))) { tryMove(pixel, pixel.x - 1, pixel.y - 1); } else if (!isEmpty(pixel.x + 1, pixel.y, false) && (isEmpty(pixel.x + 1, pixel.y, true) || pixelMap[pixel.x + 1][pixel.y].element !== "liquid_helium") && !(outOfBounds(pixel.x + 1, pixel.y - 1) || !isEmpty(pixel.x + 1, pixel.y - 1, true))) { tryMove(pixel, pixel.x + 1, pixel.y - 1); } else if (((!isEmpty(pixel.x + 1, pixel.y, false) && (isEmpty(pixel.x + 1, pixel.y, true) || pixelMap[pixel.x + 1][pixel.y].element !== "liquid_helium")) || (!isEmpty(pixel.x - 1, pixel.y, false) && (isEmpty(pixel.x - 1, pixel.y, true) || pixelMap[pixel.x - 1][pixel.y].element !== "liquid_helium"))) && !(outOfBounds(pixel.x, pixel.y - 1) || !isEmpty(pixel.x, pixel.y - 1, true))) { tryMove(pixel, pixel.x, pixel.y - 1); } else { pixelTick(pixel, elements.liquid_helium.behavior2); } } else { pixelTick(pixel, elements.liquid_helium.behavior2); } doDefaults(pixel); }; elements.quark_matter = { color: ["#ff0000", "#00ff00", "#0000ff"], behavior: ["XX|CR:neutron%0.1 AND CR:proton%0.1|XX", "M2 AND CR:neutron%0.1 AND CR:proton%0.1|XX|M2 AND CR:neutron%0.1 AND CR:proton%0.1", "M1|M1|M1"], tick: function (pixel) { pixel.color = pixelColorPick(pixel); }, temp: 2e7, breakInto: "gamma_ray_burst", category: "special", state: "liquid", density: 4e18, hardness: 0.999, excludeRandom: true, }; elements.sulfur.burnInto = ["sulfur_dioxide"]; elements.molten_sulfur.burnInto = ["sulfur_dioxide"]; elements.sulfur_gas.burnInto = ["sulfur_dioxide"]; elements.sulfur.reactions["hydrogen"] = { elem1: "hydrogen_sulfide", elem2: null }; elements.sulfur_dioxide = { color: "#FFF700", behavior: behaviors.GAS, reactions: { steam: { elem1: null, elem2: "sulfuric_acid_gas" }, acid_gas: { elem1: null, elem2: "sulfuric_acid_gas" }, //clouds rain_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, snow_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, hail_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, pyrocumulus: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, fire_cloud: { elem1: null, elem2: "acid_cloud", chance: 0.4, y: [0, 12], setting: "clouds" }, }, tempLow: -10, stateLow: "liquid_sulfur_dioxide", state: "gas", category: "gases", density: 2.6, }; toxic("sulfur_dioxide", 0.05); runAfterLoad(function () { reactList("sulfur_dioxide", eLists.WATER, { elem1: null, elem2: "sulfuric_acid" }); }); elements.liquid_sulfur_dioxide = { color: "#d1cb17", behavior: behaviors.LIQUID, category: "liquids", reactions: elements.sulfur_dioxide.reactions, tempHigh: -10, temp: -15, tempLow: -72, stateHigh: "sulfur_dioxide", state: "liquid", hidden: true, density: 1435, }; elements.hydrogen_sulfide = { color: "#d9e366", behavior: behaviors.GAS, reactions: { oxygen: { elem2: "stench" }, nitrogen: { elem2: "stench" }, baking_soda: { elem1: null }, }, category: "gases", tempHigh: 1000, stateHigh: "fire", state: "gas", density: 1.539, tempLow: -59.55, burn: 1, burnTime: 10, burnInto: ["sulfur_dioxide", "steam"], fireColor: ["#8180CC", "#7F84E6"], }; toxic("hydrogen_sulfide", 0.005); runAfterLoad(function () { reactList("hydrogen_sulfide", eLists.WATER, { elem1: null, elem2: "dirty_water" }); delete elements.hydrogen_sulfide.reactions["dirty_water"]; delete elements.hydrogen_sulfide.reactions["iron_dichloride_solution"]; }); acidIgnore(["sulfur_dioxide", "liquid_sulfur_dioxide", "sulfur_dioxide_ice"]); elements.acid.ignore.push("liquid_hydrogen_sulfide"); elements.acid_gas.ignore.push("liquid_hydrogen_sulfide"); acidReact("acid", "pyrite", "iron_dichloride_solution", "hydrogen_sulfide", 50); acidReact("acid_gas", "pyrite", "iron_dichloride_solution", "hydrogen_sulfide", 50); function blendColors(colorA, colorB, amount = 0.5) { const [rA, gA, bA] = colorA.match(/\w\w/g).map((c) => parseInt(c, 16)); const [rB, gB, bB] = colorB.match(/\w\w/g).map((c) => parseInt(c, 16)); const r = Math.round(rA + (rB - rA) * amount) .toString(16) .padStart(2, "0"); const g = Math.round(gA + (gB - gA) * amount) .toString(16) .padStart(2, "0"); const b = Math.round(bA + (bB - bA) * amount) .toString(16) .padStart(2, "0"); return "#" + r + g + b; } createSalt("iron_dichloride", "iron_dichloride_solution", ["#207d09", "#b51259"], [blendColors("#207d09", "#2167ff", 0.5), blendColors("#b51259", "#2167ff", 0.5)], false, true, 307.6, -2, 102, 2900, 1030, "IRONII", "CHLORIDE"); createAcid("sulfuric_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#e9e05e", "#c2bd7a", "#9e9c7b"], false, false, 337, 337, 10, 500, 1830, 1.26, "SULFATE"); elements.sulfuric_acid.ignore.push("charcoal"); elements.sulfuric_acid_gas.ignore.push("charcoal"); runAfterLoad(function () { reactList("sulfuric_acid", eLists.WATER, { elem2: "dirty_water" }); reactList("sulfuric_acid_gas", eLists.WATER, { elem2: "dirty_water" }); delete elements.sulfuric_acid.reactions["dirty_water"]; delete elements.sulfuric_acid_gas.reactions["dirty_water"]; }); elements.sulfuric_acid.reactions["grape"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["juice"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["corn"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["popcorn"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["potato"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["bread"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["toast"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["wheat"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["flour"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["dough"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["sugar"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid.reactions["candy"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; delete elements.sulfuric_acid.reactions["charcoal"]; elements.sulfuric_acid_gas.reactions["chocolate"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["grape"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["juice"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["corn"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["popcorn"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["potato"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["bread"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["toast"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["wheat"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["flour"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["dough"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["sugar"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; elements.sulfuric_acid_gas.reactions["candy"] = { elem1: "charcoal", elem2: "steam", temp2: 200 }; delete elements.sulfuric_acid_gas.reactions["charcoal"]; acidReact("sulfuric_acid", "magnesium_oxide", "epsom_salt", null, 50); acidReact("sulfuric_acid_gas", "magnesium_oxide", "epsom_salt", null, 50); eLists.ACID.push("sulfuric_acid"); eLists.ACIDGAS.push("sulfuric_acid_gas"); elements.polytetrafluoroethylene = { color: "#efefef", behavior: behaviors.WALL, properties: { colored: false, }, tick: function (pixel) { if (!pixel.colored) { let rgb = elements.polytetrafluoroethylene.colorObject; let coloroffset = Math.floor(Math.random() * (Math.random() > 0.5 ? -1 : 1) * Math.random() * 2); let r = rgb.r + coloroffset; let g = rgb.g + coloroffset; let b = rgb.b + coloroffset; pixel.color = "rgb(" + r + "," + g + "," + b + ")"; pixel.colored = true; pixel.origColor = pixel.color.match(/\d+/g); } if (pixel.origColor != pixel.color) { pixel.color = "rgb(" + pixel.origColor.join(",") + ")"; } }, state: "solid", category: "solids", density: 1450, tempHigh: 327, }; acidIgnore(["polytetrafluoroethylene", "molten_polytetrafluoroethylene", "tetrafluoroethylene"]); doStaining = function (pixel) { if (settings["stainoff"]) { return; } var stain = elements[pixel.element].stain; let newColor = null; if (stain > 0) { newColor = pixel.color.match(/\d+/g); } else { newColor = null; } for (var i = 0; i < adjacentCoords.length; i++) { var x = pixel.x + adjacentCoords[i][0]; var y = pixel.y + adjacentCoords[i][1]; if (!isEmpty(x, y, true)) { var newPixel = pixelMap[x][y]; if ((elements[pixel.element].ignore && elements[pixel.element].ignore.indexOf(newPixel.element) !== -1) || newPixel.element == "polytetrafluoroethylene") { continue; } if ((elements[newPixel.element].id !== elements[pixel.element].id || elements[newPixel.element].stainSelf) && (solidStates[elements[newPixel.element].state] || elements[newPixel.element].id === elements[pixel.element].id)) { if (Math.random() < Math.abs(stain)) { if (stain < 0) { if (newPixel.origColor) { newColor = newPixel.origColor; } else { continue; } } else if (!newPixel.origColor) { newPixel.origColor = newPixel.color.match(/\d+/g); } // if newPixel.color doesn't start with rgb, continue if (!newPixel.color.match(/^rgb/)) { continue; } // parse rgb color string of newPixel rgb(r,g,b) var rgb = newPixel.color.match(/\d+/g); let avg = []; if (elements[pixel.element].stainSelf && elements[newPixel.element].id === elements[pixel.element].id) { // if rgb and newColor are the same, continue if (rgb[0] === newColor[0] && rgb[1] === newColor[1] && rgb[2] === newColor[2]) { continue; } for (var j = 0; j < rgb.length; j++) { avg[j] = Math.round(rgb[j] * (1 - Math.abs(stain)) + newColor[j] * Math.abs(stain)); } } else { // get the average of rgb and newColor, more intense as stain reaches 1 for (let j = 0; j < rgb.length; j++) { avg[j] = Math.floor(rgb[j] * (1 - Math.abs(stain)) + newColor[j] * Math.abs(stain)); } } // set newPixel color to avg newPixel.color = "rgb(" + avg.join(",") + ")"; } } } } }; elements["bleach"].reactions.vinegar = { elem1: "chlorine", elem2: null }; elements["bleach"].reactions.alcohol = { elem1: "chloroform", elem2: null }; elements["chlorine"].reactions.methane = { elem1: "chloroform", elem2: null }; elements.chloroform = { color: "#7f7f7f", behavior: behaviors.LIQUID, reactions: elements.poison.reactions, state: "liquid", category: "liquids", density: 1564, tempLow: -63, tempHigh: 61, }; elements.chloroform_gas = { color: "#8f8f8f", behavior: behaviors.GAS, reactions: elements.poison.reactions, state: "gas", hidden: true, density: 4.12, tempLow: 61, stateLow: "chloroform", }; elements["chloroform_gas"].reactions.hydrogen_fluoride = { elem1: "tetrafluoroethylene", elem2: null, tempMin: 550 }; elements.tetrafluoroethylene = { color: "#8f8f8f", behavior: behaviors.GAS, reactions: { oxygen: { elem1: "fire", elem2: "fire" }, sulfuric_acid: { elem1: "polytetrafluoroethylene", elem2: "sulfuric_acid", chance: 0.25 }, sulfuric_acid_gas: { elem1: "polytetrafluoroethylene", elem2: "sulfuric_acid_gas", chance: 0.25 }, }, state: "gas", hidden: true, burn: 100, burnTime: 2, density: 1.52, category: "gases", }; elements.methanol = { color: "#969380", behavior: behaviors.LIQUID, reactions: { plant: { elem2: "dead_plant", elem1: null, chance: 0.05 }, cell: { elem2: [null, "dna"], chance: 0.075 }, blood: { elem2: [null, "dna"], chance: 0.075 }, antibody: { elem2: [null, "dna"], chance: 0.075 }, infection: { elem2: [null, "dna"], chance: 0.075 }, cancer: { elem2: [null, "dna"], chance: 0.0375 }, flea: { elem2: "dead_bug", elem1: null }, termite: { elem2: "dead_bug", elem1: null }, ant: { elem2: "dead_bug", elem1: null }, frog: { elem2: "meat", chance: 0.05 }, evergreen: { elem2: "dead_plant", chance: 0.05 }, cactus: { elem2: "dead_plant", chance: 0.05 }, paper: { elem2: "cellulose" }, primordial_soup: { elem2: "water" }, }, state: "liquid", category: "liquids", density: 792, tempLow: -97.6, tempHigh: 64.7, burn: 100, burnTime: 3, fireColor: ["#80acf0", "#96cdfe", "#bee6d4"], }; elements.carbon_dioxide.reactions.hydrogen = { elem1: "steam", elem2: "methanol", tempMin: 100 }; elements.polyethylene = { color: "#a7a7a7", behavior: behaviors.WALL, properties: { colored: false, }, tick: function (pixel) { if (!pixel.colored) { let rgb = elements.polyethylene.colorObject; let coloroffset = Math.floor(Math.random() * (Math.random() > 0.5 ? -1 : 1) * Math.random() * 2); let r = rgb.r + coloroffset; let g = rgb.g + coloroffset; let b = rgb.b + coloroffset; pixel.color = "rgb(" + r + "," + g + "," + b + ")"; pixel.colored = true; pixel.origColor = pixel.color.match(/\d+/g); } }, state: "solid", category: "solids", density: 1450, tempHigh: 125, }; elements.ethane = { color: "#afafaf", behavior: behaviors.GAS, reactions: { steam: { elem1: "hydrogen", elem2: "ethylene", chance: 0.01 }, chlorine: { elem1: "chloroethane", elem2: null, chance: 0.01 }, }, category: "gases", tempHigh: 400, stateHigh: "fire", tempLow: -88.5, burn: 85, burnTime: 5, fireColor: ["#00ffff", "#00ffdd"], state: "gas", density: 1.356, }; elements.chloroethane = { color: "#afdfaf", behavior: behaviors.GAS, reactions: { aluminum: { elem1: "diethylaluminium_chloride", elem2: null, chance: 0.1 }, }, category: "gases", tempHigh: 510, stateHigh: "fire", tempLow: 12.27, burn: 85, burnTime: 5, fireColor: ["#00ffff", "#00ffdd"], state: "gas", density: 2.879, }; elements.diethylaluminium_chloride = { color: "#7faf7f", behavior: behaviors.LIQUID, category: "liquids", hidden: true, tempHigh: 125, stateHigh: "fire", tempLow: -74, burn: 85, burnTime: 10, state: "liquid", density: 2.879, }; elements.ethylene = { color: "#a7a7a7", behavior: behaviors.GAS, reactions: { titanium_trichloride: { elem1: "polyethylene", elem2: "titanium_trichloride", chance: 0.1 }, acid_gas: { elem1: "chloroethane", elem2: null }, diethylaluminium_chloride: { elem1: "polyethylene", elem2: "diethylaluminium_chloride", chance: 0.1 }, }, category: "gases", tempHigh: 400, stateHigh: "fire", tempLow: -103.7, burn: 85, burnTime: 5, fireColor: ["#00ffff", "#00ffdd"], state: "gas", density: 1.356, }; elements.liquid_ethylene = { tempHigh: -103.7, stateHigh: "ethylene", tempLow: -154.4, }; elements.liquid_ethane = { tempHigh: -88.5, stateHigh: "ethane", tempLow: -128.2, }; elements.liquid_ethylene = { tempHigh: -103.7, stateHigh: "ethylene", tempLow: -169.2, }; elements.liquid_ethane = { tempHigh: -88.5, stateHigh: "ethane", tempLow: -182.8, }; elements.liquid_chloroethane = { tempHigh: -12.27, stateHigh: "chloroethane", tempLow: -138.7, }; elements.liquid_propane = { tempHigh: -42.25, stateHigh: "propane", tempLow: -187.7, }; elements.acid.ignore.push("ethylene", "ethylene_ice", "liquid_ethylene", "chloroethane", "chloroethane_ice", "liquid_chloroethane"); elements.acid_gas.ignore.push("ethylene", "ethylene_ice", "liquid_ethylene", "chloroethane", "chloroethane_ice", "liquid_chloroethane"); elements.titanium = { color: "#e3e5e6", category: "solids", density: 4500, state: "solid", behavior: behaviors.WALL, reactions: { acid: { elem1: "titanium_trichloride", elem2: null }, }, stateHigh: "molten_titanium", tempHigh: 1668, conduct: 0.5, hardness: 0.7, forceAutoGen: true, }; elements.molten_titanium = { color: ["#e0921d", "#e89e2e", "#f7b24a", "#fce168", "#fceca2", "#fffcf0"], viscosity: 10000, }; elements.rutile = { color: "#522614", behavior: behaviors.POWDER, category: "land", density: 4240, state: "solid", tempHigh: 1843, stateHigh: "molten_rutile", forceAutoGen: true, }; elements.molten_rutile = { color: ["#e3907f", "#e68f3e"], reactions: { chlorine: { elem1: "titanium_tetrachloride", elem2: null }, }, viscosity: 10000, }; elements.titanium_tetrachloride = { color: "#d9d7b2", behavior: behaviors.LIQUID, category: "liquids", density: 1728, state: "liquid", tempHigh: 136.4, stateHighName: "titanium_tetrachloride_gas", tempLow: -24, stateLowName: "solid_titanium_tetrachloride", }; eListAddIon("TITANIUMIV", "solid_titanium_tetrachloride"); eListAddIon("CHLORIDE", "solid_titanium_tetrachloride"); eListAddIon("TITANIUMIV", "titanium_tetrachloride"); eListAddIon("CHLORIDE", "titanium_tetrachloride"); eListAddIon("TITANIUMIV", "titanium_tetrachloride_gas"); eListAddIon("CHLORIDE", "titanium_tetrachloride_gas"); eListAdd("INSOLUBLE", "titanium_tetrachloride"); elements.titanium_tetrachloride_gas = { behavior: behaviors.GAS, hidden: true, category: "gases", density: 500, state: "gas", temp: 200, tempLow: 136.4, stateLow: "titanium_tetrachloride", }; elements.solid_titanium_tetrachloride = { behavior: behaviors.WALL, hidden: true, category: "solids", density: 1728, state: "solid", temp: -50, tempHigh: -24, stateHigh: "titanium_tetrachloride", }; createSalt("titanium_trichloride", "titanium_trichloride_solution", "#c71585", blendColors("#c71585", "#2167ff", 0.4), false, true, 440, -2, 102, 2640, 1020, "TITANIUMIII", "CHLORIDE"); elements["titanium_trichloride"].behavior = behaviors.SOLID; elements["titanium_trichloride"].category = "solids"; elements["titanium_trichloride"].stateHigh = ["chlorine", "titanium_tetrachloride"]; delete elements["molten_titanium_trichloride"]; elements.magnesium.burnInto = "magnesium_oxide"; elements.molten_magnesium.burnInto = "magnesium_oxide"; elements.molten_magnesium.reactions = { titanium_tetrachloride: { elem1: "titanium", elem2: "magnesium_chloride" }, titanium_tetrachloride_gas: { elem1: "titanium", elem2: "magnesium_chloride" }, }; elements.magnesium_oxide = { color: "#f0f0f0", behavior: behaviors.POWDER, reactions: { quicklime: { elem1: "cement", elem2: null }, }, category: "powders", density: 3600, state: "solid", tempHigh: 2852, }; eListAdd("INSOLUBLE", "magnesium_oxide"); eListAddIon("MAGNESIUM", "magnesium_oxide"); eListAddIon("OXIDE", "magnesium_oxide"); eListAddIon("MAGNESIUM", "molten_magnesium_oxide"); eListAddIon("OXIDE", "molten_magnesium_oxide"); elements.molten_magnesium_chloride = { behaviorOn: ["XX|CR:fire%2.5|XX", "M2|CH:chlorine,magnesium%25|M2", "M1|M1|M1"], conduct: 0.3, }; createSalt("magnesium_chloride", "magnesium_chloride_solution", "#bfbfbf", blendColors("#bfbfbf", "#2167ff", 0.75), false, true, 714, -2, 102, 2320, 1015, "MAGNESIUM", "CHLORIDE"); elements.magnesium_chloride.forceAutoGen = true; elements.francium = { color: "#3eff3b", behavior: ["XX|CR:radiation%50|XX", "CR:radiation%50|CH:radon%0.1|CR:radiation%50", "M2|M1|M2"], tick: function (pixel) { pixel.temp += 5; }, reactions: { steam: { elem1: "radon", elem2: [null, null, "rad_pop"] }, rad_steam: { elem1: "radon", elem2: [null, null, "rad_pop"] }, quark_matter: { elem1: "stable_francium", elem2: "quark_matter" }, }, tempHigh: 27, category: "powders", state: "solid", density: 2480, conduct: 0.7, }; runAfterLoad(function () { reactList("francium", eLists.WATER, { elem1: "radon", elem2: [null, null, "rad_pop"] }); }); elements.molten_francium = { behavior: ["XX|CR:radiation%50|XX", "M2 AND CR:radiation%50|CH:radon%0.1|M2 AND CR:radiation%50", "M1|M1|M1"], tick: function (pixel) { pixel.temp += 5; }, reactions: { steam: { elem1: "radon", elem2: [null, null, "rad_pop"] }, rad_steam: { elem1: "radon", elem2: [null, null, "rad_pop"] }, quark_matter: { elem1: "stable_francium", elem2: "quark_matter" }, }, tempLow: 27, hidden: true, state: "liquid", density: 2480, conduct: 0.7, }; runAfterLoad(function () { reactList("molten_francium", eLists.WATER, { elem1: "radon", elem2: [null, null, "rad_pop"] }); }); elements.astatine = { color: "#5a5e5a", behavior: ["XX|CR:radiation%50|XX", "CR:radiation%50|CH:polonium,big_pop%0.1|CR:radiation%50", "M2|M1|M2"], tick: function (pixel) { pixel.temp += 5; }, reactions: { quark_matter: { elem1: "stable_astatine", elem2: "quark_matter" }, }, tempHigh: 301, category: "powders", state: "solid", density: 8910, }; elements.molten_astatine = { color: "#aab0a0", behavior: ["XX|CR:radiation%50|XX", "M2 AND CR:radiation%50|CH:polonium,big_pop%0.1|M2 AND CR:radiation%50", "M1|M1|M1"], reactions: { quark_matter: { elem1: "molten_stable_astatine", elem2: "quark_matter" }, }, tick: function (pixel) { pixel.temp += 5; }, tempLow: 301, hidden: true, state: "liquid", density: 8910, tempHigh: 336, }; elements.astatine_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%50", "XX"], ["CR:radiation%50", "CH:polonium,big_pop%0.1", "CR:radiation%50"], ["XX", "CR:radiation%50", "XX"], ], reactions: { quark_matter: { elem1: "molten_stable_astatine", elem2: "quark_matter" }, }, tick: function (pixel) { pixel.temp += 5; pixelTick(pixel, elements[pixel.element].behavior2); }, }; elements.radon = { color: "#b6ffb5", behavior: ["M2|M1 AND CR:radiation%10|M2", "M1 AND CR:radiation%10|CH:polonium%0.1|M1 AND CR:radiation%10", "M2|M1 AND CR:radiation%10|M2"], reactions: { quark_matter: { elem1: "stable_radon", elem2: "quark_matter" }, }, tick: function (pixel) { pixel.temp += 1; }, category: "gases", state: "gas", density: 9.73, colorOn: ["#b224ff", "#cc6caa", "#a16ccc"], conduct: 0.86, }; elements.polonium = { color: "#56b870", behavior: ["XX|CR:radiation%10|XX", "CR:radiation%10|CH:lead%0.1|CR:radiation%10", "XX|CR:radiation%10|XX"], reactions: { quark_matter: { elem1: "stable_polonium", elem2: "quark_matter" }, }, tick: function (pixel) { pixel.temp += 1; }, tempHigh: 254, category: "solids", state: "solid", density: 9196, conduct: 0.21, }; elements.molten_polonium = { color: ["#ace638", "#acb838", "#ac8a00"], behavior: ["XX|CR:fire AND CR:radiation%12.5|XX", "M2 AND CR:radiation%10|CH:lead%0.1|M2 AND CR:radiation%10", "M1|M1|M1"], reactions: { quark_matter: { elem1: "molten_stable_polonium", elem2: "quark_matter" }, }, tick: function (pixel) { pixel.temp += 1; }, tempLow: 254, hidden: true, state: "liquid", density: 9196, conduct: 0.21, }; elements.rad_pop = { color: ["#ffb48f", "#ffd991", "#ffad91"], behavior: ["XX|XX|XX", "XX|EX:10>fire,radiation,radiation|XX", "XX|XX|XX"], category: "energy", state: "gas", density: 1000, excludeRandom: true, hidden: true, }; elements.stable_radon = { color: [blendColors("#b6ffb5", "#ff0000"), blendColors("#b6ffb5", "#00ff00"), blendColors("#b6ffb5", "#0000ff")], behavior: behaviors.GAS, category: "gases", state: "gas", density: 9.73, hidden: true, tempLow: -61.7, colorOn: ["#b224ff", "#cc6caa", "#a16ccc"], conduct: 0.86, }; elements.liquid_stable_radon = { tempLow: -71, density: 4400, colorOn: ["#b224ff", "#cc6caa", "#a16ccc"], conduct: 0.86, }; elements.stable_polonium = { color: [blendColors("#56b870", "#ff0000"), blendColors("#56b870", "#00ff00"), blendColors("#56b870", "#0000ff")], behavior: behaviors.WALL, reactions: { oxygen: { elem1: "polonium_dioxide", elem2: null }, }, tempHigh: 254, hidden: true, category: "solids", state: "solid", density: 9196, conduct: 0.21, }; elements.molten_stable_polonium = { color: [blendColors("#ace638", "#ff0000"), blendColors("#acb838", "#00ff00"), blendColors("#ac8a00", "#0000ff")], behavior: behaviors.MOLTEN, reactions: { oxygen: { elem1: "polonium_dioxide", elem2: null }, magnesium: { elem1: "magnesium_polonide", elem2: null }, molten_magnesium: { elem1: "magnesium_polonide", elem2: null }, }, tempLow: 254, hidden: true, state: "liquid", density: 9196, conduct: 0.21, }; elements.stable_astatine = { color: [blendColors("#5a5e5a", "#ff0000"), blendColors("#5a5e5a", "#00ff00"), blendColors("#5a5e5a", "#0000ff")], behavior: behaviors.POWDER, tempHigh: 301, reactions: { steam: { elem1: "hydroastatic_acid", elem2: null }, rad_steam: { elem1: "hydroastatic_acid", elem2: null }, }, category: "powders", state: "solid", hidden: true, density: 8910, }; runAfterLoad(function () { reactList("stable_astatine", eLists.WATER, { elem1: "hydroastatic_acid", elem2: null }); }); elements.molten_stable_astatine = { color: [blendColors("#aab0a0", "#ff0000"), blendColors("#aab0a0", "#00ff00"), blendColors("#aab0a0", "#0000ff")], behavior: behaviors.LIQUID, tempLow: 301, reactions: { steam: { elem1: "hydroastatic_acid", elem2: null }, rad_steam: { elem1: "hydroastatic_acid", elem2: null }, }, hidden: true, state: "liquid", density: 8910, tempHigh: 336, }; runAfterLoad(function () { reactList("molten_stable_astatine", eLists.WATER, { elem1: "hydroastatic_acid", elem2: null }); }); createAcid("hydroastatic_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), [blendColors("#5a5e5a", "#ff0000", 0.25), blendColors("#5a5e5a", "#00ff00", 0.25), blendColors("#5a5e5a", "#0000ff", 0.25)], true, true, 100, 100, 0, 1000, 1200, 1, "ASTATIDE"); elements.hydroastatic_acid.ignore.push("astatine", "molten_astatine", "stable_astatine", "molten_stable_astatine"); elements.hydroastatic_acid_gas.ignore.push("astatine", "molten_astatine", "stable_astatine", "molten_stable_astatine"); eLists.ACID.push("hydroastatic_acid"); eLists.ACIDGAS.push("hydroastatic_acid_gas"); runAfterLoad(function () { reactList("hydroastatic_acid", eLists.WATER, { elem2: "dirty_water" }); reactList("hydroastatic_acid_gas", eLists.WATER, { elem2: "dirty_water" }); delete elements.hydroastatic_acid.reactions["dirty_water"]; delete elements.hydroastatic_acid_gas.reactions["dirty_water"]; }); elements.polonium_dioxide = { color: [blendColors("#ffff7f", "#ff0000"), blendColors("#ffff7f", "#00ff00"), blendColors("#ffff7f", "#0000ff")], behavior: behaviors.POWDER, tempHigh: 500, hidden: true, state: "solid", density: 8900, category: "powders", }; eListAdd("INSOLUBLE", "polonium_dioxide"); eListAddIon("POLONIUMIV", "polonium_dioxide"); eListAddIon("OXIDE", "polonium_dioxide"); eListAddIon("POLONIUMIV", "molten_polonium_dioxide"); eListAddIon("OXIDE", "molten_polonium_dioxide"); createSalt("magnesium_polonide", "magnesium_polonide_solution", [blendColors("#b5b5b5", "#ff0000", 0.25), blendColors("#b5b5b5", "#00ff00", 0.25), blendColors("#b5b5b5", "#0000ff", 0.25)], [blendColors("#2167ff", "#ff0000", 0.25), blendColors("#2167ff", "#00ff00", 0.25), blendColors("#2167ff", "#0000ff", 0.25)], true, true, 1800, -2, 102, 6700, 1050, "MAGNESIUM", "POLONIDE"); acidReact("acid", "magnesium_polonide", "magnesium_chloride_solution", "polonium_hydride", 100); acidReact("acid_gas", "magnesium_polonide", "magnesium_chloride_solution", "polonium_hydride", 100); acidReact("acid", "molten_magnesium_polonide", "magnesium_chloride_solution", "polonium_hydride", 100); acidReact("acid_gas", "molten_magnesium_polonide", "magnesium_chloride_solution", "polonium_hydride", 100); elements.acid.ignore.push("polonium_hydride_ice", "polonium_hydride_gas", "magnesium_chloride"); elements.acid_gas.ignore.push("polonium_hydride_ice", "polonium_hydride_gas", "magnesium_chloride"); elements.polonium_hydride = { density: 2450, color: [blendColors("#838396", "#ff0000"), blendColors("#838396", "#00ff00"), blendColors("#838396", "#0000ff")], hidden: true, state: "liquid", behavior: behaviors.LIQUID, tempLow: -35.3, tempHigh: 36.1, stain: 0.05, burn: 1, burnTime: 10, burnInto: ["polonium_dioxide", "steam"], category: "liquids", }; elements.polonium_hydride_gas = { density: 8.29, }; function franciumHydroxide(pixel) { elementCircle(pixel.x, pixel.y, 10, "francium_hydroxide", 0.1, eLists.WATER.concat(["steam", "rad_steam"])); } elements.stable_francium = { color: [blendColors("#3eff3b", "#ff0000"), blendColors("#3eff3b", "#00ff00"), blendColors("#3eff3b", "#0000ff")], behavior: behaviors.POWDER, reactions: { steam: { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }, rad_steam: { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }, }, tempHigh: 27, category: "powders", state: "solid", density: 2480, hidden: true, conduct: 0.7, }; runAfterLoad(function () { reactList("stable_francium", eLists.WATER, { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }); }); elements.molten_stable_francium = { behavior: behaviors.LIQUID, reactions: { steam: { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }, rad_steam: { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }, }, tempLow: 27, state: "liquid", hidden: true, density: 2480, conduct: 0.7, }; runAfterLoad(function () { reactList("molten_stable_francium", eLists.WATER, { elem1: "francium_hydroxide", elem2: [null, null, "big_pop"], func: franciumHydroxide }); }); elements.big_pop = { color: ["#ffb48f", "#ffd991", "#ffad91"], behavior: ["XX|XX|XX", "XX|EX:10|XX", "XX|XX|XX"], category: "energy", state: "gas", density: 1000, excludeRandom: true, hidden: true, }; createSalt("potassium_salt", "potassium_salt_water", ["#f2f2f2", "#e0e0e0"], "#416ed1", false, false, 292, -2, 102, 3980, 1026, "POTASSIUM", "CHLORIDE"); elements.potassium.reactions = { chlorine: { elem1: "potassium_salt", elem2: null, chance: 0.05 }, smog: { elem1: ["potassium_hydroxide", "pop"], elem2: ["hydrogen", "pop", "fire"], chance: 0.01, temp2: 400 }, electric: { elem1: [null, "pop"], elem2: ["pop", "fire"], chance: 0.05, temp2: 400 }, }; runAfterLoad(function () { reactList("potassium", eLists.WATER, { elem1: ["potassium_hydroxide", "pop"], elem2: ["hydrogen", "pop", "fire"], chance: 0.01, temp2: 400 }); }); elements.molten_potassium.reactions = { chlorine: { elem1: "potassium_salt", elem2: null, chance: 0.05 }, smog: { elem1: ["potassium_hydroxide", "pop"], elem2: ["hydrogen", "pop", "fire"], chance: 0.01, temp2: 400 }, electric: { elem1: [null, "pop"], elem2: ["pop", "fire"], chance: 0.05, temp2: 400 }, }; runAfterLoad(function () { reactList("molten_potassium", eLists.WATER, { elem1: ["potassium_hydroxide", "pop"], elem2: ["hydrogen", "pop", "fire"], chance: 0.01, temp2: 400 }); }); elements.molten_salt = {}; elements.molten_potassium_salt = {}; elements.molten_salt.reactions = {}; elements.molten_salt.reactions.aluminum = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0025 }; elements.molten_salt.reactions.zinc = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.015 }; elements.molten_salt.reactions.steel = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0125 }; elements.molten_salt.reactions.iron = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0125 }; elements.molten_salt.reactions.tin = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.01 }; elements.molten_salt.reactions.lead = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.01 }; elements.molten_salt.reactions.brass = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.001 }; elements.molten_salt.reactions.bronze = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.001 }; elements.molten_salt.reactions.copper = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_salt.reactions.silver = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_salt.reactions.gold = { elem1: ["sodium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_salt.conduct = 0.7; elements.molten_potassium_salt.reactions = {}; elements.molten_potassium_salt.reactions.aluminum = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0025 }; elements.molten_potassium_salt.reactions.zinc = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.015 }; elements.molten_potassium_salt.reactions.steel = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0125 }; elements.molten_potassium_salt.reactions.iron = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0125 }; elements.molten_potassium_salt.reactions.tin = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.01 }; elements.molten_potassium_salt.reactions.lead = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.01 }; elements.molten_potassium_salt.reactions.brass = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.001 }; elements.molten_potassium_salt.reactions.bronze = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.001 }; elements.molten_potassium_salt.reactions.copper = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_potassium_salt.reactions.silver = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_potassium_salt.reactions.gold = { elem1: ["potassium", "chlorine"], charged: true, chance: 0.0075 }; elements.molten_potassium_salt.conduct = 0.7; elements.molten_potassium_salt.burn = 0; elements.molten_potassium.burn = 0; //Hall–Heroult process elements.molten_cryolite_solution = {}; elements.molten_cryolite_solution.reactions = {}; elements.molten_cryolite_solution.reactions.charcoal = { elem1: "molten_aluminum", elem2: "carbon_dioxide" }; elements.niter = { color: "#f0efcc", behavior: behaviors.POWDER, reactions: { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, sulfur: { elem1: "gunpowder", elem2: null }, ice: { elem1: null, elem2: "niter_solution", chance: 0.1 }, rime: { elem1: null, elem2: "niter_solution", chance: 0.075 }, snow: { elem1: null, elem2: "niter_solution", chance: 0.25 }, packed_snow: { elem1: null, elem2: "niter_solution", chance: 0.05 }, packed_ice: { elem1: null, elem2: "niter_solution", chance: 0.01 }, water: { elem2: "niter_solution", elem1: null }, }, tempHigh: 334, stateHigh: "fire", category: "powders", state: "solid", density: 2109, }; createSalt("niter", "niter_solution", "#f0efcc", blendColors("#f0efcc", "#2167ff", 0.75), false, true, 334, -2, 102, 2109, 1011, "POTASSIUM", "NITRATE"); elements["niter"].stateHigh = "fire"; elements["niter"].reactions = Object.assign(elements["niter"].reactions, { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, sulfur: { elem1: "gunpowder", elem2: null }, }); elements["niter_solution"].reactions = Object.assign(elements["niter_solution"].reactions, { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, sulfur: { elem1: "gunpowder", elem2: "water" }, }); delete elements["molten_niter"]; elements.potassium_salt.hidden = false; elements.fluorite = { color: ["#8fc4f2", "#d0e5f7"], behavior: behaviors.POWDER, category: "land", density: 3180, state: "solid", tempHigh: 1418, reactions: { sulfuric_acid: { elem1: "hydrogen_fluoride", elem2: "chalk" }, }, }; eListAddIon("CALCIUM", "fluorite"); eListAddIon("FLUORIDE", "fluorite"); eListAddIon("CALCIUM", "molten_fluorite"); eListAddIon("FLUORIDE", "molten_fluorite"); eListAdd("INSOLUBLE", "fluorite"); eListAddIon("CALCIUM", "chalk"); eListAddIon("SULFATE", "chalk"); eListAddIon("CALCIUM", "molten_chalk"); eListAddIon("SULFATE", "molten_chalk"); eListAdd("INSOLUBLE", "chalk"); elements.sulfuric_acid.ignore.push("chalk", "fluorite"); elements.sulfuric_acid_gas.ignore.push("chalk", "fluorite"); elements.hydrogen_fluoride.ignore.push("chalk", "fluorite"); elements.liquid_hydrogen_fluoride.ignore.push("chalk", "fluorite"); elements.chalk = { color: ["#e0e0e0", "#bfbfbf"], behavior: behaviors.POWDER, category: "land", density: 2320, state: "solid", tempHigh: 1460, stain: 0.05, }; elements.sulfur.reactions.fluorine = { elem1: "sulfur_hexafluoride", elem2: "fire" }; elements.sulfur_hexafluoride = { color: "#f2ff00", behavior: behaviors.GAS, category: "gases", density: 6.17, state: "gas", tempLow: -50.8, }; elements.liquid_sulfur_hexafluoride = { tempLow: -64, }; createAcid("hexafluorosilicic_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#ebeed8", "#f9ffc2", "#c7e189"], true, true, 100, 100, 0, 1000, 1460, 1, "HEXAFLUOROSILICATE"); eLists.ACID.push("hexafluorosilicic_acid"); eLists.ACIDGAS.push("hexafluorosilicic_acid_gas"); elements.hydrofluoric_acid.ignore.push("sand", "hexafluorosilicic_acid", "hexafluorosilicic_acid_gas", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide", "hydrogen"); elements.hydrofluoric_acid_gas.ignore.push("sand", "hexafluorosilicic_acid", "hexafluorosilicic_acid_gas", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide", "hydrogen"); elements.hydrogen_fluoride.ignore.push("sand", "hexafluorosilicic_acid", "hexafluorosilicic_acid_gas", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide", "hydrogen"); elements.liquid_hydrogen_fluoride.ignore.push("sand", "hexafluorosilicic_acid", "hexafluorosilicic_acid_gas", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide", "hydrogen"); elements.hexafluorosilicic_acid.ignore.push("sand"); elements.hexafluorosilicic_acid_gas.ignore.push("sand"); acidReact("hydrofluoric_acid", "sand", "hexafluorosilicic_acid", "fire", 0); acidReact("hydrofluoric_acid_gas", "sand", "hexafluorosilicic_acid", "fire", 0); acidReact("hydrofluoric_acid", "potassium_carbonate", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrofluoric_acid_gas", "potassium_carbonate", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrogen_fluoride", "potassium_carbonate", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("liquid_hydrogen_fluoride", "potassium_carbonate", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrofluoric_acid", "potassium_carbonate_solution", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrofluoric_acid_gas", "potassium_carbonate_solution", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrogen_fluoride", "potassium_carbonate_solution", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("liquid_hydrogen_fluoride", "potassium_carbonate_solution", "potassium_fluoride_solution", "carbon_dioxide", 100); acidReact("hydrofluoric_acid", "potassium_fluoride", "fluorine", "potassium_fluoride_solution", 100); acidReact("hydrofluoric_acid_gas", "potassium_fluoride", "fluorine", "potassium_fluoride_solution", 100); acidReact("hydrofluoric_acid", "potassium_fluoride", "fluorine", ["potassium_fluoride_solution", null], 100); acidReact("hydrofluoric_acid_gas", "potassium_fluoride", "fluorine", ["potassium_fluoride_solution", null], 100); elements.fluorine.ignore.push("sand", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide"); elements.liquid_fluorine.ignore.push("sand", "potassium_carbonate", "potassium_fluoride", "carbon_dioxide"); createSalt("potassium_carbonate", "potassium_carbonate_solution", "#e2e1e8", blendColors("#e2e1e8", "#2167ff", 0.75), true, true, 891, -2, 102, 2430, 1024, "POTASSIUM", "CARBONATE"); createSalt("potassium_fluoride", "potassium_fluoride_solution", "#e8e8e1", blendColors("#e8e8e1", "#2167ff", 0.75), true, true, 858, -2, 102, 2480, 1020, "POTASSIUM", "FLUORIDE"); elements.soy_sauce = { color: "#470500", behavior: behaviors.LIQUID, tempLow: -5, tempHigh: 105, state: "liquid", category: "liquids", density: 1200, stain: 0.5, stateHigh: ["steam", "steam", "steam", "steam", "salt"], }; elements.bromine = { color: "#470500", behavior: behaviors.LIQUID, tick: function (pixel) { if (pixel.temp > 0 && Math.random() < 0.001) { changePixel(pixelMap[pixel.x][pixel.y], "bromine_gas", false); } }, reactions: { water: { elem1: "pool_water", elem2: null }, dirty_water: { elem2: "water" }, potassium: { elem1: "potassium_bromide", elem2: "fire" }, sodium: { elem1: "sodium_bromide", elem2: "fire" }, virus: { elem2: null }, }, tempLow: -7.2, tempHigh: 58.8, state: "liquid", category: "liquids", density: 3102, stain: 0.5, }; toxic("bromine", 0.1); elements.bromine_gas = { behavior: behaviors.GAS, tick: function (pixel) { if (pixel.temp < 58.8 && pixel.temp > 0 && Math.random() < 0.01) { changePixel(pixelMap[pixel.x][pixel.y], "bromine", false); } }, reactions: { water: { elem1: "pool_water", elem2: null }, dirty_water: { elem2: "water" }, potassium: { elem1: "potassium_bromide", elem2: "fire" }, sodium: { elem1: "sodium_bromide", elem2: "fire" }, virus: { elem2: null }, }, tempLow: 0, stateLow: "bromine", state: "gas", category: "gases", hidden: true, density: 7.59, stain: 0.5, }; toxic("bromine_gas", 0.1); createSalt("potassium_bromide", "potassium_bromide_solution", ["#fccaca", "#f7cbcb"], blendColors("#fccaca", "#2167ff", 0.75), false, true, 734, -2, 102, 2740, 1050, "POTASSIUM", "BROMIDE"); createSalt("sodium_bromide", "sodium_bromide_solution", ["#f5f4ed", "#f2f2eb"], blendColors("#f5f4ed", "#2167ff", 0.75), false, true, 747, -2, 102, 3210, 1040, "SODIUM", "BROMIDE"); elements.silver_bromide = { color: ["#fcfcca", "#f7f24f"], tick: function (pixel) { for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!isEmpty(pixel.x + i, pixel.y + j, true) && Math.random() < 0.1 && (pixelMap[pixel.x + i][pixel.y + j].element === "light" || pixelMap[pixel.x + i][pixel.y + j].element === "laser" || pixelMap[pixel.x + i][pixel.y + j].element === "liquid_light")) { let coords = circleCoords(pixel.x + i, pixel.y + j, 20); for (var n = 0; n < coords.length; n++) { let k = coords[n].x; let l = coords[n].y; let distance = (k - pixel.x - i) * (k - pixel.x - i) + (l - pixel.y - j) * (l - pixel.y - j); if (!isEmpty(k, l, true) && pixelMap[k][l].element === "silver_bromide") { if (distance <= 0) { console.log("silver bromide broke"); } let rgb = hexToRGB(blendColors(RGBToHex2(toObject(pixelMap[k][l].color)), RGBToHex2(toObject(pixelMap[pixel.x + i][pixel.y + j].color)), 10 / (10 + distance))); pixelMap[k][l].color = "rgb(" + rgb.r + "," + rgb.g + "," + rgb.b + ")"; //pixelMap[k][l].color = pixelColorPick(pixelMap[k][l],blendColors(RGBToHex2(toObject(pixelMap[k][l].color)),RGBToHex2(toObject(pixelMap[pixel.x+i][pixel.y+j].color)),1/distance)); } } if (pixelMap[pixel.x + i][pixel.y + j].element === "light" || pixelMap[pixel.x + i][pixel.y + j].element === "laser") { deletePixel(pixel.x + i, pixel.y + j); } } } } }, behavior: behaviors.POWDER, category: "powders", tempHigh: 430, state: "solid", density: 6470, }; eListAddIon("SILVER", "silver_bromide"); eListAddIon("BROMIDE", "silver_bromide"); eListAdd("INSOLUBLE", "silver_bromide"); eListAddIon("SILVER", "molten_silver_bromide"); eListAddIon("BROMIDE", "molten_silver_bromide"); elements.nitric_acid.reactions["silver"] = { elem1: "nitrogen_dioxide", elem2: "silver_nitrate_solution" }; elements.nitric_acid_gas.reactions["silver"] = { elem1: "nitrogen_dioxide", elem2: "silver_nitrate_solution" }; elements.nitric_acid.ignore.push("silver", "silver_nitrate", "silver_nitrate_solution"); elements.nitric_acid_gas.ignore.push("silver", "silver_nitrate", "silver_nitrate_solution"); elements.molten_silver_nitrate = { tempHigh: 440, stateHigh: ["silver", "nitrogen_dioxide", "oxygen", "fire"], }; createSalt("silver_nitrate", "silver_nitrate_solution", ["#cad7fc", "#cbd2f7"], blendColors("#cad7fc", "#2167ff", 0.5), true, true, 209, -2, 102, 4350, 1060, "SILVER", "NITRATE"); elements.silver_nitrate_solution.reactions["potassium_bromide"] = { elem1: "niter_solution", elem2: "silver_bromide" }; elements.silver_nitrate_solution.reactions["potassium_bromide_solution"] = { elem1: "niter_solution", elem2: "silver_bromide" }; createAcid("hydrobromic_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#ff3b3b", "#ca0000", "#9e7b7b"], true, true, 100, 100, 0, 1000, 1100, 1, "BROMIDE"); eLists.ACID.push("hydrobromic_acid"); eLists.ACIDGAS.push("hydrobromic_acid_gas"); acidReact("sulfuric_acid", "bromine", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid", "bromine_ice", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid", "bromine_gas", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid_gas", "bromine", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid_gas", "bromine_ice", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid_gas", "bromine_gas", "sulfuric_acid", "hydrobromic_acid", 50); acidReact("sulfuric_acid", "potassium_salt", "potassium_sulfate", "acid", 50); acidReact("sulfuric_acid_gas", "potassium_salt", "potassium_sulfate", "acid", 50); acidReact("sulfuric_acid", "niter", "potassium_sulfate", "nitric_acid", 50); acidReact("sulfuric_acid_gas", "niter", "potassium_sulfate", "nitric_acid", 50); acidReact("sulfuric_acid", "potassium_bromide", "potassium_sulfate", "hydrobromic_acid", 50); acidReact("sulfuric_acid_gas", "potassium_bromide", "potassium_sulfate", "hydrobromic_acid", 50); createSalt("potassium_sulfate", "potassium_sulfate_solution", "#f0d8cc", blendColors("#f0d8cc", "#2167ff", 0.75), true, true, 1069, -2, 102, 2660, 1012, "POTASSIUM", "SULFATE"); elements["potassium_sulfate"].reactions = Object.assign(elements["potassium_sulfate"].reactions, { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, }); elements["potassium_sulfate_solution"].reactions = Object.assign(elements["potassium_sulfate_solution"].reactions, { plant: { elem1: "plant", chance: 0.05 }, wheat_seed: { elem1: "wheat", chance: 0.05 }, grass: { elem1: "grass", chance: 0.05 }, grass_seed: { elem1: "grass", chance: 0.05 }, bamboo_plant: { elem1: "bamboo", chance: 0.05 }, flower_seed: { elem1: "flower_seed", chance: 0.05 }, petal: { elem1: "flower_seed", chance: 0.05 }, vine: { elem1: "vine", chance: 0.05 }, sapling: { elem1: "tree_branch", chance: 0.05 }, tree_branch: { elem1: "tree_branch", chance: 0.05 }, corn_seed: { elem1: "corn", chance: 0.05 }, root: { elem1: "root", chance: 0.05 }, dirt: { elem1: "grass", chance: 0.05 }, mud: { elem1: "grass", chance: 0.05 }, potato_seed: { elem1: "potato", chance: 0.05 }, yeast: { elem1: "yeast", chance: 0.05 }, }); createSalt("sodium_chlorate", "sodium_chlorate_solution", "#cff0cc", blendColors("#cff0cc", "#2167ff", 0.25), true, true, 255, -2, 102, 2490, 1011, "SODIUM", "CHLORATE"); elements.sodium_chlorate.stateHigh = "fire"; elements.sodium_chlorate_solution.reactions["gold"] = { elem1: "sodium_perchlorate_solution", charged: true, chance: 0.1 }; elements.chlorine.reactions["bleach"] = { elem1: "sodium_chlorate_solution", elem2: null }; delete elements["molten_sodium_chlorate"]; createSalt("sodium_perchlorate", "sodium_perchlorate_solution", "#cff0cc", blendColors("#d6f0cc", "#2167ff", 0.25), true, true, 468, -2, 102, 2499, 1011, "SODIUM", "PERCHLORATE"); elements.sodium_perchlorate.stateHigh = "fire"; elements.sodium_perchlorate.reactions["acid"] = { elem1: "perchloric_acid", elem2: "salt" }; elements.sodium_perchlorate_solution.reactions["acid"] = { elem1: "perchloric_acid", elem2: "salt_water" }; elements.acid.ignore.push("salt", "sodium_perchlorate", "sodium_perchlorate_solution"); elements.acid_gas.ignore.push("salt", "sodium_perchlorate", "sodium_perchlorate_solution"); delete elements["molten_sodium_perchlorate"]; createAcid("perchloric_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#ff963b", "#ca6800", "#c48a56"], true, true, 100, 100, 0, 1000, 1768, 1, "PERCHLORATE"); elements.perchloric_acid.tick = function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "big_pop"); } else { deletePixel(pixel.x, pixel.y); return; } } else { behaviors.LIQUID(pixel); } }; delete elements.perchloric_acid.behavior; elements.perchloric_acid.burn = 0; elements.perchloric_acid.ignore.push("fire", "smoke"); elements.perchloric_acid_gas.tick = function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "big_pop"); } else { deletePixel(pixel.x, pixel.y); return; } } else { behaviors.GAS(pixel); } }; elements.perchloric_acid_gas.behavior = ["XX|XX|XX", "XX|XX|XX", "XX|XX|XX"]; elements.perchloric_acid_gas.burn = 0; elements.perchloric_acid_gas.ignore.push("fire", "smoke"); eLists.ACID.push("perchloric_acid"); eLists.ACIDGAS.push("perchloric_acid_gas"); acidReact("perchloric_acid", "ammonia", "rocket_fuel", null, 100); acidReact("perchloric_acid_gas", "ammonia", "rocket_fuel", null, 100); elements.perchloric_acid.ignore.push("salt", "sodium_perchlorate", "sodium_perchlorate_solution"); elements.perchloric_acid_gas.ignore.push("salt", "sodium_perchlorate", "sodium_perchlorate_solution"); elements.rocket_fuel = { color: "#edcfca", behavior: behaviors.POWDER, tempHigh: 200, stateHigh: "big_explosion", category: "weapons", state: "solid", density: 1950, burn: 100, burnTime: 100, burnInto: "big_explosion", excludeRandom: true, }; elements.big_explosion = { color: ["#ffb48f", "#ffd991", "#ffad91"], behavior: ["XX|XX|XX", "XX|EX:20|XX", "XX|XX|XX"], temp: 300, category: "energy", state: "gas", density: 1000, excludeRandom: true, noMix: true, }; elements.iodine = { color: ["#240030", "#15061a", "#752191"], behavior: behaviors.POWDER, tick: function (pixel) { if (pixel.temp > 25 && Math.random() < 0.001) { changePixel(pixelMap[pixel.x][pixel.y], "iodine_gas", false); } }, reactions: { water: { elem1: "disinfectant", elem2: null }, dirty_water: { elem2: "water" }, potato: { color2: "#3e0252" }, bread: { color2: "#3e0252" }, toast: { color2: "#3e0252" }, flour: { color2: "#3e0252" }, dough: { color2: "#3e0252" }, batter: { color2: "#3e0252" }, hydrogen: { elem1: "hydrogen_iodide", elem2: null }, hydrogen_sulfide: { elem1: "hydrogen_iodide", elem2: "sulfur" }, algae: { elem2: null, chance: 0.035 }, cell: { elem2: null, chance: 0.02 }, plague: { elem2: null }, virus: { elem2: null }, }, tempHigh: 113, stateHigh: "molten_iodine", state: "solid", category: "powders", density: 4933, stain: 0.01, }; elements.molten_iodine = { color: ["#360147", "#2b0d36", "#9b2ebf"], forceAutoGen: true, behavior: behaviors.LIQUID, tempHigh: 184, tempLow: 113, temp: 123, stateHigh: "iodine_gas", stateLow: "iodine", state: "liquid", hidden: true, category: "liquids", }; elements.iodine_gas = { behavior: behaviors.GAS, tick: function (pixel) { if (pixel.temp < 113 && pixel.temp > 25 && Math.random() < 0.01) { changePixel(pixelMap[pixel.x][pixel.y], "iodine", false); } }, tempLow: 25, stateLow: "iodine", state: "gas", category: "gases", hidden: true, density: 11.27, stain: 0.01, }; elements.disinfectant = { color: "#2d004f", behavior: behaviors.LIQUID, reactions: { blood: { elem1: null, elem2: "water" }, dirty_water: { elem2: "water" }, plague: { elem2: null }, virus: { elem2: null }, infection: { elem2: null }, mushroom_spore: { elem2: null }, lichen: { elem2: null }, rotten_meat: { elem2: "meat" }, rotten_cheese: { elem2: "cheese" }, stench: { elem2: null }, cancer: { elem2: null, chance: 0.01 }, rat: { elem2: null, chance: 0.01 }, ant: { elem2: "dead_bug", chance: 0.1 }, bee: { elem2: "dead_bug", chance: 0.1 }, fly: { elem2: "dead_bug", chance: 0.1 }, firefly: { elem2: "dead_bug", chance: 0.1 }, worm: { elem2: "dead_bug", chance: 0.1 }, flea: { elem2: "dead_bug", chance: 0.1 }, termite: { elem2: "dead_bug", chance: 0.1 }, stink_bug: { elem2: "dead_bug", chance: 0.1 }, }, tempHigh: 100, tempLow: 0, stateHigh: ["steam", "iodine"], state: "liquid", category: "liquids", density: 1020, stain: 0.01, }; createAcid("hydroiodic_acid", structuredClone(defaultAcidReactions), structuredClone(defaultAcidGasReactions), ["#9670ff", "#da6afc", "#a77af5", "#9670ff", "#da6afc", "#a77af5", "#633a1d"], true, true, 100, 100, 0, 1000, 1150, 1, "IODIDE"); elements.hydrogen_iodide = { color: "#aa8df2", behavior: behaviors.GAS, reactions: { water: { elem1: "hydroiodic_acid", elem2: null }, salt_water: { elem1: "hydroiodic_acid", elem2: null }, sugar_water: { elem1: "hydroiodic_acid", elem2: null }, dirty_water: { elem1: "hydroiodic_acid", elem2: null }, seltzer: { elem1: "hydroiodic_acid", elem2: null }, pool_water: { elem1: "hydroiodic_acid", elem2: null }, primordial_soup: { elem1: "hydroiodic_acid", elem2: null }, steam: { elem1: "hydroiodic_acid_gas", elem2: null }, neutral_acid: { elem1: "hydroiodic_acid", elem2: null }, }, state: "gas", category: "gases", hidden: true, density: 2.85, tempLow: -35.4, stateLow: "liquid_hydrogen_iodide", forceAutoGen: true, }; runAfterLoad(function () { reactList("hydrogen_iodide", eLists.WATER, { elem1: "hydroiodic_acid", elem2: null }); }); elements.liquid_hydrogen_iodide = { reactions: { water: { elem1: "hydroiodic_acid", elem2: null }, salt_water: { elem1: "hydroiodic_acid", elem2: null }, sugar_water: { elem1: "hydroiodic_acid", elem2: null }, dirty_water: { elem1: "hydroiodic_acid", elem2: null }, seltzer: { elem1: "hydroiodic_acid", elem2: null }, pool_water: { elem1: "hydroiodic_acid", elem2: null }, primordial_soup: { elem1: "hydroiodic_acid", elem2: null }, steam: { elem1: "hydroiodic_acid_gas", elem2: null }, neutral_acid: { elem1: "hydroiodic_acid", elem2: null }, }, state: "liquid", tempLow: -50.8, }; runAfterLoad(function () { reactList("liquid_hydrogen_iodide", eLists.WATER, { elem1: "hydroiodic_acid", elem2: null }); }); elements.hydroiodic_acid.ignore.push("hydrogen_iodide", "liquid_hydrogen_iodide", "hydrogen_iodide_ice"); elements.hydroiodic_acid_gas.ignore.push("hydrogen_iodide", "liquid_hydrogen_iodide", "hydrogen_iodide_ice"); eListAddIon("HYDROGEN", "hydrogen_iodide"); eListAddIon("IODIDE", "hydrogen_iodide"); eListAddIon("HYDROGEN", "liquid_hydrogen_iodide"); eListAddIon("IODIDE", "liquid_hydrogen_iodide"); eListAddIon("HYDROGEN", "hydroiodic_acid"); eListAddIon("IODIDE", "hydroiodic_acid"); eListAddIon("HYDROGEN", "hydroiodic_acid_gas"); eListAddIon("IODIDE", "hydroiodic_acid_gas"); runAfterLoad(function () { reactList("hydroiodic_acid", eLists.WATER, { elem2: "dirty_water" }); reactList("hydroiodic_acid_gas", eLists.WATER, { elem2: "dirty_water" }); delete elements.hydroiodic_acid.reactions["dirty_water"]; delete elements.hydroiodic_acid_gas.reactions["dirty_water"]; }); elements.bauxite = { color: ["#915a30", "#cc7533"], behavior: behaviors.POWDER, category: "land", density: 2420, state: "solid", tempHigh: 300, }; elements.spent_sodium_aluminate_solution = { color: ["#696380", "#7a759e"], behavior: behaviors.LIQUID, category: "liquids", hidden: true, density: 1005, state: "liquid", tempHigh: 100, stateHigh: ["sodium_aluminate", "sodium_aluminate", "sodium_aluminate", "gallium", "steam", "steam", "steam", "steam"], }; createSalt("sodium_aluminate", "sodium_aluminate_solution", ["#e6c9b3", "#ebc8ad"], ["#bdb3e6", "#b4adeb"], true, true, 1650, -2, 102, 1500, 1005, "SODIUM", "ALUMINATE"); elements.sodium_aluminate_solution.reactions["carbon_dioxide"] = { elem1: "aluminum_hydroxide", elem2: ["sodium_carbonate_solution", "spent_sodium_aluminate_solution"] }; createSalt("sodium_carbonate", "sodium_carbonate_solution", "#d8dae6", ["#c5c1d6", "#afacc2"], true, true, 851, -2, 102, 2540, 1010, "SODIUM", "CARBONATE"); createSalt("ammonium_chloride", "ammonium_chloride_solution", "#daeced", ["#a299c7", "#7e76b3"], true, true, 338, -2, 102, 1519, 1008, "AMMONIUM", "CHLORIDE"); elements["ammonium_chloride"].stateHigh = ["ammonia", "acid_gas"]; delete elements["molten_ammonium_chloride"]; acidReact("acid_gas", "ammonia", "ammonium_chloride", null, 0); elements.aluminum_hydroxide = { color: "#d1cbcb", behavior: behaviors.POWDER, category: "powders", hidden: true, density: 2420, state: "solid", tempHigh: 300, stateHigh: ["alumina", "steam"], }; eListAddIon("ALUMINUM", "aluminum_hydroxide"); eListAddIon("HYDROXIDE", "aluminum_hydroxide"); eListAdd("INSOLUBLE", "aluminum_hydroxide"); elements.alumina = { color: "#d1cbcb", behavior: behaviors.SOLID, category: "solids", density: 3987, state: "solid", tempHigh: 2072, reactions: { molten_cryolite_mixture: { elem1: "molten_cryolite_solution", elem2: "molten_cryolite_solution" }, }, }; eListAddIon("ALUMINUM", "alumina"); eListAddIon("OXIDE", "alumina"); eListAdd("INSOLUBLE", "alumina"); eListAddIon("ALUMINUM", "molten_alumina"); eListAddIon("OXIDE", "molten_alumina"); elements.cryolite = { color: ["#9ab6d9", "#dae4f0"], behavior: behaviors.POWDER, category: "land", density: 2900, state: "solid", tempHigh: 950, reactions: { aluminum_trifluoride: { elem1: "cryolite_mixture", elem2: "cryolite_mixture" }, }, }; eListAddIon("SODIUM", "cryolite"); eListAddIon("HEXAFLUOROALUMINATE", "cryolite"); eListAdd("INSOLUBLE", "cryolite"); eListAddIon("SODIUM", "molten_cryolite"); eListAddIon("HEXAFLUOROALUMINATE", "molten_cryolite"); elements.aluminum_trifluoride = { color: ["#ebf4ff", "#e3fdff"], behavior: behaviors.POWDER, category: "powders", hidden: true, density: 3100, state: "solid", tempHigh: 1290, }; eListAddIon("ALUMINUM", "aluminum_trifluoride"); eListAddIon("FLUORIDE", "aluminum_trifluoride"); eListAdd("INSOLUBLE", "aluminum_trifluoride"); eListAddIon("ALUMINUM", "aluminum_trifluoride_gas"); eListAddIon("FLUORIDE", "aluminum_trifluoride_gas"); elements.molten_aluminum_trifluoride = { tempHigh: 1290, tempLow: 1290, }; elements.aluminum_trifluoride_gas = { tempLow: 1290, state: "gas", stateLow: "molten_aluminum_trifluoride", }; elements.cryolite_mixture = { color: [blendColors("#9ab6d9", "#ebf4ff"), blendColors("#dae4f0", "#e3fdff")], behavior: behaviors.POWDER, category: "powders", hidden: true, density: 2910, state: "solid", tempHigh: 950, }; elements.cryolite_solution = { color: [blendColors(blendColors("#9ab6d9", "#ebf4ff"), "#d1cbcb"), blendColors(blendColors("#dae4f0", "#e3fdff"), "#d1cbcb")], behavior: behaviors.POWDER, category: "powders", hidden: true, density: 2920, state: "solid", tempHigh: 950, }; createSalt("sodium_fluoride", "sodium_fluoride_solution", ["#8aebce", "#b9edde"], ["#8ad0eb", "#b9e3ed"], false, true, 993, -2, 102, 2558, 1012, "SODIUM", "FLUORIDE"); elements.magnesium_fluoride = { color: ["#aaabae", "#a9adae"], behavior: behaviors.POWDER, category: "powders", density: 3148, state: "solid", tempHigh: 1263, reactions: { sulfuric_acid: { elem1: "hydrogen_fluoride", elem2: "epsom_salt" }, }, hidden: true, }; eListAddIon("MAGNESIUM", "magnesium_fluoride"); eListAddIon("FLUORIDE", "magnesium_fluoride"); eListAdd("INSOLUBLE", "magnesium_fluoride"); eListAddIon("MAGNESIUM", "molten_magnesium_fluoride"); eListAddIon("FLUORIDE", "molten_magnesium_fluoride"); elements.sulfuric_acid.ignore.push("epsom_salt", "magnesium_fluoride"); elements.sulfuric_acid_gas.ignore.push("epsom_salt", "magnesium_fluoride"); elements.hydrogen_fluoride.ignore.push("epsom_salt", "magnesium_fluoride"); elements.liquid_hydrogen_fluoride.ignore.push("epsom_salt", "magnesium_fluoride"); //boron acidReact("acid", "borax", "boric_acid", "salt", 0); acidReact("acid_gas", "borax", "boric_acid", "salt", 0); elements.boric_acid = { color: "#fbffeb", behavior: behaviors.POWDER, category: "powders", density: 1435, state: "solid", tempHigh: 170, reactions: { hydrofluoric_acid: { elem1: "fluoroboric_acid", elem2: "dirty_water" }, hydrofluoric_acid_gas: { elem1: "fluoroboric_acid_gas", elem2: "steam" }, neutron: { elem2: null }, }, }; acidReact("hydrofluoric_acid", "boric_acid", "fluoroboric_acid", "dirty_water", 50); acidReact("hydrofluoric_acid_gas", "boric_acid", "fluoroboric_acid_gas", "steam", 50); elements.hydrofluoric_acid.ignore.push("molten_boric_acid"); elements.hydrofluoric_acid_gas.ignore.push("molten_boric_acid"); elements.borax.hidden = false; createSalt("sodium_sulfate", "sodium_sulfate_solution", "#f3f2f5", blendColors("#f3f2f5", "#2167ff", 0.5), true, true, 884, -2, 102, 2664, 1013, "SODIUM", "SULFATE"); acidReact("sulfuric_acid", "salt", "acid", "sodium_sulfate_solution"); acidReact("sulfuric_acid_gas", "salt", "acid", "sodium_sulfate_solution"); acidReact("sulfuric_acid", "salt_water", "acid", "sodium_sulfate_solution"); acidReact("sulfuric_acid_gas", "salt_water", "acid", "sodium_sulfate_solution"); eListAddIon("BORON", "boric_acid", "base"); eListAddIon("HYDROXIDE", "boric_acid", "base"); eListAddIon("BORATE", "boric_acid", "acid"); eListAddIon("HYDROGEN", "boric_acid", "acid"); eListAdd("INSOLUBLE", "boric_acid"); eListAddIon("BORON", "molten_boric_acid", "base"); eListAddIon("HYDROXIDE", "molten_boric_acid", "base"); eListAddIon("BORATE", "molten_boric_acid", "acid"); eListAddIon("HYDROGEN", "molten_boric_acid", "acid"); eListAdd("AMPHOTERIC", "boric_acid"); eListAdd("AMPHOTERIC", "molten_boric_acid"); eListAddIon("BORATE", "borax"); eListAddIon("SODIUM", "borax"); eListAdd("INSOLUBLE", "borax"); eListAddIon("BORATE", "molten_borax"); eListAddIon("SODIUM", "molten_borax"); elements.boron = { color: ["#80736a", "#a2999c", "#5e5544", "#292d2c"], behavior: behaviors.WALL, category: "solids", density: 2080, state: "solid", tempHigh: 2076, fireColor: ["#34eb67", "#5ceb34"], reactions: { chlorine: { elem1: "boron_trichloride", elem2: null }, liquid_chlorine: { elem1: "boron_trichloride", elem2: null }, fluorine: { elem1: "boron_trifluoride", elem2: null }, liquid_fluorine: { elem1: "boron_trifluoride", elem2: null }, }, }; elements.fluorine.ignore.push("boron", "molten_boron"); elements.liquid_fluorine.ignore.push("boron", "molten_boron"); elements.boron_trioxide = { color: "#c6c5c7", behavior: behaviors.POWDER, category: "powders", density: 2550, state: "solid", hidden: true, tempHigh: 450, fireColor: ["#34eb67", "#5ceb34"], }; eListAddIon("BORON", "boron_trioxide"); eListAddIon("OXIDE", "boron_trioxide"); eListAdd("INSOLUBLE", "boron_trioxide"); eListAddIon("BORON", "molten_boron_trioxide"); eListAddIon("OXIDE", "molten_boron_trioxide"); elements.molten_boron_trioxide = { reactions: { chlorine: { elem1: "boron_trichloride", elem2: null }, }, }; acidReact("sulfuric_acid", "borax", "boron_trioxide", "sodium_sulfate", 200); acidReact("sulfuric_acid_gas", "borax", "boron_trioxide", "sodium_sulfate", 200); acidReact("hydrofluoric_acid", "boron_trioxide", "boron_trifluoride", "fire", 0); acidReact("hydrofluoric_acid_gas", "boron_trioxide", "boron_trifluoride", "fire", 0); acidReact("hydrogen_fluoride", "boron_trioxide", "boron_trifluoride", "fire", 0); acidReact("liquid_hydrogen_fluoride", "boron_trioxide", "boron_trifluoride", "fire", 0); elements.boron_trifluoride = { color: "#d5d9ce", behavior: behaviors.GAS, category: "gases", density: 2.76, state: "gas", hidden: true, tempLow: -100.3, reactions: { steam: { elem1: "fluoroboric_acid_gas", elem2: "boric_acid" }, }, }; eListAddIon("BORON", "boron_trifluoride"); eListAddIon("FLUORIDE", "boron_trifluoride"); eListAdd("INSOLUBLE", "boron_trifluoride"); runAfterLoad(function () { reactList("boron_trifluoride", eLists.WATER, { elem1: "fluoroboric_acid", elem2: "boric_acid" }); }); elements.liquid_boron_trifluoride = { tempLow: -126.8, }; eListAddIon("BORON", "liquid_boron_trifluoride"); eListAddIon("FLUORIDE", "liquid_boron_trifluoride"); eListAddIon("BORON", "boron_trifluoride_ice"); eListAddIon("FLUORIDE", "boron_trifluoride_ice"); elements.boron_trichloride = { color: "#ddf0dd", behavior: behaviors.GAS, category: "gases", density: 4.9, state: "gas", hidden: true, tempLow: 12.6, reactions: { steam: { elem1: "acid_gas", elem2: "boric_acid" }, hydrogen: { elem1: "boron", elem2: "acid_gas" }, }, }; eListAddIon("BORON", "boron_trichloride"); eListAddIon("CHLORIDE", "boron_trichloride"); eListAddIon("BORON", "liquid_boron_trichloride"); eListAddIon("CHLORIDE", "liquid_boron_trichloride"); eListAddIon("BORON", "boron_trichloride_ice"); eListAddIon("CHLORIDE", "boron_trichloride_ice"); eListAdd("INSOLUBLE", "boron_trichloride"); runAfterLoad(function () { reactList("boron_trichloride", eLists.WATER, { elem1: "acid", elem2: "boric_acid" }); }); elements.liquid_boron_trichloride = { tempLow: -107.3, }; runAfterLoad(function () { reactList("fluoroboric_acid", eLists.WATER, { elem2: "dirty_water" }); reactList("fluoroboric_acid_gas", eLists.WATER, { elem2: "dirty_water" }); delete elements.fluoroboric_acid.reactions["dirty_water"]; delete elements.fluoroboric_acid_gas.reactions["dirty_water"]; }); createAcid("fluoroboric_acid", {}, {}, ["#3bffdb", "#00caaf", "#56c4a3"], true, true, 100, 100, 0, 1000, 1020, 1, "TETRAFLUOROBORATE"); elements.fluoroboric_acid.ignore.push("boron_trifluoride", "liquid_boron_trifluoride", "boron_trifluoride_ice"); elements.fluoroboric_acid_gas.ignore.push("boron_trifluoride", "liquid_boron_trifluoride", "boron_trifluoride_ice"); elements.fluoroboric_acid.ignore.push("boric_acid", "molten_boric_acid"); elements.fluoroboric_acid_gas.ignore.push("boric_acid", "molten_boric_acid"); elements.fluoroboric_acid.tick = function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "boron_trifluoride"); } else { deletePixel(pixel.x, pixel.y); return; } } else { behaviors.LIQUID(pixel); } }; delete elements.fluoroboric_acid.behavior; elements.fluoroboric_acid_gas.tick = function (pixel) { let change = false; for (let i = -1; i <= 1; i++) { for (let j = -1; j <= 1; j++) { if (!(i === 0 && j === 0) && !isEmpty(pixel.x + i, pixel.y + j, true) && !elements[pixel.element].ignore.includes(pixelMap[pixel.x + i][pixel.y + j].element)) { if (!elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness || Math.random() > elements[pixelMap[pixel.x + i][pixel.y + j].element].hardness) { changePixel(pixelMap[pixel.x + i][pixel.y + j], "fire"); change = true; } } } } if (change) { if (Math.random() < 0.2) { changePixel(pixel, "boron_trifluoride"); } else { deletePixel(pixel.x, pixel.y); return; } } else { behaviors.GAS(pixel); } }; elements.fluoroboric_acid_gas.behavior = ["XX|XX|XX", "XX|XX|XX", "XX|XX|XX"]; elements.fluoroboric_acid.ignore.push("molten_boric_acid"); elements.fluoroboric_acid_gas.ignore.push("molten_boric_acid"); eLists.ACID.push("fluoroboric_acid"); eLists.ACIDGAS.push("fluoroboric_acid_gas"); acidReact("fluoroboric_acid", "sodium_carbonate", "sodium_tetrafluoroborate", ["carbon_dioxide,steam"], 50); acidReact("fluoroboric_acid_gas", "sodium_carbonate", "sodium_tetrafluoroborate", ["carbon_dioxide,steam"], 50); acidReact("fluoroboric_acid", "sodium_carbonate_solution", "sodium_tetrafluoroborate", ["seltzer,steam"], 50); acidReact("fluoroboric_acid_gas", "sodium_carbonate_solution", "sodium_tetrafluoroborate", ["seltzer,steam"], 50); behaviors.CAUSTIC = ["XX|DB%5|XX", "DB%5|XX|DB%5", "DB%5 AND M2|DB%10 AND M1|DB%5 AND M2"]; behaviors.MOLTEN_CAUSTIC = ["XX|DB%5 AND CR:fire%2.5|XX", "DB%5 AND M2|XX|DB%5 AND M2", "DB%5 AND M2|DB%10 AND M1|DB%5 AND M2"]; elements.sodium_hydride = { color: ["#9e9e9e", "#4f4f4f", "#616161", "#454545"], tempHigh: 638, stateHigh: ["sodium", "hydrogen"], behavior: behaviors.CAUSTIC, fireColor: "#ffff00", reactions: { chlorine: { elem1: "salt", elem2: "acid_gas" }, vinegar: { elem1: "sodium_acetate", elem2: null, attr1: { foam: 15 } }, }, category: "powders", state: "solid", hidden: true, density: 1390, burn: 75, burnTime: 120, }; eListAddIon("SODIUM", "sodium_hydride", "base"); eListAddIon("HYDRIDE", "sodium_hydride", "base"); eListAdd("INSOLUBLE", "sodium_hydride"); runAfterLoad(function () { reactList("sodium_hydride", eLists.WATER, { elem1: ["pop", "pop", "hydrogen", "hydrogen"], chance: 0.1, temp2: 250 }); }); eLists.CAUSTIC.push("sodium_hydride"); elements.sodium_hydride.ignore = defaultAcidIgnore.concat(eLists.CAUSTICIGNORE).concat(["sodium", "molten_sodium", "hydrogen"]); acidIgnore(["sodium_hydride"]); elements.molten_sodium.reactions.hydrogen = { elem1: "sodium_hydride", elem2: null }; elements.methanol.reactions.sodium = { elem1: "sodium_methoxide", elem2: "hydrogen", temp1: 200, temp2: 200 }; elements.methanol.reactions.molten_sodium = { elem1: "sodium_methoxide", elem2: "hydrogen", temp1: 200, temp2: 200 }; elements.sodium_methoxide = { color: ["#c4c4c4", "#8c8c8c", "#ababab", "#787878"], tempHigh: 127, behavior: behaviors.CAUSTIC, fireColor: "#ffff00", category: "powders", state: "solid", hidden: true, density: 970, burn: 5, burnTime: 100, reactions: { water: { elem1: "methanol", elem2: "sodium_hydroxide" }, salt_water: { elem1: "methanol", elem2: "sodium_hydroxide" }, sugar_water: { elem1: "methanol", elem2: "sodium_hydroxide" }, dirty_water: { elem1: "methanol", elem2: "sodium_hydroxide" }, seltzer: { elem1: "methanol", elem2: "sodium_hydroxide" }, pool_water: { elem1: "methanol", elem2: "sodium_hydroxide" }, primordial_soup: { elem1: "methanol", elem2: "sodium_hydroxide" }, }, }; eListAddIon("SODIUM", "sodium_methoxide", "base"); eListAddIon("METHOXIDE", "sodium_methoxide", "base"); eListAdd("INSOLUBLE", "sodium_methoxide"); eListAddIon("SODIUM", "molten_sodium_methoxide", "base"); eListAddIon("METHOXIDE", "molten_sodium_methoxide", "base"); runAfterLoad(function () { reactList("sodium_methoxide", eLists.WATER, { elem1: "methanol", elem2: "sodium_hydroxide" }); }); elements.molten_sodium_methoxide = { behavior: behaviors.MOLTEN_CAUSTIC, tempLow: 127, }; eLists.CAUSTIC.push("sodium_methoxide"); eLists.CAUSTIC.push("molten_sodium_methoxide"); elements.sodium_methoxide.ignore = defaultAcidIgnore.concat(eLists.CAUSTICIGNORE).concat(["sodium", "molten_sodium", "hydrogen", "methanol", "methanol_gas", "trimethyl_borate"]); elements.molten_sodium_methoxide.ignore = defaultAcidGasIgnore.concat(eLists.CAUSTICIGNORE).concat(["sodium", "molten_sodium", "hydrogen", "methanol", "methanol_gas", "trimethyl_borate"]); acidIgnore(["sodium_methoxide", "molten_sodium_methoxide"]); elements.trimethyl_borate = { color: "#c4bc89", tempHigh: 69, tempLow: -34, behavior: behaviors.LIQUID, reactions: { sodium_hydride: { elem1: "sodium_borohydride", elem2: "sodium_methoxide" }, }, category: "liquids", state: "liquid", hidden: true, density: 932, burn: 100, burnTime: 10, fireColor: ["#34eb67", "#5ceb34"], }; createSalt("sodium_borohydride", "sodium_borohydride_solution", ["#d3d3de", "#c7c7eb", "#ededfc", "#d9d9d9"], ["#ababc7", "#9d9dd1", "#bdbddb", "#a8a8a8"], false, true, 400, -2, 102, 1070, 1005, "SODIUM", "BOROHYDRIDE"); elements.sodium_borohydride.behavior = behaviors.CAUSTIC; elements.sodium_borohydride_solution.behavior = ["XX|DB%5|XX", "DB%5 AND M2|XX|DB%5 AND M2", "DB%5 AND M2|DB%10 AND M1|DB%5 AND M2"]; elements.sodium_borohydride.fireColor = ["#34eb67", "#5ceb34"]; elements.sodium_borohydride_solution.fireColor = ["#34eb67", "#5ceb34"]; elements.sodium_borohydride.stateHigh = ["sodium_hydride", "sodium", "boron"]; delete elements["molten_sodium_borohydride"]; eLists.CAUSTIC.push("sodium_borohydride"); eLists.CAUSTIC.push("sodium_borohydride_solution"); elements.sodium_borohydride.ignore = defaultAcidIgnore.concat(eLists.CAUSTICIGNORE).concat(["sodium", "molten_sodium", "hydrogen", "boron", "trimethyl_borate"]); elements.sodium_borohydride_solution.ignore = defaultAcidIgnore.concat(eLists.CAUSTICIGNORE).concat(["sodium", "molten_sodium", "hydrogen", "boron", "trimethyl_borate"]); acidIgnore(["sodium_borohydride", "sodium_borohydride_solution"]); elements.sodium_hydride.ignore.push(["sodium", "molten_sodium", "hydrogen", "boron"]); createSalt("sodium_tetrafluoroborate", "sodium_tetrafluoroborate_solution", ["#deded3", "#ebebc7", "#fcfced", "#d9d9d9"], ["#ababb7", "#9d9dc1", "#bdbdcb", "#a8a898"], true, true, 384, -2, 102, 2470, 1012, "SODIUM", "TETRAFLUOROBORATE"); elements.sodium_tetrafluoroborate.stateHigh = ["sodium_fluoride", "boron_trifluoride"]; elements.sodium_tetrafluoroborate.fireColor = ["#34eb67", "#5ceb34"]; delete elements["molten_sodium_tetrafluoroborate"]; elements.fluoroboric_acid.ignore.push("sodium_tetrafluoroborate", "sodium_tetrafluoroborate_solution"); elements.fluoroboric_acid_gas.ignore.push("sodium_tetrafluoroborate", "sodium_tetrafluoroborate_solution"); acidReact("sodium_hydride", "boron_trifluoride", "diborane", "sodium_tetrafluoroborate", 20); acidReact("sulfuric_acid", "sodium_borohydride", "diborane", "hydrogen", 50); elements.diborane = { color: "#ffcac9", tempLow: -92.5, behavior: behaviors.GAS, fireColor: ["#34eb67", "#5ceb34"], category: "gases", state: "gas", density: 1.131, burn: 100, burnTime: 20, burnInto: "boron_trioxide", reactions: { oxygen: { elem1: "boron_trioxide", elem2: "fire" }, water: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, salt_water: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, sugar_water: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, dirty_water: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, seltzer: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, pool_water: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, primordial_soup: { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }, }, tempHigh: 200, stateHigh: ["pentaborane", "pentaborane", "decaborane"], }; runAfterLoad(function () { reactList("diborane", eLists.WATER, { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }); }); elements.liquid_diborane = { tempLow: -164, }; elements.decaborane = { color: "#d9cece", tempHigh: 98, behavior: behaviors.POWDER, fireColor: ["#34eb67", "#5ceb34"], category: "powders", state: "solid", hidden: true, density: 940, burn: 100, burnTime: 100, burnInto: "boron_trioxide", reactions: { oxygen: { elem1: "boron_trioxide", elem2: "fire" }, }, }; runAfterLoad(function () { reactList("decaborane", eLists.WATER, { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }); }); elements.molten_decaborane = { behavior: behaviors.LIQUID, tempLow: 98, burn: 100, burnTime: 1000, burnInto: "boron_trioxide", reactions: { oxygen: { elem1: "boron_trioxide", elem2: "fire" }, }, fireColor: ["#34eb67", "#5ceb34"], category: "liquids", state: "liquid", hidden: true, density: 900, }; runAfterLoad(function () { reactList("molten_decaborane", eLists.WATER, { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }); }); elements.pentaborane = { color: "#f7b5b5", tempHigh: 60.1, tempLow: -46.8, behavior: behaviors.LIQUID, fireColor: ["#34eb67", "#5ceb34"], category: "liquids", state: "liquid", hidden: true, density: 618, burn: 100, burnTime: 1, burnInto: "explosion", reactions: { oxygen: { elem1: "boron_trioxide", elem2: "explosion" }, }, }; runAfterLoad(function () { reactList("pentaborane", eLists.WATER, { elem1: "boric_acid", elem2: "hydrogen", temp1: 100 }); }); elements.pentaborane_gas = { tempHigh: 250, stateHigh: "decaborane", }; acidReact("sodium_borohydride", "boron_trifluoride", "sodium_octahydrotriborate", ["sodium_fluoride", "hydrogen"], 20); acidReact("hydrobromic_acid", "sodium_octahydrotriborate", "sodium_bromoheptahydrotriborate", "hydrogen", 20); elements.sodium_octahydrotriborate = { color: ["#ded3de", "#ebc7eb", "#fbedfb", "#e3cce3"], tempHigh: 500, //i have no idea behavior: behaviors.POWDER, fireColor: ["ffff00", "#34eb67", "#5ceb34"], category: "powders", state: "solid", hidden: true, density: 1070, //??? burn: 5, burnTime: 10, burnInto: "boron_trioxide", stateHigh: "sodium_dodecaborate", }; eListAddIon("SODIUM", "sodium_octahydrotriborate"); eListAddIon("OCTAHYDROTRIBORATE", "sodium_octahydrotriborate"); eListAdd("INSOLUBLE", "sodium_octahydrotriborate"); elements.sodium_dodecaborate = { color: "#f5aef5", tempHigh: 700, //see above comment behavior: behaviors.POWDER, fireColor: ["ffff00", "#34eb67", "#5ceb34"], category: "powders", state: "solid", hidden: true, density: 1050, //guess burn: 1, burnTime: 10, burnInto: "boron_trioxide", }; eListAddIon("SODIUM", "sodium_dodecaborate"); eListAddIon("DODECABORATE", "sodium_dodecaborate"); eListAdd("INSOLUBLE", "sodium_dodecaborate"); eListAddIon("SODIUM", "molten_sodium_dodecaborate"); eListAddIon("DODECABORATE", "molten_sodium_dodecaborate"); elements.sodium_bromoheptahydrotriborate = { color: ["#ded9d3", "#ebd9c7", "#fbf4ed", "#e3d5cc"], tempHigh: 150, //idk behavior: behaviors.POWDER, fireColor: ["ffff00", "#34eb67", "#5ceb34"], category: "powders", state: "solid", hidden: true, density: 1090, //idk burn: 5, burnTime: 10, burnInto: "boron_trioxide", stateHigh: ["pentaborane", "sodium_bromide", "hydrogen"], }; eListAddIon("SODIUM", "sodium_bromoheptahydrotriborate"); eListAddIon("BROMOHEPTAHYDROTRIBORATE", "sodium_bromoheptahydrotriborate"); eListAdd("INSOLUBLE", "sodium_bromoheptahydrotriborate"); //elements.indium = { // //} //quit snooping around elements.uraninite = { color: ["#545323", "#50573b", "#656660", "#4d4933", "#615e4a", "#525043"], behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], tempHigh: 2865, category: "land", state: "solid", density: 10970, }; elements.yellowcake = { color: ["#dbd827", "#bce346", "#a8c418", "#d9bb1a", "#dec418", "#cfb615"], behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], tempHigh: 1150, category: "powders", hidden: true, state: "solid", density: 8300, reactions: { hydrogen: { elem1: ["uranium_dioxide", "uranium_dioxide", "uranium_dioxide", "uranium_dioxide", "thorium_dioxide"], elem2: "steam" }, }, }; elements.yellowcake_solution = { color: "#d2ed6f", ignore: elements.sulfuric_acid.ignore.concat(eLists.CAUSTICIGNORE).concat(["radiation", "yellowcake", "uraninite"]), behavior: ["XX|DB%5 AND CR:radiation%0.05|XX", "DB%5 AND M2 AND CR:radiation%0.05|XX|DB%5 AND M2 AND CR:radiation%0.05", "DB%5 AND M2|DB%10 AND M1|DB%5 AND M2"], tempHigh: 337, category: "liquids", stateHigh: ["sulfuric_acid_gas", "yellowcake"], state: "liquid", hidden: true, density: 1850, reactions: {}, }; acidIgnore(["yellowcake_solution"]); eLists.CAUSTIC.push("yellowcake_solution"); eLists.ACID.push("yellowcake_solution"); acidReact("sulfuric_acid", "uraninite", "yellowcake_solution", null, 50); acidReact("sulfuric_acid_gas", "uraninite", "yellowcake", "sulfuric_acid_gas", 50); acidReact("sulfuric_acid", "yellowcake", "yellowcake_solution", "yellowcake_solution", 50); elements.alpha_particle = { color: "#ff7878", behavior: ["XX|XX|XX", "XX|CH:helium%0.01 AND DL%0.25|XX", "XX|XX|XX"], reactions: { electric: { elem1: null, elem2: "helium", temp2: 200 }, }, tick: behaviors.BOUNCY, temp: 35, category: "energy", state: "gas", density: 0.00012, ignoreAir: true, }; elements.depleted_uranium = { color: ["#599e61", "#364d3c", "#494d4a", "#6c8a42", "#798d65", "#b5e089"], behavior: ["XX|CR:alpha_particle%0.01|XX", "CR:alpha_particle%0.01|CH:thorium%0.001|CR:alpha_particle%0.01", "M2|M1|M2"], reactions: { neutron: { elem2: null, func: depleted_uranium }, oxygen: { elem1: "depleted_uranium_dioxide", elem2: null, chance: 0.1 }, meat: { elem2: "rotten_meat", chance: 0.1 }, cheese: { elem2: "rotten_cheese", chance: 0.1 }, quark_matter: { elem1: "stable_uranium" }, }, tempHigh: 1132.2, category: "powders", hidden: true, state: "solid", density: 19100, hardness: 0.6, conduct: 0.235, }; runAfterLoad(function () { reactList("depleted_uranium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.depleted_uranium.reactions["dirty_water"]; }); elements.molten_depleted_uranium = { behavior: ["XX|CR:fire%2.5 AND CR:alpha_particle%0.01|XX", "M2 AND CR:alpha_particle%0.01|XX|M2 AND CR:alpha_particle%0.01", "M1|M1|M1"], reactions: { neutron: { elem2: null, func: depleted_uranium }, quark_matter: { elem1: "stable_uranium" }, }, }; elements.enriched_uranium = { color: ["#599e61", "#364d3c", "#494d4a", "#6c8a42", "#798d65", "#b5e089"], behavior: ["XX|CR:radiation%2.5 AND CR:alpha_particle%0.1|XX", "CR:radiation%2.5 AND CR:alpha_particle%0.1|CH:thorium%0.05 AND CH:protactinium%0.01|CR:radiation%2.5 AND CR:alpha_particle%0.1", "M2|M1|M2"], reactions: { neutron: { func: enriched_uranium, temp1: 150 }, oxygen: { elem1: "enriched_uranium_dioxide", elem2: null, chance: 0.1 }, meat: { elem2: "rotten_meat", chance: 0.1 }, cheese: { elem2: "rotten_cheese", chance: 0.1 }, quark_matter: { elem1: "stable_uranium" }, }, tempHigh: 1132.2, category: "powders", hidden: true, state: "solid", density: 19100, hardness: 0.6, conduct: 0.235, excludeRandom: true, }; runAfterLoad(function () { reactList("enriched_uranium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.enriched_uranium.reactions["dirty_water"]; }); runAfterLoad(function () { reactList("uranium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.uranium.reactions["dirty_water"]; }); elements.molten_enriched_uranium = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%2.5 AND CR:alpha_particle%0.1|XX", "M2 AND CR:radiation%2.5 AND CR:alpha_particle%0.1|XX|M2 AND CR:radiation%2.5 AND CR:alpha_particle%0.1", "M1|M1|M1"], reactions: { neutron: { func: enriched_uranium, temp1: 150 }, quark_matter: { elem1: "stable_uranium" }, }, excludeRandom: true, }; function enriched_uranium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } if (Math.random() < 0.1) { changePixel(pixel, "neptunium"); } elementCircle(p.x, p.y, 2, "neutron"); } function depleted_uranium(pixel) { if (Math.random() < 0.1) { changePixel(pixel, "plutonium"); } } elements.stable_uranium = { color: [blendColors("#599e61", "#ff0000"), blendColors("#364d3c", "#00ff00"), blendColors("#494d4a", "#0000ff"), blendColors("#6c8a42", "#ff0000"), blendColors("#798d65", "#00ff00"), blendColors("#b5e089", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "stable_uranium_dioxide", elem2: null, chance: 0.1 }, meat: { elem2: "rotten_meat", chance: 0.1 }, cheese: { elem2: "rotten_cheese", chance: 0.1 }, water: { elem2: "dirty_water", chance: 0.25 }, }, tempHigh: 1132.2, category: "powders", hidden: true, state: "solid", density: 19100, hardness: 0.6, conduct: 0.235, }; runAfterLoad(function () { reactList("stable_uranium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.stable_uranium.reactions["dirty_water"]; }); elements.uranium.reactions["oxygen"] = { elem1: "uranium_dioxide", elem2: null, chance: 0.1 }; elements.uranium.reactions["quark_matter"] = { elem1: "stable_uranium" }; elements.uranium.behavior = ["XX|CR:radiation%1 AND CR:alpha_particle%0.01|XX", "CR:radiation%1 AND CR:alpha_particle%0.01|CH:thorium%0.001|CR:radiation%1 AND CR:alpha_particle%0.01", "M2|M1|M2"]; elements.molten_uranium.behavior = ["XX|CR:fire%2.5 AND CR:radiation%1 AND CR:alpha_particle%0.01|XX", "M2 AND CR:radiation%1 AND CR:alpha_particle%0.01|XX|M2 AND CR:radiation%1 AND CR:alpha_particle%0.01", "M1|M1|M1"]; elements.molten_uranium.reactions["quark_matter"] = { elem1: "stable_uranium" }; elements.molten_uranium.excludeRandom = true; eListAddIon("URANIUMIV", "uranium_dioxide"); eListAddIon("OXIDE", "uranium_dioxide"); eListAdd("INSOLUBLE", "uranium_dioxide"); eListAddIon("ENRICHEDURANIUMIV", "enriched_uranium_dioxide"); eListAddIon("OXIDE", "enriched_uranium_dioxide"); eListAdd("INSOLUBLE", "enriched_uranium_dioxide"); eListAddIon("DEPLETEDURANIUMIV", "depleted_uranium_dioxide"); eListAddIon("OXIDE", "depleted_uranium_dioxide"); eListAdd("INSOLUBLE", "depleted_uranium_dioxide"); eListAddIon("STABLEURANIUMIV", "stable_uranium_dioxide"); eListAddIon("OXIDE", "stable_uranium_dioxide"); eListAdd("INSOLUBLE", "stable_uranium_dioxide"); elements.uranium_dioxide = { color: ["#474744", "#21211f", "#2b2b2b", "#9c998c", "#40403f", "#24231d"], behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], reactions: { neutron: { temp1: 25 }, }, tempHigh: 2865, category: "powders", state: "solid", density: 10970, }; elements.molten_uranium_dioxide = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.05|XX", "M2 AND CR:radiation%0.05|XX|M2 AND CR:radiation%0.05", "M1|M1|M1"], reactions: { neutron: { temp1: 25 }, }, }; elements.depleted_uranium_dioxide = { color: ["#474744", "#21211f", "#2b2b2b", "#9c998c", "#40403f", "#24231d"], behavior: behaviors.POWDER, reactions: { neutron: { elem2: null }, }, tempHigh: 2865, category: "powders", hidden: true, state: "solid", density: 10970, }; elements.stable_uranium_dioxide = { color: [blendColors("#474744", "#ff0000"), blendColors("#21211f", "#00ff00"), blendColors("#2b2b2b", "#0000ff"), blendColors("#9c998c", "#ff0000"), blendColors("#40403f", "#00ff00"), blendColors("#24231d", "#0000ff")], behavior: behaviors.POWDER, reactions: { neutron: { elem2: null }, }, tempHigh: 2865, category: "powders", hidden: true, state: "solid", density: 10970, }; elements.enriched_uranium_dioxide = { color: ["#474744", "#21211f", "#2b2b2b", "#9c998c", "#40403f", "#24231d"], behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: { neutron: { func: function (pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } elementCircle(p.x, p.y, 2, "neutron"); }, temp1: 150, }, }, tempHigh: 2865, category: "powders", hidden: true, state: "solid", density: 10970, excludeRandom: true, }; elements.molten_enriched_uranium_dioxide = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.25|XX", "M2 AND CR:radiation%0.25|XX|M2 AND CR:radiation%0.25", "M1|M1|M1"], reactions: { neutron: { func: function (pixel, p) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 2, "neutron"); }, }, }, excludeRandom: true, }; function reduce(element, element2, result) { if (element2 === "oxygen") { Object.assign(elements[element].reactions, { molten_magnesium: { elem1: result, elem2: "magnesium_oxide" }, molten_calcium: { elem1: result, elem2: "quicklime" }, //"molten_sodium": { elem1: result, elem2: "sodium_oxide"}, }); } if (element2 === "fluorine") { Object.assign(elements[element].reactions, { molten_magnesium: { elem1: result, elem2: "magnesium_fluoride" }, molten_calcium: { elem1: result, elem2: "fluorite" }, molten_sodium: { elem1: result, elem2: "sodium_fluoride" }, molten_potassium: { elem1: result, elem2: "potassium_fluoride" }, }); } } reduce("uranium_dioxide", "oxygen", "uranium"); reduce("enriched_uranium_dioxide", "oxygen", "enriched_uranium"); reduce("depleted_uranium_dioxide", "oxygen", "depleted_uranium"); reduce("stable_uranium_dioxide", "oxygen", "stable_uranium"); acidReact("hydrofluoric_acid", "uranium_dioxide", "uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "depleted_uranium_dioxide", "depleted_uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "enriched_uranium_dioxide", "enriched_uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "stable_uranium_dioxide", "stable_uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "uranium_dioxide", "uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "depleted_uranium_dioxide", "depleted_uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "enriched_uranium_dioxide", "enriched_uranium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "stable_uranium_dioxide", "stable_uranium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "uranium_dioxide", "uranium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "depleted_uranium_dioxide", "depleted_uranium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "enriched_uranium_dioxide", "enriched_uranium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "stable_uranium_dioxide", "stable_uranium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "uranium_dioxide", "uranium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "depleted_uranium_dioxide", "depleted_uranium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "enriched_uranium_dioxide", "enriched_uranium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "stable_uranium_dioxide", "stable_uranium_tetrafluoride", "fire"); elements.hydrofluoric_acid.ignore.push("uranium_hexafluoride", "enriched_uranium_hexafluoride", "depleted_uranium_hexafluoride", "stable_uranium_hexafluoride"); elements.hydrofluoric_acid_gas.ignore.push("uranium_hexafluoride", "enriched_uranium_hexafluoride", "depleted_uranium_hexafluoride", "stable_uranium_hexafluoride"); elements.hydrogen_fluoride.ignore.push("uranium_hexafluoride", "enriched_uranium_hexafluoride", "depleted_uranium_hexafluoride", "stable_uranium_hexafluoride"); elements.liquid_hydrogen_fluoride.ignore.push("uranium_hexafluoride", "enriched_uranium_hexafluoride", "depleted_uranium_hexafluoride", "stable_uranium_hexafluoride"); eListAddIon("URANIUMIV", "uranium_tetrafluoride"); eListAddIon("FLUORIDE", "uranium_tetrafluoride"); eListAdd("INSOLUBLE", "uranium_tetrafluoride"); eListAddIon("ENRICHEDURANIUMIV", "enriched_uranium_tetrafluoride"); eListAddIon("FLUORIDE", "enriched_uranium_tetrafluoride"); eListAdd("INSOLUBLE", "enriched_uranium_tetrafluoride"); eListAddIon("DEPLETEDURANIUMIV", "depleted_uranium_tetrafluoride"); eListAddIon("FLUORIDE", "depleted_uranium_tetrafluoride"); eListAdd("INSOLUBLE", "depleted_uranium_tetrafluoride"); eListAddIon("STABLEURANIUMIV", "stable_uranium_tetrafluoride"); eListAddIon("FLUORIDE", "stable_uranium_tetrafluoride"); eListAdd("INSOLUBLE", "stable_uranium_tetrafluoride"); elements.uranium_tetrafluoride = { color: ["#495747", "#394d38", "#5a7859"], behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], reactions: {}, tempHigh: 1036, category: "powders", state: "solid", density: 6700, hidden: true, }; elements.molten_uranium_tetrafluoride = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.05|XX", "M2 AND CR:radiation%0.05|XX|M2 AND CR:radiation%0.05", "M1|M1|M1"], }; elements.depleted_uranium_tetrafluoride = { color: ["#495747", "#394d38", "#5a7859"], behavior: behaviors.POWDER, reactions: {}, tempHigh: 1036, category: "powders", state: "solid", density: 6700, hidden: true, }; elements.stable_uranium_tetrafluoride = { color: [blendColors("#495747", "#ff0000"), blendColors("#394d38", "#00ff00"), blendColors("#5a7859", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, tempHigh: 1036, category: "powders", state: "solid", density: 6700, hidden: true, }; elements.enriched_uranium_tetrafluoride = { color: ["#495747", "#394d38", "#5a7859"], behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: {}, tempHigh: 1036, category: "powders", state: "solid", density: 6700, hidden: true, }; elements.molten_enriched_uranium_tetrafluoride = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.25|XX", "M2 AND CR:radiation%0.25|XX|M2 AND CR:radiation%0.25", "M1|M1|M1"], }; acidReact("fluorine", "uranium_tetrafluoride", "uranium_hexafluoride", "fire"); acidReact("fluorine", "depleted_uranium_tetrafluoride", "depleted_uranium_hexafluoride", "fire"); acidReact("fluorine", "enriched_uranium_tetrafluoride", "enriched_uranium_hexafluoride", "fire"); acidReact("fluorine", "stable_uranium_tetrafluoride", "stable_uranium_hexafluoride", "fire"); acidReact("liquid_fluorine", "uranium_tetrafluoride", "uranium_hexafluoride", "fire"); acidReact("liquid_fluorine", "depleted_uranium_tetrafluoride", "depleted_uranium_hexafluoride", "fire"); acidReact("liquid_fluorine", "enriched_uranium_tetrafluoride", "enriched_uranium_hexafluoride", "fire"); acidReact("liquid_fluorine", "stable_uranium_tetrafluoride", "stable_uranium_hexafluoride", "fire"); reduce("uranium_tetrafluoride", "fluorine", "uranium"); reduce("enriched_uranium_tetrafluoride", "fluorine", "enriched_uranium"); reduce("depleted_uranium_tetrafluoride", "fluorine", "depleted_uranium"); reduce("stable_uranium_tetrafluoride", "fluorine", "stable_uranium"); eListAddIon("URANIUMVI", "uranium_hexafluoride"); eListAddIon("FLUORIDE", "uranium_hexafluoride"); eListAdd("INSOLUBLE", "uranium_hexafluoride"); eListAddIon("ENRICHEDURANIUMVI", "enriched_uranium_hexafluoride"); eListAddIon("FLUORIDE", "enriched_uranium_hexafluoride"); eListAdd("INSOLUBLE", "enriched_uranium_hexafluoride"); eListAddIon("DEPLETEDURANIUMVI", "depleted_uranium_hexafluoride"); eListAddIon("FLUORIDE", "depleted_uranium_hexafluoride"); eListAdd("INSOLUBLE", "depleted_uranium_hexafluoride"); eListAddIon("STABLEURANIUMVI", "stable_uranium_hexafluoride"); eListAddIon("FLUORIDE", "stable_uranium_hexafluoride"); eListAdd("INSOLUBLE", "stable_uranium_hexafluoride"); elements.uranium_hexafluoride = { color: "#f7fff7", behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], reactions: { hydrogen: { elem1: "uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 56.5, category: "powders", state: "solid", density: 5090, stateHighName: "uranium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.uranium_hexafluoride_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%0.05", "XX"], ["CR:radiation%0.05", "XX", "CR:radiation%0.05"], ["XX", "CR:radiation%0.05", "XX"], ], tick: function (pixel) { pixelTick(pixel, elements[pixel.element].behavior2); }, state: "gas", density: 12.84, reactions: { hydrogen: { elem1: "uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, onCentrifuge: function (pixel) { if (Math.random() < 0.05) { if (Math.random() < 0.8) { changePixel(pixel, "depleted_uranium_hexafluoride"); } else { changePixel(pixel, "enriched_uranium_hexafluoride"); } } }, }; elements.depleted_uranium_hexafluoride = { color: "#f7fff7", behavior: behaviors.POWDER, reactions: { hydrogen: { elem1: "depleted_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 56.5, category: "powders", state: "solid", density: 5090, stateHighName: "depleted_uranium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.depleted_uranium_hexafluoride_gas = { behavior: behaviors.GAS, state: "gas", density: 12.84, reactions: { hydrogen: { elem1: "depleted_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, }; elements.stable_uranium_hexafluoride = { color: [blendColors("#f7fff7", "#ff0000"), blendColors("#f7fff7", "#00ff00"), blendColors("#f7fff7", "#0000ff")], behavior: behaviors.POWDER, reactions: { hydrogen: { elem1: "stable_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 56.5, category: "powders", state: "solid", density: 5090, stateHighName: "stable_uranium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.stable_uranium_hexafluoride_gas = { behavior: behaviors.GAS, state: "gas", density: 12.84, reactions: { hydrogen: { elem1: "stable_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, }; elements.enriched_uranium_hexafluoride = { color: "#f7fff7", behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: { hydrogen: { elem1: "enriched_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 56.5, category: "powders", state: "solid", density: 5090, stateHighName: "enriched_uranium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.enriched_uranium_hexafluoride_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%0.25", "XX"], ["CR:radiation%0.25", "XX", "CR:radiation%0.25"], ["XX", "CR:radiation%0.25", "XX"], ], tick: function (pixel) { pixelTick(pixel, elements[pixel.element].behavior2); }, reactions: { hydrogen: { elem1: "enriched_uranium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, state: "gas", density: 12.84, }; runAfterLoad(function () { reactList("uranium_hexafluoride", eLists.WATER, { elem1: "uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("depleted_uranium_hexafluoride", eLists.WATER, { elem1: "depleted_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("enriched_uranium_hexafluoride", eLists.WATER, { elem1: "enriched_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("stable_uranium_hexafluoride", eLists.WATER, { elem1: "stable_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("uranium_hexafluoride_gas", eLists.WATER, { elem1: "uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("depleted_uranium_hexafluoride_gas", eLists.WATER, { elem1: "depleted_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("enriched_uranium_hexafluoride_gas", eLists.WATER, { elem1: "enriched_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("stable_uranium_hexafluoride_gas", eLists.WATER, { elem1: "stable_uranium_tetrafluoride", elem2: "hydrofluoric_acid" }); }); elements.radium = { color: "#3bdeff", behavior: ["XX|CR:radiation%10|XX", "CR:radiation%10|CH:radon%0.1|CR:radiation%10", "M2|M1|M2"], tick: function (pixel) { pixel.temp += 1; }, reactions: { quark_matter: { elem1: "stable_radium" }, }, tempHigh: 700, category: "powders", state: "solid", density: 5500, conduct: 0.4, }; runAfterLoad(function () { reactList("radium", eLists.WATER, { elem1: ["radium_water", "rad_pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350, func: radiumWater }); }); elements.molten_radium = { behavior: ["XX|CR:radiation%10|XX", "M2 AND CR:radiation%10|CH:radon%0.01|M2 AND CR:radiation%10", "M1|M1|M1"], tick: function (pixel) { pixel.temp += 1; }, reactions: { quark_matter: { elem1: "stable_radium" }, }, conduct: 0.4, }; runAfterLoad(function () { reactList("molten_radium", eLists.WATER, { elem1: ["radium_water", "rad_pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350, func: radiumWater }); }); function radiumWater(pixel) { elementCircle(pixel.x, pixel.y, 15, "radium_water", 0.1, eLists.WATER); } elements.radium_water = { color: "#3bc4ff", behavior: ["XX|CR:radiation%0.05|XX", "M2 AND CR:radiation%0.05|XX|M2 AND CR:radiation%0.05", "M1|M1|M1"], reactions: { head: { elem2: null, chance: 0.4 }, bone: { elem2: ["quicklime", "quicklime"], chance: 0.4 }, bone_marrow: { elem2: ["quicklime", "blood"], chance: 0.4 }, }, tempHigh: 100, stateHigh: "rad_steam", state: "liquid", density: 1100, category: "liquids", hidden: true, tempLow: 0, }; eListAdd("WATER", "radium_water"); elements.actinium = { color: "#62ebf0", behavior: ["XX|CR:alpha_particle%0.1 AND CR:radiation%10|XX", "CR:alpha_particle%0.1 AND CR:radiation%10|CH:radium%0.02|CR:alpha_particle%0.1 AND CR:radiation%10", "M2|M1|M2"], tick: function (pixel) { pixel.temp += 2.5; }, reactions: { quark_matter: { elem1: "stable_actinium" }, }, tempHigh: 1227, category: "powders", state: "solid", density: 10000, conduct: 0.225, }; elements.molten_actinium = { behavior: ["XX|CR:fire%2.5 AND CR:alpha_particle%0.1 AND CR:radiation%10|XX", "M2 AND CR:alpha_particle%0.1 AND CR:radiation%10|CH:radium%0.02|M2 AND CR:alpha_particle%0.1 AND CR:radiation%10", "M1|M1|M1"], tick: function (pixel) { pixel.temp += 2.5; }, reactions: { quark_matter: { elem1: "stable_actinium" }, }, conduct: 0.225, }; elements.thorium = { color: ["#599e8a", "#364d4b", "#494d4c", "#428a58", "#658d7a", "#89e0a2"], behavior: ["XX|CR:alpha_particle%0.01|XX", "CR:alpha_particle%0.01|CH:lead%0.001|CR:alpha_particle%0.01", "XX|CR:alpha_particle%0.01|XX"], reactions: { neutron: { temp1: 100, func: function (pixel, p) { if (Math.random() < 0.1) { changePixel(pixel, "radium"); elementCircle(p.x, p.y, 2, "neutron"); } }, }, oxygen: { elem1: "thorium_dioxide", elem2: null, chance: 0.1 }, quark_matter: { elem1: "stable_thorium" }, }, tempHigh: 1750, category: "solids", state: "solid", density: 11700, hardness: 0.7, conduct: 0.235, }; elements.molten_thorium = { behavior: ["XX|CR:alpha_particle%0.01|XX", "M2 AND CR:alpha_particle%0.01|XX|M2 AND CR:alpha_particle%0.01", "M1|M1|M1"], reactions: { neutron: { temp1: 100, func: function (pixel, p) { if (Math.random() < 0.1) { changePixel(pixel, "radium"); elementCircle(p.x, p.y, 2, "neutron"); } }, }, oxygen: { elem1: "thorium_dioxide", elem2: null }, quark_matter: { elem1: "stable_thorium" }, }, }; elements.protactinium = { color: ["#9899a3", "#44464a", "#5a5b5e"], behavior: ["XX|CR:alpha_particle%0.01 AND CR:radiation%2|XX", "CR:alpha_particle%0.01 AND CR:radiation%2|CH:actinium%0.01|CR:alpha_particle%0.01 AND CR:radiation%2", "M2|M1|M2"], reactions: { quark_matter: { elem1: "stable_protactinium" }, }, tempHigh: 1568, category: "powders", state: "solid", density: 15700, hardness: 0.1, conduct: 0.235, }; elements.molten_protactinium = { behavior: ["XX|CR:fire%2.5 AND CR:alpha_particle%0.01 AND CR:radiation%2|XX", "M2 AND CR:alpha_particle%0.01 AND CR:radiation%2|CH:actinium%0.01|M2 AND CR:alpha_particle%0.01 AND CR:radiation%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_protactinium" }, }, }; elements.neptunium = { color: ["#626580", "#3f4a61", "#4a5463"], behavior: ["XX|CR:neutron%0.1 AND CR:radiation%2|XX", "CR:neutron%0.1 AND CR:radiation%2|CH:thorium%0.025|CR:neutron%0.1 AND CR:radiation%2", "XX|CR:neutron%0.1 AND CR:radiation%2|XX"], reactions: { quark_matter: { elem1: "stable_neptunium" }, neutron: { func: fissile, temp1: 150 }, }, tempHigh: 639, category: "solids", state: "solid", density: 19380, hardness: 0.7, conduct: 0.2, excludeRandom: true, }; elements.molten_neptunium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%0.1 AND CR:radiation%2|XX", "M2 AND CR:neutron%0.1 AND CR:radiation%2|CH:thorium%0.025|M2 AND CR:neutron%0.1 AND CR:radiation%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_neptunium" }, neutron: { func: fissile, temp1: 150 }, }, }; function fissile(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } elementCircle(p.x, p.y, 2, "neutron"); } elements.plutonium = { color: ["#5fc29f", "#5d9e7d", "#5b7d6b"], behavior: ["XX|CR:alpha_particle%0.05 AND CR:radiation%2|XX", "CR:alpha_particle%0.05 AND CR:radiation%2|CH:enriched_uranium%0.025 AND CH:americium%0.025|CR:alpha_particle%0.05 AND CR:radiation%2", "XX|CR:alpha_particle%0.05 AND CR:radiation%2|XX"], reactions: { oxygen: { elem1: "plutonium_dioxide", elem2: null }, quark_matter: { elem1: "stable_plutonium" }, neutron: { func: plutonium, temp1: 100 }, }, tempHigh: 639, category: "solids", state: "solid", density: 19850, hardness: 0.7, conduct: 0.2, excludeRandom: true, }; elements.molten_plutonium = { behavior: ["XX|CR:fire%2.5 AND CR:alpha_particle%0.05 AND CR:radiation%2|XX", "M2 AND CR:alpha_particle%0.05 AND CR:radiation%2|CH:enriched_uranium%0.025|M2 AND CR:alpha_particle%0.05 AND CR:radiation%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_plutonium" }, neutron: { func: plutonium, temp1: 100 }, }, excludeRandom: true, }; elements.enriched_plutonium = { color: ["#5fc29f", "#5d9e7d", "#5b7d6b"], behavior: ["XX|CR:alpha_particle%0.05 AND CR:radiation%2|XX", "CR:alpha_particle%0.05 AND CR:radiation%2|CH:enriched_uranium%0.05|CR:alpha_particle%0.05 AND CR:radiation%2", "XX|CR:alpha_particle%0.05 AND CR:radiation%2|XX"], reactions: { oxygen: { elem1: "enriched_plutonium_dioxide", elem2: null }, quark_matter: { elem1: "stable_plutonium" }, neutron: { func: plutonium, temp1: 150 }, }, tempHigh: 639, category: "solids", state: "solid", density: 19850, hardness: 0.7, conduct: 0.2, excludeRandom: true, }; elements.molten_enriched_plutonium = { behavior: ["XX|CR:fire%2.5 AND CR:alpha_particle%0.05 AND CR:radiation%2|XX", "M2 AND CR:alpha_particle%0.05 AND CR:radiation%2|CH:enriched_uranium%0.025|M2 AND CR:alpha_particle%0.05 AND CR:radiation%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_plutonium" }, neutron: { func: plutonium, temp1: 150 }, }, excludeRandom: true, }; elements.depleted_plutonium = { color: ["#5fc29f", "#5d9e7d", "#5b7d6b"], behavior: ["XX|CR:radiation%2|XX", "CR:radiation%2|CH:enriched_uranium%0.05|CR:radiation%2", "XX|CR:radiation%2|XX"], reactions: { oxygen: { elem1: "depleted_plutonium_dioxide", elem2: null }, quark_matter: { elem1: "stable_plutonium" }, neutron: { func: depleted_plutonium, temp1: 25 }, }, tempHigh: 639, category: "solids", state: "solid", density: 19850, hardness: 0.7, conduct: 0.2, excludeRandom: true, }; elements.molten_depleted_plutonium = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%2|XX", "M2 AND CR:radiation%2|CH:enriched_uranium%0.025|M2 AND CR:radiation%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_plutonium" }, neutron: { func: plutonium, temp1: 25 }, }, }; elements.stable_plutonium = { color: [blendColors("#5fc29f", "#ff0000"), blendColors("#5d9e7d", "#00ff00"), blendColors("#5b7d6b", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "stable_plutonium_dioxide", elem2: null }, }, tempHigh: 639, category: "solids", state: "solid", density: 19850, hardness: 0.7, conduct: 0.2, hidden: true, }; function plutonium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "americium"); } elementCircle(p.x, p.y, 2, "neutron"); } function depleted_plutonium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "americium"); } } runAfterLoad(function () { reactList("plutonium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.plutonium.reactions["dirty_water"]; reactList("enriched_plutonium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.plutonium.reactions["dirty_water"]; reactList("depleted_plutonium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.plutonium.reactions["dirty_water"]; reactList("stable_plutonium", eLists.WATER, { elem2: "dirty_water", chance: 0.25 }); delete elements.stable_plutonium.reactions["dirty_water"]; }); elements.plutonium_dioxide = { color: ["#edcf47", "#c7a924", "#e3c129"], behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: { neutron: { func: function (pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } elementCircle(p.x, p.y, 2, "neutron"); }, temp1: 20, }, }, tempHigh: 2744, category: "powders", hidden: true, state: "solid", density: 11500, excludeRandom: true, }; elements.molten_plutonium_dioxide = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.25|XX", "M2 AND CR:radiation%0.25|XX|M2 AND CR:radiation%0.25", "M1|M1|M1"], reactions: { neutron: { func: function (pixel, p) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 2, "neutron"); }, }, }, excludeRandom: true, }; elements.enriched_plutonium_dioxide = { color: ["#edcf47", "#c7a924", "#e3c129"], behavior: ["XX|CR:radiation%0.5|XX", "CR:radiation%0.5|XX|CR:radiation%0.5", "M2|M1|M2"], reactions: { neutron: { func: function (pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } elementCircle(p.x, p.y, 2, "neutron"); }, temp1: 50, }, }, tempHigh: 2744, category: "powders", hidden: true, state: "solid", density: 11500, excludeRandom: true, }; elements.molten_enriched_plutonium_dioxide = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.5|XX", "M2 AND CR:radiation%0.5|XX|M2 AND CR:radiation%0.5", "M1|M1|M1"], reactions: { neutron: { func: function (pixel, p) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 2, "neutron"); }, }, }, excludeRandom: true, }; elements.depleted_plutonium_dioxide = { color: ["#edcf47", "#c7a924", "#e3c129"], behavior: ["XX|CR:radiation%0.1|XX", "CR:radiation%0.1|XX|CR:radiation%0.1", "M2|M1|M2"], reactions: { neutron: { func: function (pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); } elementCircle(p.x, p.y, 2, "neutron"); }, temp1: 50, }, }, tempHigh: 2744, category: "powders", hidden: true, state: "solid", density: 11500, excludeRandom: true, }; elements.molten_depleted_plutonium_dioxide = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.1|XX", "M2 AND CR:radiation%0.1|XX|M2 AND CR:radiation%0.1", "M1|M1|M1"], reactions: { neutron: { func: function (pixel, p) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 2, "neutron"); }, }, }, excludeRandom: true, }; elements.stable_plutonium_dioxide = { color: [blendColors("#edcf47", "#ff0000"), blendColors("#c7a924", "#00ff00"), blendColors("#e3c129", "#0000ff")], behavior: behaviors.POWDER, reactions: { neutron: { elem2: null }, }, tempHigh: 2744, category: "powders", hidden: true, state: "solid", density: 11500, }; reduce("plutonium_dioxide", "oxygen", "plutonium"); reduce("enriched_plutonium_dioxide", "oxygen", "enriched_plutonium"); reduce("depleted_plutonium_dioxide", "oxygen", "depleted_plutonium"); reduce("stable_plutonium_dioxide", "oxygen", "stable_plutonium"); acidReact("hydrofluoric_acid", "plutonium_dioxide", "plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "enriched_plutonium_dioxide", "enriched_plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "depleted_plutonium_dioxide", "depleted_plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "stable_plutonium_dioxide", "stable_plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "plutonium_dioxide", "plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "enriched_plutonium_dioxide", "enriched_plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "depleted_plutonium_dioxide", "depleted_plutonium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "stable_plutonium_dioxide", "stable_plutonium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "plutonium_dioxide", "plutonium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "enriched_plutonium_dioxide", "enriched_plutonium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "depleted_plutonium_dioxide", "depleted_plutonium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "stable_plutonium_dioxide", "stable_plutonium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "plutonium_dioxide", "plutonium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "enriched_plutonium_dioxide", "enriched_plutonium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "depleted_plutonium_dioxide", "depleted_plutonium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "stable_plutonium_dioxide", "stable_plutonium_tetrafluoride", "fire"); elements.hydrofluoric_acid.ignore.push("plutonium_hexafluoride", "enriched_plutonium_hexafluoride", "depleted_plutonium_hexafluoride", "stable_plutonium_hexafluoride"); elements.hydrofluoric_acid_gas.ignore.push("plutonium_hexafluoride", "enriched_plutonium_hexafluoride", "depleted_plutonium_hexafluoride", "stable_plutonium_hexafluoride"); elements.hydrogen_fluoride.ignore.push("plutonium_hexafluoride", "enriched_plutonium_hexafluoride", "depleted_plutonium_hexafluoride", "stable_plutonium_hexafluoride"); elements.liquid_hydrogen_fluoride.ignore.push("plutonium_hexafluoride", "enriched_plutonium_hexafluoride", "depleted_plutonium_hexafluoride", "stable_plutonium_hexafluoride"); eListAddIon("PLUTONIUMIV", "plutonium_tetrafluoride"); eListAddIon("FLUORIDE", "plutonium_tetrafluoride"); eListAdd("INSOLUBLE", "plutonium_tetrafluoride"); eListAddIon("ENRICHEDPLUTONIUMIV", "enriched_plutonium_tetrafluoride"); eListAddIon("FLUORIDE", "enriched_plutonium_tetrafluoride"); eListAdd("INSOLUBLE", "enriched_plutonium_tetrafluoride"); eListAddIon("DEPLETEDPLUTONIUMIV", "depleted_plutonium_tetrafluoride"); eListAddIon("FLUORIDE", "depleted_plutonium_tetrafluoride"); eListAdd("INSOLUBLE", "depleted_plutonium_tetrafluoride"); eListAddIon("STABLEPLUTONIUMIV", "stable_plutonium_tetrafluoride"); eListAddIon("FLUORIDE", "stable_plutonium_tetrafluoride"); eListAdd("INSOLUBLE", "stable_plutonium_tetrafluoride"); elements.plutonium_tetrafluoride = { color: ["#a13d0b", "#85401d", "#733211"], behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], reactions: {}, tempHigh: 1027, category: "powders", state: "solid", density: 7100, hidden: true, }; elements.enriched_plutonium_tetrafluoride = { color: ["#a13d0b", "#85401d", "#733211"], behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: {}, tempHigh: 1027, category: "powders", state: "solid", density: 7100, hidden: true, }; elements.depleted_plutonium_tetrafluoride = { color: ["#a13d0b", "#85401d", "#733211"], behavior: ["XX|CR:radiation%0.02|XX", "CR:radiation%0.02|XX|CR:radiation%0.02", "M2|M1|M2"], reactions: {}, tempHigh: 1027, category: "powders", state: "solid", density: 7100, hidden: true, }; elements.molten_plutonium_tetrafluoride = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.05|XX", "M2 AND CR:radiation%0.05|XX|M2 AND CR:radiation%0.05", "M1|M1|M1"], }; elements.molten_enriched_plutonium_tetrafluoride = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.1|XX", "M2 AND CR:radiation%0.1|XX|M2 AND CR:radiation%0.1", "M1|M1|M1"], }; elements.molten_depleted_plutonium_tetrafluoride = { behavior: ["XX|CR:fire%2.5 AND CR:radiation%0.02|XX", "M2 AND CR:radiation%0.02|XX|M2 AND CR:radiation%0.02", "M1|M1|M1"], }; elements.stable_plutonium_tetrafluoride = { color: [blendColors("#a13d0b", "#ff0000"), blendColors("#85401d", "#00ff00"), blendColors("#733211", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, tempHigh: 1027, category: "powders", state: "solid", density: 7100, hidden: true, }; acidReact("fluorine", "plutonium_tetrafluoride", [null, null, null, null, "plutonium_hexafluoride"], null); acidReact("fluorine", "enriched_plutonium_tetrafluoride", [null, null, null, null, "enriched_plutonium_hexafluoride"], null); acidReact("fluorine", "depleted_plutonium_tetrafluoride", [null, null, null, null, "depleted_plutonium_hexafluoride"], null); acidReact("fluorine", "stable_plutonium_tetrafluoride", [null, null, null, null, "stable_plutonium_hexafluoride"], null); acidReact("liquid_fluorine", "plutonium_tetrafluoride", [null, null, null, null, "plutonium_hexafluoride"], null); acidReact("liquid_fluorine", "enriched_plutonium_tetrafluoride", [null, null, null, null, "enriched_plutonium_hexafluoride"], null); acidReact("liquid_fluorine", "depleted_plutonium_tetrafluoride", [null, null, null, null, "depleted_plutonium_hexafluoride"], null); acidReact("liquid_fluorine", "stable_plutonium_tetrafluoride", [null, null, null, null, "stable_plutonium_hexafluoride"], null); acidReact("foof", "plutonium_tetrafluoride", "plutonium_hexafluoride", null); acidReact("foof", "enriched_plutonium_tetrafluoride", "enriched_plutonium_hexafluoride", null); acidReact("foof", "depleted_plutonium_tetrafluoride", "depleted_plutonium_hexafluoride", null); acidReact("foof", "stable_plutonium_tetrafluoride", "stable_plutonium_hexafluoride", null); acidReact("solid_foof", "plutonium_tetrafluoride", "plutonium_hexafluoride", null); acidReact("solid_foof", "enriched_plutonium_tetrafluoride", "enriched_plutonium_hexafluoride", null); acidReact("solid_foof", "depleted_plutonium_tetrafluoride", "depleted_plutonium_hexafluoride", null); acidReact("solid_foof", "stable_plutonium_tetrafluoride", "stable_plutonium_hexafluoride", null); elements.foof.ignore.push("radiation"); elements.solid_foof.ignore.push("radiation"); reduce("plutonium_tetrafluoride", "fluorine", "plutonium"); reduce("enriched_plutonium_tetrafluoride", "fluorine", "enriched_plutonium"); reduce("depleted_plutonium_tetrafluoride", "fluorine", "depleted_plutonium"); reduce("stable_plutonium_tetrafluoride", "fluorine", "stable_plutonium"); eListAddIon("PLUTONIUMVI", "plutonium_hexafluoride"); eListAddIon("FLUORIDE", "plutonium_hexafluoride"); eListAdd("INSOLUBLE", "plutonium_hexafluoride"); eListAddIon("ENRICHEDPLUTONIUMVI", "enriched_plutonium_hexafluoride"); eListAddIon("FLUORIDE", "enriched_plutonium_hexafluoride"); eListAdd("INSOLUBLE", "enriched_plutonium_hexafluoride"); eListAddIon("DEPLETEDPLUTONIUMVI", "depleted_plutonium_hexafluoride"); eListAddIon("FLUORIDE", "depleted_plutonium_hexafluoride"); eListAdd("INSOLUBLE", "depleted_plutonium_hexafluoride"); eListAddIon("STABLEPLUTONIUMVI", "stable_plutonium_hexafluoride"); eListAddIon("FLUORIDE", "stable_plutonium_hexafluoride"); eListAdd("INSOLUBLE", "stable_plutonium_hexafluoride"); elements.plutonium_hexafluoride = { color: "#6e2602", behavior: ["XX|CR:radiation%0.05|XX", "CR:radiation%0.05|XX|CR:radiation%0.05", "M2|M1|M2"], reactions: { hydrogen: { elem1: "plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 62.5, category: "powders", state: "solid", density: 5080, stateHighName: "plutonium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.plutonium_hexafluoride_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%0.05", "XX"], ["CR:radiation%0.05", "XX", "CR:radiation%0.05"], ["XX", "CR:radiation%0.05", "XX"], ], tick: function (pixel) { pixelTick(pixel, elements[pixel.element].behavior2); }, state: "gas", density: 14.88, reactions: { hydrogen: { elem1: "plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 280, stateHigh: ["plutonium_tetrafluoride", "fluorine"], onCentrifuge: function (pixel) { if (Math.random() < 0.05) { if (Math.random() < 0.5) { changePixel(pixel, "depleted_plutonium_hexafluoride"); } else { changePixel(pixel, "enriched_plutonium_hexafluoride"); } } }, }; elements.enriched_plutonium_hexafluoride = { color: "#6e2602", behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: { hydrogen: { elem1: "enriched_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 62.5, category: "powders", state: "solid", density: 5080, stateHighName: "enriched_plutonium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.enriched_plutonium_hexafluoride_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%0.25", "XX"], ["CR:radiation%0.25", "XX", "CR:radiation%0.25"], ["XX", "CR:radiation%0.25", "XX"], ], tick: function (pixel) { pixelTick(pixel, elements[pixel.element].behavior2); }, state: "gas", density: 14.88, reactions: { hydrogen: { elem1: "enriched_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 280, stateHigh: ["enriched_plutonium_tetrafluoride", "fluorine"], }; elements.depleted_plutonium_hexafluoride = { color: "#6e2602", behavior: ["XX|CR:radiation%0.25|XX", "CR:radiation%0.25|XX|CR:radiation%0.25", "M2|M1|M2"], reactions: { hydrogen: { elem1: "depleted_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 62.5, category: "powders", state: "solid", density: 5080, stateHighName: "depleted_plutonium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.depleted_plutonium_hexafluoride_gas = { behavior: behaviors.GAS, behavior2: [ ["XX", "CR:radiation%0.01", "XX"], ["CR:radiation%0.01", "XX", "CR:radiation%0.01"], ["XX", "CR:radiation%0.01", "XX"], ], tick: function (pixel) { pixelTick(pixel, elements[pixel.element].behavior2); }, state: "gas", density: 14.88, reactions: { hydrogen: { elem1: "depleted_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 280, stateHigh: ["depleted_plutonium_tetrafluoride", "fluorine"], }; elements.stable_plutonium_hexafluoride = { color: [blendColors("#6e2602", "#ff0000"), blendColors("#6e2602", "#00ff00"), blendColors("#6e2602", "#0000ff")], behavior: behaviors.POWDER, reactions: { hydrogen: { elem1: "stable_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 62.5, category: "powders", state: "solid", density: 5080, stateHighName: "stable_plutonium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.stable_plutonium_hexafluoride_gas = { behavior: behaviors.GAS, state: "gas", density: 14.88, reactions: { hydrogen: { elem1: "stable_plutonium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 280, stateHigh: ["stable_plutonium_tetrafluoride", "fluorine"], }; runAfterLoad(function () { reactList("plutonium_hexafluoride", eLists.WATER, { elem1: "plutonium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("enriched_plutonium_hexafluoride", eLists.WATER, { elem1: "enriched_plutonium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("depleted_plutonium_hexafluoride", eLists.WATER, { elem1: "depleted_plutonium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("stable_plutonium_hexafluoride", eLists.WATER, { elem1: "stable_plutonium_tetrafluoride", elem2: "hydrofluoric_acid" }); }); elements.americium = { color: ["#42ebaf", "#59d998", "#d0dbd5"], behavior: ["XX|CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2|XX", "CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2|CH:neptunium%0.05 AND CH:plutonium%0.05|CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2", "XX|CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2|XX"], reactions: { quark_matter: { elem1: "stable_americium" }, neutron: { func: americium, temp1: 150 }, }, tempHigh: 1176, category: "solids", state: "solid", density: 12000, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_americium = { color: [blendColors("#42ebaf", "#ff0000"), blendColors("#59d998", "#00ff00"), blendColors("#d0dbd5", "#0000ff")], behavior: behaviors.WALL, tempHigh: 1176, category: "solids", state: "solid", density: 12000, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_americium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2|XX", "M2 AND CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2|CH:neptunium%0.05 AND CH:plutonium%0.05|M2 AND CR:neutron%0.1 AND CR:radiation%2 AND CR:alpha_particle%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_americium" }, neutron: { func: americium, temp1: 150 }, }, excludeRandom: true, }; function americium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "curium"); } elementCircle(p.x, p.y, 2, "neutron"); } elements.curium = { color: ["#fab1f1", "#d6c9d5", "#e0b1d6"], behavior: ["XX|CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1|CH:plutonium%0.075|CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1", "XX|CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1|XX"], reactions: { quark_matter: { elem1: "stable_curium" }, neutron: { func: curium, temp1: 175 }, }, tempHigh: 1340, category: "solids", state: "solid", density: 13510, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_curium = { color: [blendColors("#fab1f1", "#ff0000"), blendColors("#d6c9d5", "#00ff00"), blendColors("#e0b1d6", "#0000ff")], behavior: behaviors.WALL, tempHigh: 1340, category: "solids", state: "solid", density: 13510, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_curium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "M2 AND CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1|CH:plutonium%0.075|M2 AND CR:neutron%0.5 AND CR:radiation%1 AND CR:alpha_particle%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_curium" }, neutron: { func: curium, temp1: 150 }, }, excludeRandom: true, }; function curium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "berkelium"); } elementCircle(p.x, p.y, 2, "neutron"); } elements.berkelium = { color: ["#f2edfa", "#bdbccf", "#d7cae8"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:californium%0.075|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX"], reactions: { quark_matter: { elem1: "stable_berkelium" }, neutron: { func: berkelium, temp1: 175 }, }, tempHigh: 986, category: "solids", state: "solid", density: 13250, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_berkelium = { color: [blendColors("#f2edfa", "#ff0000"), blendColors("#bdbccf", "#00ff00"), blendColors("#d7cae8", "#0000ff")], behavior: behaviors.WALL, tempHigh: 986, category: "solids", state: "solid", density: 13250, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_berkelium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:californium%0.075|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_berkelium" }, neutron: { func: berkelium, temp1: 150 }, }, excludeRandom: true, }; function berkelium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "californium"); } elementCircle(p.x, p.y, 2, "neutron", 0.2); } elements.californium = { color: ["#dfd0f7", "#bcbade", "#b99be0"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:curium%0.05 AND CH:einsteinium%0.05|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX"], reactions: { quark_matter: { elem1: "stable_californium" }, neutron: { func: californium, temp1: 175 }, }, tempHigh: 900, category: "solids", state: "solid", density: 15100, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_californium = { color: [blendColors("#dfd0f7", "#ff0000"), blendColors("#bcbade", "#00ff00"), blendColors("#b99be0", "#0000ff")], behavior: behaviors.WALL, tempHigh: 900, category: "solids", state: "solid", density: 15100, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_californium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:curium%0.05 AND CH:einsteinium%0.05|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_californium" }, neutron: { func: californium, temp1: 150 }, }, excludeRandom: true, }; function californium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "einsteinium"); } elementCircle(p.x, p.y, 2, "neutron", 0.25); } elements.einsteinium = { color: ["#3aa6c2", "#b8edf1", "#83d9e4"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:berkelium%0.05 AND CH:fermium%0.05|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX"], reactions: { quark_matter: { elem1: "stable_einsteinium" }, neutron: { func: einsteinium, temp1: 175 }, }, tempHigh: 1133, category: "solids", state: "solid", density: 8840, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_einsteinium = { color: [blendColors("#3aa6c2", "#ff0000"), blendColors("#b8edf1", "#00ff00"), blendColors("#83d9e4", "#0000ff")], behavior: behaviors.WALL, tempHigh: 1133, category: "solids", state: "solid", density: 8840, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_einsteinium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:berkelium%0.05 AND CH:fermium%0.05|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_einsteinium" }, neutron: { func: einsteinium, temp1: 150 }, }, excludeRandom: true, }; function einsteinium(pixel, p) { if (pixel.temp >= 500) { transmuteAround(pixel); changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } if (Math.random() < 0.1) { changePixel(pixel, "fermium"); } elementCircle(p.x, p.y, 3, "neutron"); } elements.fermium = { color: ["#c8a7fc", "#cecbf2", "#d5bff2"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:californium%0.1|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX"], reactions: { quark_matter: { elem1: "stable_fermium" }, neutron: { func: fermium, temp1: 175 }, }, tempHigh: 1800, category: "solids", state: "solid", density: 9710, hardness: 0.9, conduct: 0.2, excludeRandom: true, }; elements.stable_fermium = { color: [blendColors("#c8a7fc", "#ff0000"), blendColors("#cecbf2", "#00ff00"), blendColors("#d5bff2", "#0000ff")], behavior: behaviors.WALL, tempHigh: 1800, category: "solids", state: "solid", density: 9710, hardness: 0.9, conduct: 0.2, hidden: true, }; elements.molten_fermium = { behavior: ["XX|CR:fire%2.5 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1|CH:californium%0.1|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_fermium" }, neutron: { func: fermium, temp1: 150 }, }, excludeRandom: true, }; function fermium(pixel, p) { if (pixel.temp >= 500) { changePixel(pixel, "n_explosion"); elementCircle(p.x, p.y, 5, "neutron"); } elementCircle(p.x, p.y, 3, "neutron", 0.2); } function transmuteAround(pixel) { elementCircle(pixel.x, pixel.y, 40, "radium", 0.1, ["thorium", "molten_thorium"]); elementCircle(pixel.x, pixel.y, 40, "plutonium", 0.1, ["depleted_uranium", "molten_depleted_uranium"]); elementCircle(pixel.x, pixel.y, 40, "neptunium", 0.1, ["enriched_uranium", "molten_enriched_uranium"]); elementCircle(pixel.x, pixel.y, 40, "americium", 0.1, ["plutonium", "molten_plutonium"]); elementCircle(pixel.x, pixel.y, 40, "curium", 0.1, ["americium", "molten_americium"]); elementCircle(pixel.x, pixel.y, 40, "berkelium", 0.1, ["curium", "molten_curium"]); elementCircle(pixel.x, pixel.y, 40, "californium", 0.1, ["berkelium", "molten_berkelium"]); elementCircle(pixel.x, pixel.y, 40, "einsteinium", 0.1, ["californium", "molten_californium"]); elementCircle(pixel.x, pixel.y, 40, "fermium", 0.1, ["einsteinium", "molten_einsteinium"]); } function elementCircle(x, y, radius, pixelType = "fire", chance = 0.1, replace = [null]) { if (!Array.isArray(replace)) { replace = [replace]; } // if pixelType includes , split it into an array if (pixelType.indexOf(",") !== -1) { pixelType = pixelType.split(","); } var coords = circleCoords(x, y, radius); for (var i = 0; i < coords.length; i++) { if (isEmpty(coords[i].x, coords[i].y) && replace.includes(null)) { if (Math.random() <= chance) { // if pixelType is an array, choose a random item if (Array.isArray(pixelType)) { createPixel(pixelType[Math.floor(Math.random() * pixelType.length)], coords[i].x, coords[i].y); } else { createPixel(pixelType, coords[i].x, coords[i].y); } } } if (!isEmpty(coords[i].x, coords[i].y, true) && replace.includes(pixelMap[coords[i].x][coords[i].y].element)) { if (Math.random() <= chance) { // if pixelType is an array, choose a random item if (Array.isArray(pixelType)) { changePixel(pixelMap[coords[i].x][coords[i].y], pixelType[Math.floor(Math.random() * pixelType.length)]); } else { changePixel(pixelMap[coords[i].x][coords[i].y], pixelType); } } } } } elements.thorium_dioxide = { color: ["#313331", "#1a1a18", "#171717", "#24231d", "#262622", "#171613"], behavior: ["XX|CR:radiation%0.01|XX", "CR:radiation%0.01|XX|CR:radiation%0.01", "M2|M1|M2"], reactions: {}, hidden: true, tempHigh: 2865, category: "powders", state: "solid", density: 10970, }; elements.stable_thorium_dioxide = { color: [blendColors("#313331", "#ff0000"), blendColors("#1a1a18", "#00ff00"), blendColors("#171717", "#0000ff"), blendColors("#24231d", "#ff0000"), blendColors("#262622", "#00ff00"), blendColors("#171613", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, hidden: true, tempHigh: 2865, category: "powders", state: "solid", density: 10970, }; eListAddIon("THORIUMIV", "thorium_dioxide"); eListAddIon("OXIDE", "thorium_dioxide"); eListAdd("INSOLUBLE", "thorium_dioxide"); eListAddIon("STABLETHORIUMIV", "stable_thorium_dioxide"); eListAddIon("OXIDE", "stable_thorium_dioxide"); eListAdd("INSOLUBLE", "stable_thorium_dioxide"); acidReact("hydrofluoric_acid", "thorium_dioxide", "thorium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid", "stable_thorium_dioxide", "stable_thorium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "thorium_dioxide", "thorium_tetrafluoride", "fire"); acidReact("hydrofluoric_acid_gas", "stable_thorium_dioxide", "stable_thorium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "thorium_dioxide", "thorium_tetrafluoride", "fire"); acidReact("hydrogen_fluoride", "stable_thorium_dioxide", "stable_thorium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "thorium_dioxide", "thorium_tetrafluoride", "fire"); acidReact("liquid_hydrogen_fluoride", "stable_thorium_dioxide", "stable_thorium_tetrafluoride", "fire"); elements.thorium_tetrafluoride = { color: "#e5e6e5", behavior: ["XX|CR:radiation%0.01|XX", "CR:radiation%0.01|XX|CR:radiation%0.01", "M2|M1|M2"], reactions: {}, hidden: true, tempHigh: 1110, category: "powders", state: "solid", density: 6300, }; elements.stable_thorium_tetrafluoride = { color: [blendColors("#e5e6e5", "#ff0000"), blendColors("#e5e6e5", "#00ff00"), blendColors("#e5e6e5", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, hidden: true, tempHigh: 1110, category: "powders", state: "solid", density: 6300, }; eListAddIon("THORIUMIV", "thorium_tetrafluoride"); eListAddIon("OXIDE", "thorium_tetrafluoride"); eListAdd("INSOLUBLE", "thorium_tetrafluoride"); eListAddIon("STABLETHORIUMIV", "stable_thorium_tetrafluoride"); eListAddIon("OXIDE", "stable_thorium_tetrafluoride"); eListAdd("INSOLUBLE", "stable_thorium_tetrafluoride"); reduce("thorium_dioxide", "oxygen", "thorium"); reduce("stable_thorium_dioxide", "oxygen", "stable_thorium"); reduce("thorium_tetrafluoride", "fluorine", "thorium"); reduce("stable_thorium_tetrafluoride", "fluorine", "stable_thorium"); elements.stable_thorium = { color: [blendColors("#599e8a", "#ff0000"), blendColors("#364d4b", "#00ff00"), blendColors("#494d4c", "#0000ff"), blendColors("#428a58", "#ff0000"), blendColors("#658d7a", "#00ff00"), blendColors("#89e0a2", "#0000ff")], behavior: behaviors.WALL, reactions: { oxygen: { elem1: "stable_thorium_dioxide", elem2: null }, }, tempHigh: 1750, category: "solids", state: "solid", hidden: true, density: 11700, hardness: 0.7, conduct: 0.235, }; elements.molten_stable_thorium = { reactions: { oxygen: { elem1: "stable_thorium_dioxide", elem2: null }, }, }; elements.stable_radium = { color: [blendColors("#3bdeff", "#ff0000"), blendColors("#3bdeff", "#00ff00"), blendColors("#3bdeff", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "radium_oxide" }, }, tempHigh: 700, category: "powders", state: "solid", density: 5500, hidden: true, conduct: 0.4, }; elements.radium_oxide = { color: [blendColors("#b2d9d9", "#ff0000", 0.25), blendColors("#b2d9d9", "#00ff00", 0.25), blendColors("#b2d9d9", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, hidden: true, tempHigh: 2327, category: "powders", state: "solid", density: 12000, }; eListAddIon("RADIUM", "radium_oxide"); eListAddIon("OXIDE", "radium_oxide"); eListAdd("INSOLUBLE", "radium_oxide"); elements.radium_hydroxide = { color: [blendColors("#f2fafa", "#ff0000", 0.25), blendColors("#f2fafa", "#00ff00", 0.25), blendColors("#f2fafa", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 600, reactions: {}, stateHigh: "radium_oxide", category: "powders", state: "solid", density: 12000, }; eListAdd("BASE", "radium_hydroxide"); eListAddIon("RADIUM", "radium_hydroxide", "base"); eListAddIon("HYDROXIDE", "radium_hydroxide", "base"); eListAdd("INSOLUBLE", "radium_hydroxide"); createSalt("radium_chloride", "radium_chloride_solution", [blendColors("#faf3de", "#ff0000", 0.25), blendColors("#faf3de", "#00ff00", 0.25), blendColors("#faf3de", "#0000ff", 0.25)], [blendColors("#8eadef", "#ff0000", 0.25), blendColors("#8eadef", "#00ff00", 0.25), blendColors("#8eadef", "#0000ff", 0.25)], true, true, 900, -2, 102, 4900, 1050, "RADIUM", "CHLORIDE"); elements.radium_chloride_solution.reactions["mercury"] = { elem1: ["stable_radium", "chlorine", "hydrogen"], charged: true, chance: 0.02 }; elements.molten_stable_radium = { reactions: { oxygen: { elem1: "radium_oxide" }, }, conduct: 0.4, }; runAfterLoad(function () { reactList("radium_oxide", eLists.WATER, { elem1: "radium_hydroxide", elem2: null, chance: 0.01 }); reactList("stable_radium", eLists.WATER, { elem1: ["radium_hydroxide", "pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350 }); reactList("molten_stable_radium", eLists.WATER, { elem1: ["radium_hydroxide", "pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350 }); }); elements.stable_actinium = { color: [blendColors("#e5e6e5", "#ff0000", 0.25), blendColors("#62ebf0", "#00ff00"), blendColors("#62ebf0", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "actinium_oxide" }, }, hidden: true, tempHigh: 1227, category: "powders", state: "solid", density: 10000, conduct: 0.225, }; elements.molten_stable_actinium = { reactions: { oxygen: { elem1: "actinium_oxide" }, }, conduct: 0.225, }; runAfterLoad(function () { reactList("stable_actinium", eLists.WATER, { elem1: "actinium_hydroxide", elem2: "hydrogen", chance: 0.01 }); reactList("molten_stable_actinium", eLists.WATER, { elem1: "actinium_hydroxide", elem2: "hydrogen", chance: 0.01 }); }); elements.actinium_oxide = { color: [blendColors("#ebf5f5", "#ff0000", 0.25), blendColors("#ebf5f5", "#00ff00", 0.25), blendColors("#ebf5f5", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: { water: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, salt_water: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, sugar_water: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, dirty_water: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, steam: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, seltzer: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, pool_water: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, primordial_soup: { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }, }, hidden: true, tempHigh: 2327, category: "powders", state: "solid", density: 12000, }; runAfterLoad(function () { reactList("actinium_oxide", eLists.WATER, { elem1: "actinium_hydroxide", elem2: null, chance: 0.01 }); }); elements.actinium_hydroxide = { color: [blendColors("#f2cef2", "#ff0000", 0.25), blendColors("#f2cef2", "#00ff00", 0.25), blendColors("#f2cef2", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 350, stateHigh: ["actinium_oxide", "steam"], category: "powders", state: "solid", density: 12000, }; eListAdd("BASE", "actinium_hydroxide"); eListAddIon("ACTINIUM", "actinium_hydroxide", "base"); eListAddIon("HYDROXIDE", "actinium_hydroxide", "base"); eListAdd("INSOLUBLE", "actinium_hydroxide"); reduce("actinium_oxide", "oxygen", "stable_actinium"); elements.stable_protactinium = { color: [blendColors("#9899a3", "#ff0000"), blendColors("#44464a", "#00ff00"), blendColors("#5a5b5e", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "protactinium_v_oxide", chance: 0.01 }, steam: { elem1: "protactinium_hydroxide", elem2: "hydrogen", chance: 0.01 }, }, tempHigh: 1568, category: "powders", state: "solid", density: 15700, hardness: 0.1, conduct: 0.235, hidden: true, }; elements.molten_stable_protactinium = { reactions: { oxygen: { elem1: "protactinium_v_oxide", chance: 0.01 }, steam: { elem1: "protactinium_hydroxide", elem2: "hydrogen", chance: 0.01 }, }, }; eListAdd("BASE", "protactinium_hydroxide"); eListAddIon("PROTACTINIUMV", "protactinium_hydroxide", "base"); eListAddIon("HYDROXIDE", "protactinium_hydroxide", "base"); eListAdd("INSOLUBLE", "protactinium_hydroxide"); elements.protactinium_hydroxide = { color: [blendColors("#95c7c7", "#ff0000", 0.25), blendColors("#95c7c7", "#00ff00", 0.25), blendColors("#95c7c7", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 350, category: "powders", state: "solid", stateHigh: ["protactinium_v_oxide", "steam"], density: 12000, }; elements.protactinium_v_oxide = { color: [blendColors("#353b3b", "#ff0000", 0.25), blendColors("#353b3b", "#00ff00", 0.25), blendColors("#353b3b", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 2500, category: "powders", state: "solid", density: 12000, reactions: {}, }; eListAddIon("PROTACTINIUMV", "protactinium_v_oxide"); eListAddIon("OXIDE", "protactinium_v_oxide"); eListAdd("INSOLUBLE", "protactinium_v_oxide"); acidReact("hydrofluoric_acid", "protactinium_v_oxide", "protactinium_pentafluoride", "fire", 0); acidReact("hydrofluoric_acid_gas", "protactinium_v_oxide", "protactinium_pentafluoride", "fire", 0); acidReact("hydrogen_fluoride", "protactinium_v_oxide", "protactinium_pentafluoride", "fire", 0); acidReact("liquid_hydrogen_fluoride", "protactinium_v_oxide", "protactinium_pentafluoride", "fire", 0); elements.protactinium_pentafluoride = { color: [blendColors("#cbf2ec", "#ff0000", 0.25), blendColors("#cbf2ec", "#00ff00", 0.25), blendColors("#cbf2ec", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 2500, category: "powders", state: "solid", density: 12000, reactions: {}, }; eListAddIon("PROTACTINIUMV", "protactinium_pentafluoride"); eListAddIon("OXIDE", "protactinium_pentafluoride"); eListAdd("INSOLUBLE", "protactinium_pentafluoride"); reduce("protactinium_v_oxide", "oxygen", "stable_protactinium"); reduce("protactinium_pentafluoride", "fluorine", "stable_protactinium"); elements.stable_neptunium = { color: [blendColors("#626580", "#ff0000"), blendColors("#3f4a61", "#00ff00"), blendColors("#4a5463", "#0000ff")], behavior: behaviors.WALL, reactions: { oxygen: { elem1: "neptunium_dioxide", chance: 0.01 }, }, tempHigh: 639, category: "solids", state: "solid", density: 19380, hardness: 0.7, conduct: 0.2, hidden: true, }; elements.molten_stable_neptunium = { reactions: { oxygen: { elem1: "neptunium_dioxide", chance: 0.01 }, }, }; elements.neptunium_dioxide = { color: [blendColors("#47c94f", "#ff0000"), blendColors("#47c94f", "#00ff00"), blendColors("#47c94f", "#0000ff")], behavior: behaviors.POWDER, hidden: true, tempHigh: 2600, category: "powders", state: "solid", density: 12000, reactions: {}, }; eListAddIon("NEPTUNIUMIV", "neptunium_dioxide"); eListAddIon("OXIDE", "neptunium_dioxide"); eListAdd("INSOLUBLE", "neptunium_dioxide"); elements.neptunium_tetrafluoride = { color: [blendColors("#73e67a", "#ff0000"), blendColors("#73e67a", "#00ff00"), blendColors("#73e67a", "#0000ff")], behavior: behaviors.POWDER, hidden: true, tempHigh: 2550, category: "powders", state: "solid", density: 12000, reactions: {}, }; eListAddIon("NEPTUNIUMIV", "neptunium_tetrafluoride"); eListAddIon("FLUORIDE", "neptunium_tetrafluoride"); eListAdd("INSOLUBLE", "neptunium_tetrafluoride"); acidReact("hydrofluoric_acid", "neptunium_dioxide", "neptunium_tetrafluoride", "fire", 0); acidReact("hydrofluoric_acid_gas", "neptunium_dioxide", "neptunium_tetrafluoride", "fire", 0); acidReact("hydrogen_fluoride", "neptunium_dioxide", "neptunium_tetrafluoride", "fire", 0); acidReact("liquid_hydrogen_fluoride", "neptunium_dioxide", "neptunium_tetrafluoride", "fire", 0); acidReact("fluorine", "neptunium_tetrafluoride", "neptunium_hexafluoride", "fire", 0); acidReact("liquid_fluorine", "neptunium_tetrafluoride", "neptunium_hexafluoride", "fire", 0); acidReact("fluorine", "neptunium_dioxide", "neptunium_hexafluoride", "fire", 0); acidReact("liquid_fluorine", "neptunium_dioxide", "neptunium_hexafluoride", "fire", 0); eListAddIon("NEPTUNIUMVI", "neptunium_hexafluoride"); eListAddIon("FLUORIDE", "neptunium_hexafluoride"); eListAdd("INSOLUBLE", "neptunium_hexafluoride"); reduce("neptunium_dioxide", "oxygen", "stable_neptunium"); reduce("neptunium_tetrafluoride", "fluorine", "stable_neptunium"); elements.neptunium_hexafluoride = { color: [blendColors("#eda042", "#ff0000"), blendColors("#eda042", "#00ff00"), blendColors("#eda042", "#0000ff")], behavior: behaviors.POWDER, reactions: { hydrogen: { elem1: "neptunium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, tempHigh: 55, category: "powders", state: "solid", density: 5000, stateHighName: "neptunium_hexafluoride_gas", forceAutoGen: true, hidden: true, }; elements.neptunium_hexafluoride_gas = { behavior: behaviors.GAS, state: "gas", density: 14.591, reactions: { hydrogen: { elem1: "neptunium_tetrafluoride", elem2: "hydrogen_fluoride" }, }, }; runAfterLoad(function () { reactList("neptunium_hexafluoride", eLists.WATER, { elem1: "neptunium_tetrafluoride", elem2: "hydrofluoric_acid" }); reactList("neptunium_hexafluoride_gas", eLists.WATER, { elem1: "neptunium_tetrafluoride", elem2: "hydrofluoric_acid" }); }); elements.fallout.reactions = { quark_matter: { elem1: null } }; elements.transactinide_fallout = { color: ["#5ab891", "#00ff5e", "#a7ff4a", "#a2f752"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:fallout%1 AND CH:radium%0.1 AND CH:francium%0.1 AND CH:fermium%0.01 AND CH:einsteinium%0.01 AND CH:californium%0.01 AND CH:berkelium%0.01 AND CH:curium%0.01 AND CH:americium%0.01 AND CH:plutonium%0.01 AND CH:neptunium%0.01 AND CH:uranium%0.01 AND CH:protactinium%0.01 AND CH:thorium%0.01 AND CH:actinium%0.01|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M2|M1|M2"], reactions: { quark_matter: { elem1: null }, }, category: "energy", hidden: true, state: "solid", density: 10000, hardness: 0.9, excludeRandom: true, }; elements.copernicium = { color: ["#a7fcbc", "#8cc299", "#9db9c2"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:transactinide_fallout%1|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_copernicium" }, neutron: { elem1: "nihonium", elem2: null, chance: 0.1 }, }, tempHigh: 67, tempLow: 10, category: "liquids", state: "liquid", density: 14010, hardness: 1.0, conduct: 0.2, stateLowName: "solid_copernicium", tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.solid_copernicium = { behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:transactinide_fallout%1|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX"], reactions: { quark_matter: { elem1: "stable_copernicium" }, neutron: { elem1: "nihonium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.copernicium_gas = { behavior: ["M2|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|M2", "M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:transactinide_fallout%1|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M2|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|M2"], reactions: { quark_matter: { elem1: "stable_copernicium" }, neutron: { elem1: "nihonium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, density: 11.848, }; elements.stable_copernicium = { color: [blendColors("#a7fcbc", "#ff0000"), blendColors("#8cc299", "#00ff00"), blendColors("#9db9c2", "#0000ff")], behavior: behaviors.LIQUID, tempHigh: 67, tempLow: 10, category: "liquids", state: "liquid", density: 14010, conduct: 0.2, stateLowName: "solid_stable_copernicium", hidden: true, }; elements.stable_copernicium_gas = { density: 11.848, reactions: { oxygen: { elem1: "copernicium_dioxide", elem2: null, chance: 0.01 }, molten_sulfur: { elem1: "copernicium_sulfide", elem2: null, tempMax: 421 }, sulfur_gas: { elem1: "copernicium_sulfide", elem2: null, tempMax: 421 }, }, }; elements.copernicium_dioxide = { color: [blendColors("#e6c973", "#ff0000", 0.25), blendColors("#e6c973", "#00ff00", 0.25), blendColors("#e6c973", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 300, //made up category: "powders", state: "solid", density: 13120, //made up stateHigh: ["stable_copernicium_gas", "stable_copernicium_gas", "fire"], reactions: {}, }; eListAddIon("COPERNICIUMIV", "copernicium_dioxide"); eListAddIon("OXIDE", "copernicium_dioxide"); eListAdd("INSOLUBLE", "copernicium_dioxide"); elements.copernicium_sulfide = { color: [blendColors("#9c5f4f", "#ff0000", 0.25), blendColors("#9c5f4f", "#00ff00", 0.25), blendColors("#9c5f4f", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 421, //made up category: "powders", state: "solid", density: 13200, //made up stateHigh: ["stable_copernicium_gas", "molten_sulfur"], }; eListAddIon("COPERNICIUMII", "copernicium_sulfide"); eListAddIon("SULFIDE", "copernicium_sulfide"); eListAdd("INSOLUBLE", "copernicium_sulfide"); elements.copernicium_tetrafluoride = { color: [blendColors("#eff2e4", "#ff0000", 0.25), blendColors("#eff2e4", "#00ff00", 0.25), blendColors("#eff2e4", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 502, //made up category: "powders", state: "solid", density: 12110, //made up stateHigh: ["stable_copernicium_gas", "fluorine"], reactions: {}, }; eListAddIon("COPERNICIUMIV", "copernicium_tetrafluoride"); eListAddIon("FLUORIDE", "copernicium_tetrafluoride"); eListAdd("INSOLUBLE", "copernicium_tetrafluoride"); runAfterLoad(function () { reactList("copernicium_tetrafluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "stable_copernicium" }); }); acidIgnore(["copernicium", "copernicium_gas", "solid_copernicium", "stable_copernicium", "stable_copernicium_gas", "solid_stable_copernicium", "copernicium_tetrafluoride"]); elements.fluorine.ignore.push("copernicium", "copernicium_gas", "solid_copernicium", "stable_copernicium", "stable_copernicium_gas", "solid_stable_copernicium", "copernicium_tetrafluoride"); elements.liquid_fluorine.ignore.push("copernicium", "copernicium_gas", "solid_copernicium", "stable_copernicium", "stable_copernicium_gas", "solid_stable_copernicium", "copernicium_tetrafluoride"); acidReact("copernicium_dioxide", "fluorine", "copernicium_tetrafluoride", "fire"); acidReact("copernicium_dioxide", "liquid_fluorine", "copernicium_tetrafluoride", "fire"); elements.molten_uranium.reactions["molten_calcium"] = { elem1: "copernicium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.molten_depleted_uranium.reactions["molten_calcium"] = { elem1: "copernicium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.molten_enriched_uranium.reactions["molten_calcium"] = { elem1: "copernicium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.nihonium = { color: ["#c94a0a"], //spike viper reference behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:transactinide_fallout%1|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "XX|M1|XX"], reactions: { quark_matter: { elem1: "stable_nihonium" }, neutron: { elem1: "flerovium", elem2: null, chance: 0.1 }, }, tempHigh: 430, category: "powders", state: "solid", density: 16000, hardness: 1.0, conduct: 0.2, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.molten_nihonium = { behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:transactinide_fallout%1|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_nihonium" }, neutron: { elem1: "flerovium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.stable_nihonium = { color: [blendColors("#c94a0a", "#ff0000"), blendColors("#c94a0a", "#00ff00"), blendColors("#c94a0a", "#0000ff")], behavior: behaviors.STURDYPOWDER, reactions: { molten_stable_francium: { elem1: "francium_nihonide", elem2: null }, }, tempHigh: 430, category: "powders", state: "solid", density: 16000, conduct: 0.2, hidden: true, }; acidReact("stable_nihonium", "nitric_acid", "nihonium_nitrate_solution", "nitrogen_dioxide"); acidReact("stable_nihonium", "nitric_acid_gas", "nihonium_nitrate_solution", "nitrogen_dioxide"); elements.nitric_acid.ignore.push("nihonium_nitrate"); elements.nitric_acid_gas.ignore.push("nihonium_nitrate"); acidReact("stable_nihonium", "sulfuric_acid", "nihonium_sulfate_solution", "hydrogen", 50); acidReact("stable_nihonium", "sulfuric_acid_gas", "nihonium_sulfate_solution", "hydrogen", 50); elements.sulfuric_acid.ignore.push("nihonium_sulfate_solution"); elements.sulfuric_acid_gas.ignore.push("nihonium_sulfate_solution"); createSalt("nihonium_nitrate", "nihonium_nitrate_solution", [blendColors("#fccadd", "#ff0000", 0.25), blendColors("#fccadd", "#00ff00", 0.25), blendColors("#fccadd", "#0000ff", 0.25)], [blendColors("#8f19f7", "#ff0000", 0.25), blendColors("#8f19f7", "#00ff00", 0.25), blendColors("#8f19f7", "#0000ff", 0.25)], true, true, 203, -2, 102, 9350, 1090, "NIHONIUM", "NITRATE"); createSalt("nihonium_sulfate", "nihonium_sulfate_solution", [blendColors("#fcf1ca", "#ff0000", 0.25), blendColors("#fcf1ca", "#00ff00", 0.25), blendColors("#fcf1ca", "#0000ff", 0.25)], [blendColors("#1984f7", "#ff0000", 0.25), blendColors("#1984f7", "#00ff00", 0.25), blendColors("#1984f7", "#0000ff", 0.25)], true, true, 1305, -2, 102, 12050, 1092, "NIHONIUM", "SULFATE"); elements.nihonium_nitrate.stateHigh = ["nihonium_oxide", "nitrogen_dioxide", "fire"]; elements.nihonium_hydroxide = { color: [blendColors("#ebc7c7", "#ff0000", 0.25), blendColors("#ebc7c7", "#00ff00", 0.25), blendColors("#ebc7c7", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 292, //made up category: "powders", state: "solid", density: 10220, //made up stateHigh: ["nihonium_oxide", "steam"], reactions: {}, }; eListAdd("INSOLUBLE", "nihonium_hydroxide"); eListAddIon("NIHONIUM", "nihonium_hydroxide"); eListAddIon("HYDROXIDE", "nihonium_hydroxide"); elements.nihonium_oxide = { color: [blendColors("#ab9a95", "#ff0000", 0.25), blendColors("#ab9a95", "#00ff00", 0.25), blendColors("#ab9a95", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 567, //made up category: "powders", state: "solid", density: 12370, //made up reactions: { steam: { elem1: "nihonium_hydroxide", elem2: null, tempMax: 292 }, }, }; eListAdd("INSOLUBLE", "nihonium_oxide"); eListAddIon("NIHONIUM", "nihonium_oxide"); eListAddIon("OXIDE", "nihonium_oxide"); elements.francium_nihonide = { color: [blendColors("#d6d3a9", "#ff0000"), blendColors("#d6d3a9", "#00ff00"), blendColors("#d6d3a9", "#0000ff")], behavior: behaviors.POWDER, hidden: true, tempHigh: 10920, //made up category: "powders", state: "solid", density: 13700, //made up reactions: {}, }; runAfterLoad(function () { reactList("francium_nihonide", eLists.WATER, { elem1: ["nihonium_hydroxide", "francium_hydroxide"], elem2: "hydrogen", temp1: 100, temp2: 100 }); }); eListAdd("INSOLUBLE", "francium_nihonide"); eListAddIon("FRANCIUM", "francium_nihonide"); eListAddIon("NIHONIDE", "francium_nihonide"); elements.molten_neptunium.reactions["molten_calcium"] = { elem1: "nihonium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.flerovium = { color: ["#a8ffe2", "#7ddbcd", "#9dc2b1"], behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:copernicium%1|M2 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_flerovium" }, neutron: { elem1: "moscovium", elem2: null, chance: 0.1 }, }, tempHigh: 107, tempLow: -73, category: "liquids", state: "liquid", density: 11400, hardness: 1.0, conduct: 0.2, stateLowName: "solid_flerovium", tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.solid_flerovium = { behavior: ["XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX", "CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:copernicium%1|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "XX|CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|XX"], reactions: { quark_matter: { elem1: "stable_flerovium" }, neutron: { elem1: "moscovium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, }; elements.flerovium_gas = { behavior: ["M2|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|M2", "M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|CH:copernicium%1|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1", "M2|M1 AND CR:neutron%1 AND CR:radiation%1 AND CR:alpha_particle%1 AND CR:rad_pop%1|M2"], reactions: { quark_matter: { elem1: "stable_flerovium" }, neutron: { elem1: "moscovium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 50; }, excludeRandom: true, density: 12.014, }; elements.stable_flerovium = { color: [blendColors("#a8ffe2", "#ff0000"), blendColors("#7ddbcd", "#00ff00"), blendColors("#9dc2b1", "#0000ff")], behavior: behaviors.LIQUID, reactions: { molten_sulfur: { elem1: "flerovium_sulfide", elem2: null }, }, tempHigh: 107, tempLow: -73, category: "liquids", state: "liquid", density: 14010, conduct: 0.2, stateLowName: "solid_stable_flerovium", hidden: true, }; elements.stable_flerovium_gas = { density: 12.014, reactions: { molten_sulfur: { elem1: "flerovium_sulfide", elem2: null }, }, }; elements.flerovium_sulfide = { color: [blendColors("#121107", "#ff0000", 0.25), blendColors("#121107", "#00ff00", 0.25), blendColors("#121107", "#0000ff", 0.25), blendColors("#d9d8d4", "#ff0000", 0.25), blendColors("#d9d8d4", "#00ff00", 0.25), blendColors("#d9d8d4", "#0000ff", 0.25)], behavior: behaviors.WALL, hidden: true, tempHigh: 1220, //made up category: "solids", state: "solid", density: 14700, //made up burnInto: ["flerovium_oxide", "sulfur_dioxide"], burn: 1, }; eListAdd("INSOLUBLE", "flerovium_sulfide"); eListAddIon("FLEROVIUM", "flerovium_sulfide"); eListAddIon("SULFIDE", "flerovium_sulfide"); elements.flerovium_oxide = { color: [blendColors("#eddb93", "#ff0000", 0.25), blendColors("#eddb93", "#00ff00", 0.25), blendColors("#eddb93", "#0000ff", 0.25)], behavior: behaviors.STURDYPOWDER, hidden: true, reactions: {}, tempHigh: 1120, //made up category: "powders", state: "solid", density: 14320, //made up }; elements.molten_flerovium_oxide = { reactions: { charcoal: { elem1: "stable_flerovium", elem2: "carbon_dioxide" }, }, }; reduce("flerovium_oxide", "oxygen", "stable_flerovium"); eListAdd("INSOLUBLE", "flerovium_sulfide"); eListAddIon("FLEROVIUM", "flerovium_sulfide"); eListAddIon("SULFIDE", "flerovium_sulfide"); elements.molten_plutonium.reactions["molten_calcium"] = { elem1: "flerovium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.molten_depleted_plutonium.reactions["molten_calcium"] = { elem1: "flerovium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.molten_enriched_plutonium.reactions["molten_calcium"] = { elem1: "flerovium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.moscovium = { color: ["#8a3683", "#b0339b", "#d14fcd"], behavior: ["XX|CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2|XX", "CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2|CH:nihonium%1|CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2", "XX|CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2|XX"], reactions: { quark_matter: { elem1: "stable_moscovium" }, neutron: { elem1: "livermorium", elem2: null, chance: 0.1 }, }, tempHigh: 400, category: "solids", state: "solid", density: 13500, hardness: 1.0, conduct: 0.2, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.molten_moscovium = { behavior: ["XX|CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2|XX", "M2 AND CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2|CH:nihonium%1|CR:neutron%2 AND CR:radiation%2 AND CR:alpha_particle%2 AND CR:rad_pop%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_moscovium" }, neutron: { elem1: "livermorium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.stable_moscovium = { color: [blendColors("#8a3683", "#ff0000"), blendColors("#b0339b", "#00ff00"), blendColors("#d14fcd", "#0000ff")], behavior: behaviors.WALL, reactions: { //TODO }, tempHigh: 400, category: "solids", state: "solid", density: 13500, conduct: 0.2, hidden: true, }; runAfterLoad(function () { reactList("stable_moscovium", eLists.WATER, { elem1: "moscovium_hydroxide_solution", elem2: "hydrogen", chance: 0.05, temp1: 100, temp2: 100 }); }); createSalt("moscovium_hydroxide", "moscovium_hydroxide_solution", [blendColors("#f5dff3", "#ff0000", 0.25), blendColors("#f5dff3", "#00ff00", 0.25), blendColors("#f5dff3", "#0000ff", 0.25)], [blendColors("#6548f7", "#ff0000", 0.25), blendColors("#6548f7", "#00ff00", 0.25), blendColors("#6548f7", "#0000ff", 0.25)], true, true, 670, -2, 102, 5620, 1092, "MOSCOVIUM", "HYDROXIDE"); eListAdd("BASE", "moscovium_hydroxide"); eListAddIon("MOSCOVIUM", "moscovium_hydroxide", "base"); eListAddIon("HYDROXIDE", "moscovium_hydroxide", "base"); eListAdd("BASE", "moscovium_hydroxide_solution"); eListAddIon("MOSCOVIUM", "moscovium_hydroxide_solution", "base"); eListAddIon("HYDROXIDE", "moscovium_hydroxide_solution", "base"); elements.moscovium_fluoride = { color: [blendColors("#eedff5", "#ff0000", 0.25), blendColors("#eedff5", "#00ff00", 0.25), blendColors("#eedff5", "#0000ff", 0.25)], behavior: behaviors.STURDYPOWDER, hidden: true, tempHigh: 720, //made up category: "powders", state: "solid", density: 6220, //made up reactions: {}, }; acidReact("stable_moscovium", "hydrofluoric_acid", "moscovium_fluoride", "fire"); acidReact("stable_moscovium", "liquid_hydrogen_fluoride", "moscovium_fluoride", "fire"); acidReact("stable_moscovium", "hydrofluoric_acid_gas", "moscovium_fluoride", "fire"); acidReact("stable_moscovium", "hydrogen_fluoride", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide", "hydrofluoric_acid", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide", "liquid_hydrogen_fluoride", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide", "hydrofluoric_acid_gas", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide", "hydrogen_fluoride", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide_solution", "hydrofluoric_acid", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide_solution", "liquid_hydrogen_fluoride", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide_solution", "hydrofluoric_acid_gas", "moscovium_fluoride", "fire"); acidReact("moscovium_hydroxide_solution", "hydrogen_fluoride", "moscovium_fluoride", "fire"); reduce("moscovium_fluoride", "fluorine", "stable_moscovium"); eListAdd("INSOLUBLE", "moscovium_fluoride"); eListAddIon("MOSCOVIUM", "moscovium_fluoride"); eListAddIon("FLUORIDE", "moscovium_fluoride"); elements.molten_americium.reactions["molten_calcium"] = { elem1: "moscovium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.livermorium = { color: ["#c9c26b", "#5ee04c", "#8bc253"], behavior: ["XX|CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1|XX", "CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1|CH:flerovium%1|CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1", "XX|CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1|XX"], reactions: { quark_matter: { elem1: "stable_livermorium" }, neutron: { elem1: "tennessine", elem2: null, chance: 0.1 }, }, tempHigh: 455, category: "solids", state: "solid", density: 12900, hardness: 1.0, conduct: 0.2, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.molten_livermorium = { behavior: ["XX|CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1|XX", "M2 AND CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1|CH:flerovium%1|CR:neutron%10 AND CR:radiation%10 AND CR:alpha_particle%10 AND CR:rad_pop%10 AND CR:n_explosion%0.1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_livermorium" }, neutron: { elem1: "tennessine", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.stable_livermorium = { color: [blendColors("#c9c26b", "#ff0000"), blendColors("#5ee04c", "#00ff00"), blendColors("#8bc253", "#0000ff")], behavior: behaviors.WALL, reactions: { oxygen: { elem1: "livermorium_oxide", elem2: "fire", chance: 0.05 }, }, tempHigh: 455, category: "solids", state: "solid", density: 12900, conduct: 0.2, hidden: true, burn: 1, burnInto: "livermorium_oxide", }; elements.livermorium_oxide = { color: [blendColors("#ebcb8f", "#ff0000", 0.25), blendColors("#ebcb8f", "#00ff00", 0.25), blendColors("#ebcb8f", "#0000ff", 0.25)], behavior: behaviors.STURDYPOWDER, reactions: {}, hidden: true, tempHigh: 730, //made up category: "powders", state: "solid", density: 12430, //made up }; elements.molten_livermorium_oxide = { reactions: { charcoal: { elem1: "stable_livermorium", elem2: "carbon_dioxide" }, }, }; reduce("livermorium_oxide", "oxygen", "stable_livermorium"); elements.molten_curium.reactions["molten_calcium"] = { elem1: "livermorium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.tennessine = { color: ["#4f4c42"], behavior: ["XX|CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2|XX", "CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2|CH:moscovium%1|CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2", "M2|M1|M2"], reactions: { quark_matter: { elem1: "stable_tennessine" }, neutron: { elem1: "oganesson", elem2: null, chance: 0.1 }, }, tempHigh: 425, category: "powders", state: "solid", density: 7200, hardness: 1.0, conduct: 0.1, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.molten_tennessine = { behavior: ["XX|CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2|XX", "M2 AND CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2|CH:moscovium%1|M2 AND CR:neutron%15 AND CR:radiation%15 AND CR:alpha_particle%15 AND CR:rad_pop%15 AND CR:n_explosion%0.2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_tennessine" }, neutron: { elem1: "oganesson", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.stable_tennessine = { color: [blendColors("#4f4c42", "#ff0000"), blendColors("#4f4c42", "#00ff00"), blendColors("#4f4c42", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, tempHigh: 425, category: "powders", state: "solid", density: 7200, conduct: 0.1, hidden: true, }; acidReact("stable_tennessine", "hydrofluoric_acid", "tennessine_monofluoride", "fire"); acidReact("stable_tennessine", "liquid_hydrogen_fluoride", "tennessine_monofluoride", "fire"); acidReact("stable_tennessine", "hydrofluoric_acid_gas", "tennessine_monofluoride", "fire"); acidReact("stable_tennessine", "hydrogen_fluoride", "tennessine_monofluoride", "fire"); elements.tennessine_monofluoride = { color: [blendColors("#4a4123", "#ff0000", 0.25), blendColors("#4a4123", "#00ff00", 0.25), blendColors("#4a4123", "#0000ff", 0.25)], behavior: behaviors.LIQUID, reactions: {}, tempHigh: 130, //made up tempLow: 5, category: "liquids", state: "liquid", density: 5200, //made up hidden: true, stain: 0.2, }; elements.tennessine_monofluoride_gas = { density: 13.012, }; acidReact("fluorine", "tennessine_monofluoride_ice", "tennessine_trifluoride", "fire"); acidReact("liquid_fluorine", "tennessine_monofluoride_ice", "tennessine_trifluoride", "fire"); acidReact("fluorine", "tennessine_monofluoride", "tennessine_trifluoride", "fire"); acidReact("liquid_fluorine", "tennessine_monofluoride", "tennessine_trifluoride", "fire"); acidReact("fluorine", "tennessine_monofluoride_gas", "tennessine_trifluoride", "fire"); acidReact("liquid_fluorine", "tennessine_monofluoride_gas", "tennessine_trifluoride", "fire"); elements.fluorine.ignore.push("tennessine_trifluoride_gas"); elements.fluorine.ignore.push("tennessine_trifluoride_ice"); elements.liquid_fluorine.ignore.push("tennessine_trifluoride_gas"); elements.liquid_fluorine.ignore.push("tennessine_trifluoride_ice"); elements.tennessine_trifluoride = { color: [blendColors("#ffc400", "#ff0000", 0.25), blendColors("#ffc400", "#00ff00", 0.25), blendColors("#ffc400", "#0000ff", 0.25)], behavior: behaviors.LIQUID, reactions: {}, tempHigh: 105, //made up tempLow: 3, category: "liquids", state: "liquid", density: 5600, //made up hidden: true, stain: 0.3, }; elements.tennessine_trifluoride_gas = { density: 14.591, }; runAfterAutogen(function () { reactList("tennessine_trifluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "tennessine_monofluoride" }); }); elements.molten_berkelium.reactions["molten_calcium"] = { elem1: "tennessine", elem2: null, tempMin: 10000, chance: 0.01 }; elements.oganesson = { color: ["#c4ccc6", "#9ea39f", "#8e9294"], behavior: ["XX|CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|XX", "CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|CH:livermorium%1|CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1", "XX|CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|XX"], reactions: { quark_matter: { elem1: "stable_oganesson" }, neutron: { elem1: "ununennium", elem2: null, chance: 0.1 }, }, tempHigh: 52, category: "solids", state: "solid", density: 7200, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, }; elements.molten_oganesson = { behavior: ["XX|CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|XX", "M2 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|CH:livermorium%1|M2 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_oganesson" }, neutron: { elem1: "ununennium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, tempHigh: 177, excludeRandom: true, }; elements.oganesson_gas = { behavior: ["M2|M1 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|M2", "M1 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|CH:livermorium%1|M1 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1", "M2|M1 AND CR:neutron%20 AND CR:radiation%20 AND CR:alpha_particle%20 AND CR:rad_pop%20 AND CR:n_explosion%1|M2"], reactions: { quark_matter: { elem1: "stable_oganesson" }, neutron: { elem1: "ununennium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 100; }, excludeRandom: true, density: 12.222, colorOn: ["#e224ff", "#cc6c96", "#c76ccc"], conduct: 0.86, }; elements.stable_oganesson = { color: [blendColors("#c4ccc6", "#ff0000"), blendColors("#9ea39f", "#00ff00"), blendColors("#8e9294", "#0000ff")], behavior: behaviors.SOLID, reactions: { tennessine_trifluoride: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, tennessine_trifluoride_gas: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, }, tempHigh: 52, category: "solids", state: "solid", density: 7200, hidden: true, }; elements.molten_stable_oganesson = { tempLow: 52, tempHigh: 177, reactions: { tennessine_trifluoride: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, tennessine_trifluoride_gas: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, }, }; elements.stable_oganesson_gas = { density: 12.222, reactions: { tennessine_trifluoride: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, tennessine_trifluoride_gas: { elem1: "oganesson_tetrafluoride", elem2: "oganesson_tetratennesside" }, }, colorOn: ["#e224ff", "#cc6c96", "#c76ccc"], conduct: 0.86, }; acidReact("stable_oganesson", "hydrofluoric_acid", "oganesson_difluoride", "fire"); acidReact("stable_oganesson", "liquid_hydrogen_fluoride", "oganesson_difluoride", "fire"); acidReact("stable_oganesson", "hydrofluoric_acid_gas", "oganesson_difluoride", "fire"); acidReact("stable_oganesson", "hydrogen_fluoride", "oganesson_difluoride", "fire"); elements.oganesson_difluoride = { color: [blendColors("#e3e2de", "#ff0000", 0.25), blendColors("#e3e2de", "#00ff00", 0.25), blendColors("#e3e2de", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, tempHigh: 160, //made up category: "powders", state: "solid", density: 6100, //made up hidden: true, }; acidReact("fluorine", "oganesson_difluoride", "oganesson_tetrafluoride", "fire"); acidReact("liquid_fluorine", "oganesson_difluoride", "oganesson_tetrafluoride", "fire"); acidReact("fluorine", "molten_oganesson_difluoride", "oganesson_tetrafluoride", "fire"); acidReact("liquid_fluorine", "molten_oganesson_difluoride", "oganesson_tetrafluoride", "fire"); elements.fluorine.ignore.push("molten_oganesson_tetrafluoride"); elements.liquid_fluorine.ignore.push("molten_oganesson_tetrafluoride"); elements.oganesson_tetrafluoride = { color: [blendColors("#d6d5d2", "#ff0000", 0.25), blendColors("#d6d5d2", "#00ff00", 0.25), blendColors("#d6d5d2", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, tempHigh: 120, //made up category: "powders", state: "solid", density: 6300, //made up hidden: true, }; runAfterAutogen(function () { reactList("oganesson_tetrafluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "oganesson_difluoride" }); }); elements.oganesson_tetratennesside = { color: [blendColors("#f7f7f5", "#ff0000"), blendColors("#f7f7f5", "#00ff00"), blendColors("#f7f7f5", "#0000ff")], behavior: behaviors.POWDER, reactions: {}, tempHigh: 180, //made up category: "powders", state: "solid", density: 13800, //made up stateHigh: ["molten_stable_oganesson", "stable_tennessine"], hidden: true, }; elements.molten_californium.reactions["molten_calcium"] = { elem1: "oganesson", elem2: null, tempMin: 10000, chance: 0.01 }; elements.ununennium = { color: ["#c0eb9b", "#82e082", "#b8c29d"], behavior: ["XX|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|XX", "M2 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|CH:tennessine%1|M2 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_ununennium" }, neutron: { elem1: "unbinilium", elem2: null, chance: 0.1 }, }, tempHigh: 630, tempLow: 15, category: "liquids", state: "liquid", density: 3000, hardness: 1.0, conduct: 0.2, stateLowName: "solid_ununennium", tick: function (pixel) { pixel.temp += 150; }, excludeRandom: true, }; elements.solid_ununennium = { behavior: ["XX|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|XX", "CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|CH:tennessine%1|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2", "M2|M1|M2"], reactions: { quark_matter: { elem1: "stable_ununennium" }, neutron: { elem1: "unbinilium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 150; }, excludeRandom: true, }; elements.ununennium_gas = { behavior: ["M2|M1 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|M2", "M1 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|CH:tennessine%1|M1 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2", "M2|M1 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|M2"], reactions: { quark_matter: { elem1: "stable_ununennium" }, neutron: { elem1: "unbinilium", elem2: null, chance: 0.1 }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 150; }, excludeRandom: true, density: 12.555, }; runAfterAutogen(function () { reactList("ununennium", eLists.WATER, { elem1: "n_explosion", elem2: null }); reactList("solid_ununennium", eLists.WATER, { elem1: "n_explosion", elem2: null }); reactList("ununennium_gas", eLists.WATER, { elem1: "n_explosion", elem2: null }); }); elements.stable_ununennium = { color: [blendColors("#c0eb9b", "#ff0000"), blendColors("#82e082", "#00ff00"), blendColors("#b8c29d", "#0000ff")], behavior: behaviors.LIQUID, reactions: { steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, rad_steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, }, tempHigh: 630, tempLow: 15, category: "liquids", state: "liquid", density: 14010, conduct: 0.2, stateLowName: "solid_stable_ununennium", hidden: true, }; runAfterLoad(function () { reactList("stable_ununennium", eLists.WATER, { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }); reactList("stable_ununennium_gas", eLists.WATER, { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }); reactList("solid_stable_ununennium", eLists.WATER, { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }); }); elements.stable_ununennium_gas = { density: 12.555, reactions: { steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, rad_steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, }, }; elements.solid_stable_ununennium = { behavior: behaviors.POWDER, reactions: { steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, rad_steam: { elem1: "ununennium_hydroxide", elem2: [null, null, "big_pop"], func: ununenniumHydroxide }, }, }; function ununenniumHydroxide(pixel) { elementCircle(pixel.x, pixel.y, 10, "ununennium_hydroxide", 0.1, eLists.WATER.concat(["steam", "rad_steam"])); } elements.hydrofluoric_acid.ignore.push("ununennium_fluoride", "ununennium_trifluoride", "ununennium_pentafluoride"); elements.hydrofluoric_acid_gas.ignore.push("ununennium_fluoride", "ununennium_trifluoride", "ununennium_pentafluoride"); elements.hydrogen_fluoride.ignore.push("ununennium_fluoride", "ununennium_trifluoride", "ununennium_pentafluoride"); elements.liquid_hydrogen_fluoride.ignore.push("ununennium_fluoride", "ununennium_trifluoride", "ununennium_pentafluoride"); createSalt("ununennium_fluoride", "ununennium_fluoride_solution", [blendColors("#e1e4eb", "#ff0000", 0.25), blendColors("#e1e4eb", "#00ff00", 0.25), blendColors("#e1e4eb", "#0000ff", 0.25)], [blendColors("#3061f2", "#ff0000", 0.25), blendColors("#3061f2", "#00ff00", 0.25), blendColors("#3061f2", "#0000ff", 0.25)], true, true, 1270, -2, 102, 6703, 1094, "UNUNENNIUM", "FLUORIDE"); acidReact("fluorine", "ununennium_fluoride", "ununennium_trifluoride", "fire"); acidReact("liquid_fluorine", "ununennium_fluoride", "ununennium_trifluoride", "fire"); acidReact("fluorine", "molten_ununennium_fluoride", "ununennium_trifluoride", "fire"); acidReact("liquid_fluorine", "molten_ununennium_fluoride", "ununennium_trifluoride", "fire"); elements.fluorine.ignore.push("molten_ununennium_trifluoride"); elements.liquid_fluorine.ignore.push("molten_ununennium_trifluoride"); elements.ununennium_trifluoride = { color: [blendColors("#ccb87a", "#ff0000", 0.25), blendColors("#ccb87a", "#00ff00", 0.25), blendColors("#ccb87a", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, tempHigh: 140, //made up category: "powders", state: "solid", density: 7200, //made up hidden: true, }; runAfterAutogen(function () { reactList("ununennium_trifluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "ununennium_fluoride" }); }); acidReact("foof", "ununennium_trifluoride", "ununennium_pentafluoride", "oxygen"); acidReact("solid_foof", "ununennium_trifluoride", "ununennium_pentafluoride", "oxygen"); elements.fluorine.ignore.push("ununennium_pentafluoride"); elements.liquid_fluorine.ignore.push("ununennium_pentafluoride"); elements.ununennium_pentafluoride = { color: [blendColors("#db5030", "#ff0000", 0.25), blendColors("#db5030", "#00ff00", 0.25), blendColors("#db5030", "#0000ff", 0.25)], behavior: behaviors.CAUSTIC, reactions: {}, tempHigh: 70, //made up category: "powders", state: "solid", stateHigh: ["ununennium_trifluoride", "fluorine"], density: 7250, //made up hidden: true, ignore: ["foof", "solid_foof", "fluorine", "liquid_fluorine", "fluorine_ice", "ununennium_trifluoride", "oxygen", "liquid_oxygen", "oxygen_ice", "ozone", "hydrofluoric_acid", "hydrofluoric_acid_gas", "hydrogen_fluoride", "liquid_hydrogen_fluoride"], }; elements.molten_einsteinium.reactions["molten_calcium"] = { elem1: "ununennium", elem2: null, tempMin: 10000, chance: 0.01 }; elements.unbinilium = { color: ["#faf069", "#fcf0c7", "#edcd3e"], behavior: ["XX|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|XX", "CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|CH:oganesson%1|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2", "M2|M1|M2"], reactions: { quark_matter: { elem1: "stable_unbinilium" }, }, tempHigh: 680, category: "powders", state: "solid", density: 7000, hardness: 1.0, conduct: 0.2, tick: function (pixel) { pixel.temp += 150; }, excludeRandom: true, }; elements.molten_unbinilium = { behavior: ["XX|CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|XX", "M2 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2|CH:oganesson%1|M2 AND CR:neutron%25 AND CR:radiation%25 AND CR:alpha_particle%25 AND CR:rad_pop%25 AND CR:n_explosion%2", "M1|M1|M1"], reactions: { quark_matter: { elem1: "stable_unbinilium" }, }, hardness: 1.0, tick: function (pixel) { pixel.temp += 150; }, excludeRandom: true, }; elements.stable_unbinilium = { color: [blendColors("#faf069", "#ff0000"), blendColors("#fcf0c7", "#00ff00"), blendColors("#edcd3e", "#0000ff")], behavior: behaviors.POWDER, reactions: { oxygen: { elem1: "unbinilium_oxide" }, }, tempHigh: 680, category: "powders", state: "solid", density: 7000, conduct: 0.2, hidden: true, }; elements.unbinilium_oxide = { color: [blendColors("#f5f2e1", "#ff0000", 0.25), blendColors("#f5f2e1", "#00ff00", 0.25), blendColors("#f5f2e1", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, hidden: true, tempHigh: 2763, category: "powders", state: "solid", density: 15000, }; eListAddIon("UNBINILIUM", "unbinilium_oxide"); eListAddIon("OXIDE", "unbinilium_oxide"); eListAdd("INSOLUBLE", "unbinilium_oxide"); elements.unbinilium_hydroxide = { color: [blendColors("#f9faf2", "#ff0000", 0.25), blendColors("#f9faf2", "#00ff00", 0.25), blendColors("#f9faf2", "#0000ff", 0.25)], behavior: behaviors.POWDER, hidden: true, tempHigh: 620, reactions: {}, stateHigh: "unbinilium_oxide", category: "powders", state: "solid", density: 12000, }; eListAdd("BASE", "unbinilium_hydroxide"); eListAddIon("UNBINILIUM", "unbinilium_hydroxide", "base"); eListAddIon("HYDROXIDE", "unbinilium_hydroxide", "base"); eListAdd("INSOLUBLE", "unbinilium_hydroxide"); elements.molten_stable_unbinilium = { reactions: { oxygen: { elem1: "unbinilium_oxide" }, }, conduct: 0.2, }; runAfterLoad(function () { reactList("unbinilium_oxide", eLists.WATER, { elem1: "unbinilium_hydroxide", elem2: null, chance: 0.01 }); reactList("stable_unbinilium", eLists.WATER, { elem1: ["unbinilium_hydroxide", "pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350 }); reactList("molten_stable_unbinilium", eLists.WATER, { elem1: ["unbinilium_hydroxide", "pop"], elem2: ["hydrogen", "bubble"], chance: 0.05, temp2: 350 }); }); acidReact("hydrofluoric_acid", "unbinilium_hydroxide", "unbinilium_difluoride_solution", "fire"); acidReact("hydrofluoric_acid_gas", "unbinilium_hydroxide", "unbinilium_difluoride_solution", "fire"); acidReact("hydrogen_fluoride", "unbinilium_hydroxide", "unbinilium_difluoride_solution", "fire"); acidReact("liquid_hydrogen_fluoride", "unbinilium_hydroxide", "unbinilium_difluoride_solution", "fire"); elements.hydrofluoric_acid.ignore.push("unbinilium_difluoride", "unbinilium_tetrafluoride", "unbinilium_hexafluoride"); elements.hydrofluoric_acid_gas.ignore.push("unbinilium_difluoride", "unbinilium_tetrafluoride", "unbinilium_hexafluoride"); elements.hydrogen_fluoride.ignore.push("unbinilium_difluoride", "unbinilium_tetrafluoride", "unbinilium_hexafluoride"); elements.liquid_hydrogen_fluoride.ignore.push("unbinilium_difluoride", "unbinilium_tetrafluoride", "unbinilium_hexafluoride"); createSalt("unbinilium_difluoride", "unbinilium_difluoride_solution", [blendColors("#e8ebe1", "#ff0000", 0.25), blendColors("#e8ebe1", "#00ff00", 0.25), blendColors("#e8ebe1", "#0000ff", 0.25)], [blendColors("#3087f2", "#ff0000", 0.25), blendColors("#3087f2", "#00ff00", 0.25), blendColors("#3087f2", "#0000ff", 0.25)], true, true, 1340, -2, 102, 6800, 1095, "UNBINILIUM", "FLUORIDE"); acidReact("fluorine", "unbinilium_difluoride", "unbinilium_tetrafluoride", "fire"); acidReact("liquid_fluorine", "unbinilium_difluoride", "unbinilium_tetrafluoride", "fire"); acidReact("fluorine", "molten_unbinilium_difluoride", "unbinilium_tetrafluoride", "fire"); acidReact("liquid_fluorine", "molten_unbinilium_difluoride", "unbinilium_tetrafluoride", "fire"); elements.fluorine.ignore.push("molten_unbinilium_tetrafluoride"); elements.liquid_fluorine.ignore.push("molten_unbinilium_tetrafluoride"); elements.unbinilium_tetrafluoride = { color: [blendColors("#e0dd12", "#ff0000", 0.25), blendColors("#e0dd12", "#00ff00", 0.25), blendColors("#e0dd12", "#0000ff", 0.25)], behavior: behaviors.POWDER, reactions: {}, tempHigh: 210, //made up category: "powders", state: "solid", density: 7500, //made up hidden: true, }; runAfterAutogen(function () { reactList("unbinilium_tetrafluoride", eLists.WATER, { elem1: "hydrofluoric_acid", elem2: "unbinilium_difluoride" }); }); acidReact("foof", "unbinilium_tetrafluoride", "unbinilium_hexafluoride", "oxygen"); acidReact("solid_foof", "unbinilium_tetrafluoride", "unbinilium_hexafluoride", "oxygen"); elements.fluorine.ignore.push("unbinilium_hexafluoride"); elements.liquid_fluorine.ignore.push("unbinilium_hexafluoride"); elements.unbinilium_hexafluoride = { color: [blendColors("#ffca7a", "#ff0000", 0.25), blendColors("#ffca7a", "#00ff00", 0.25), blendColors("#ffca7a", "#0000ff", 0.25)], behavior: behaviors.CAUSTIC, reactions: {}, tempHigh: 70, //made up category: "powders", state: "solid", stateHigh: ["unbinilium_tetrafluoride", "fluorine"], density: 7700, //made up hidden: true, ignore: ["foof", "solid_foof", "fluorine", "liquid_fluorine", "fluorine_ice", "unbinilium_tetrafluoride", "oxygen", "liquid_oxygen", "oxygen_ice", "ozone", "hydrofluoric_acid", "hydrofluoric_acid_gas", "hydrogen_fluoride", "liquid_hydrogen_fluoride"], }; elements.molten_fermium.reactions["molten_calcium"] = { elem1: "unbinilium", elem2: null, tempMin: 10000, chance: 0.01 }; let defaultBaseReactions = { grape: { elem2: "juice", color1: "#291824" }, sodium: { elem1: "pop" }, meat: { elem2: "rotten_meat", elem1: null, chance: 0.5 }, grease: { elem2: "soap", elem1: null }, fat: { elem2: "soap", elem1: null }, }; let defaultBaseGasReactions = { grape: { elem2: "juice", color1: "#291824" }, sodium: { elem1: "pop" }, meat: { elem2: "rotten_meat", elem1: null, chance: 0.4 }, grease: { elem2: "soap", elem1: null }, fat: { elem2: "soap", elem1: null }, }; createAcid("francium_hydroxide", structuredClone(defaultBaseReactions), structuredClone(defaultBaseGasReactions), [blendColors("#863bff", "#ff0000"), blendColors("#4d00ca", "#00ff00"), blendColors("#897b9e", "#0000ff")], true, true, 100, 100, 0, 1000, 1200, 1, "FRANCIUM", "base"); elements.francium_hydroxide.ignore.push("francium_nihonide", "nihonium_hydroxide", "hydrogen", "steam"); elements.francium_hydroxide_gas.ignore.push("francium_nihonide", "nihonium_hydroxide", "hydrogen", "steam"); eListAddIon("HYDROXIDE", ["francium_hydroxide", "francium_hydroxide_gas"], "base"); eListAdd("BASE", []); function acidNeutralize(base) { for (let i = 0; i < eLists.ACID.length; i++) { elements[eLists.ACID[i]].reactions[base] = { elem1: "neutral_acid", elem2: null }; } for (let i = 0; i < eLists.ACIDGAS.length; i++) { elements[eLists.ACIDGAS[i]].reactions[base] = { elem1: "hydrogen", elem2: null }; } eLists.BASE.push(base); if (eLists.HYDROGEN.indexOf(base) >= 0) { eLists.HYDROGEN.splice(eLists.HYDROGEN.indexOf(base), 1); } if (elements[base].salt) for (let i in elements[base].salt) { if (elements[base].salt[i]) { if (elements[base].salt[i].components.indexOf("HYDROGEN") >= 0) { elements[base].salt[i].components.splice(elements[base].salt[i].components.indexOf("HYDROGEN"), 1); } } } } acidNeutralize("radium_hydroxide"); acidNeutralize("actinium_hydroxide"); acidNeutralize("protactinium_hydroxide"); acidNeutralize("unbinilium_hydroxide"); elements.caustic_soda = { color: "#ffe8ff", behavior: behaviors.CAUSTIC, category: "powders", tempHigh: 323, state: "solid", density: 2130, hidden: true, alias: "sodium hydroxide powder", }; acidNeutralize("sodium_hydride"); acidNeutralize("sodium_methoxide"); acidNeutralize("molten_sodium_methoxide"); elements.francium_hydroxide_powder = { color: [blendColors("#e8ede8", "#ff0000"), blendColors("#e8ede8", "#00ff00"), blendColors("#e8ede8", "#0000ff")], behavior: behaviors.CAUSTIC, category: "powders", tempHigh: 251, //made up state: "solid", density: 5100, //made up hidden: true, reactions: {}, ignore: [], }; elements.francium_hydroxide_powder.ignore.push("francium_nihonide", "nihonium_hydroxide", "hydrogen", "steam"); elements.francium.breakInto = "francium"; elements.molten_francium.breakInto = "molten_francium"; elements.stable_francium.breakInto = "stable_francium"; elements.molten_stable_francium.breakInto = "molten_stable_francium"; elements.francium_hydroxide_gas.breakInto = "francium_hydroxide_gas"; elements.francium_hydroxide_powder.breakInto = "francium_hydroxide_powder"; elements.molten_francium_hydroxide_powder = { breakInto: "molten_francium_hydroxide_powder" }; elements.francium_hydroxide_gas.stateHigh = ["francium_hydroxide_powder", "steam"]; elements.francium_hydroxide.ignore.push("fire", "smoke", "smog", "steam"); elements.francium_hydroxide_gas.ignore.push("fire", "smoke", "smog", "steam"); acidNeutralize("francium_hydroxide"); acidNeutralize("francium_hydroxide_gas"); acidNeutralize("francium_hydroxide_powder"); elements.francium_hydroxide_powder.ignore = elements.francium_hydroxide.ignore; acidIgnore(["francium_hydroxide_powder"]); eListAddIon("FRANCIUM", ["francium_hydroxide_powder", "molten_francium_hydroxide_powder"], "base"); eListAddIon("HYDROXIDE", ["francium_hydroxide_powder", "molten_francium_hydroxide_powder"], "base"); runAfterLoad(function () { for (let i = 0; i < eLists.WATER.length; i++) { delete elements["francium_hydroxide"].reactions[eLists.WATER[i]]; delete elements["francium_hydroxide_gas"].reactions[eLists.WATER[i]]; } reactList("francium_hydroxide_powder", eLists.WATER, { elem1: "francium_hydroxide", elem2: null }); }); createAcid("ununennium_hydroxide", structuredClone(defaultBaseReactions), structuredClone(defaultBaseGasReactions), [blendColors("#eb3bff", "#ff0000"), blendColors("#eb3bff", "#00ff00"), blendColors("#eb3bff", "#0000ff")], true, true, 100, 100, 0, 1000, 1200, 1, "UNUNENNIUM", "base"); eListAddIon("HYDROXIDE", ["ununennium_hydroxide", "ununennium_hydroxide_gas"], "base"); elements.ununennium_hydroxide_powder = { color: [blendColors("#c8cdc8", "#ff0000"), blendColors("#c8cdc8", "#00ff00"), blendColors("#c8cdc8", "#0000ff")], behavior: behaviors.CAUSTIC, category: "powders", tempHigh: 271, //made up state: "solid", density: 8200, //made up hidden: true, reactions: {}, ignore: [], }; elements.ununennium_hydroxide_gas.breakInto = "ununennium_hydroxide_gas"; elements.ununennium_hydroxide_powder.breakInto = "ununennium_hydroxide_powder"; elements.molten_ununennium_hydroxide_powder = { breakInto: "molten_ununennium_hydroxide_powder" }; elements.ununennium_hydroxide_gas.stateHigh = ["ununennium_hydroxide_powder", "steam"]; elements.ununennium_hydroxide.ignore.push("fire", "smoke", "smog", "steam", "ununennium_fluoride", "ununennium_fluoride_solution"); elements.ununennium_hydroxide_gas.ignore.push("fire", "smoke", "smog", "steam", "ununennium_fluoride", "ununennium_fluoride_solution"); acidNeutralize("ununennium_hydroxide"); acidNeutralize("ununennium_hydroxide_gas"); acidNeutralize("ununennium_hydroxide_powder"); elements.ununennium_hydroxide_powder.ignore = elements.ununennium_hydroxide.ignore; acidIgnore(["ununennium_hydroxide_powder"]); eListAddIon("UNUNENNIUM", ["ununennium_hydroxide_powder", "molten_ununennium_hydroxide_powder"], "base"); eListAddIon("HYDROXIDE", ["ununennium_hydroxide_powder", "molten_ununennium_hydroxide_powder"], "base"); runAfterLoad(function () { for (let i = 0; i < eLists.WATER.length; i++) { delete elements["ununennium_hydroxide"].reactions[eLists.WATER[i]]; delete elements["ununennium_hydroxide_gas"].reactions[eLists.WATER[i]]; } reactList("ununennium_hydroxide_powder", eLists.WATER, { elem1: "ununennium_hydroxide", elem2: null }); }); createAcid("sodium_hydroxide", structuredClone(defaultBaseReactions), structuredClone(defaultBaseGasReactions), ["#fc3bff", "#c000ca", "#9b7b9e"], false, true, 100, 100, 0, 1000, 1050, 1, "SODIUM", "base"); acidNeutralize("sodium_hydroxide"); acidNeutralize("sodium_hydroxide_gas"); eListAddIon("HYDROXIDE", ["sodium_hydroxide", "sodium_hydroxide_gas"], "base"); eLists.CAUSTIC.push("caustic_soda"); acidNeutralize("caustic_soda"); elements.caustic_soda.ignore = elements.sodium_hydroxide.ignore; acidIgnore(["caustic_soda"]); eListAddIon("SODIUM", ["caustic_soda", "molten_caustic_soda"], "base"); eListAddIon("HYDROXIDE", ["caustic_soda", "molten_caustic_soda"], "base"); eListAdd("COMPOUND", "caustic_soda"); elements.caustic_soda.behavior = behaviors.CAUSTIC; if (!elements.caustic_soda.reactions) { elements.caustic_soda.reactions = {}; } runAfterLoad(function () { reactList("caustic_soda", eLists.WATER, { elem1: "sodium_hydroxide", elem2: null }); delete elements.sodium_hydroxide.reactions["sodium_aluminate_solution"]; delete elements.sodium_hydroxide_gas.reactions["sodium_aluminate_solution"]; }); elements.sodium_hydroxide_gas.tempHigh = 150; elements.sodium_hydroxide_gas.stateHigh = ["caustic_soda", "steam"]; createAcid("potassium_hydroxide", structuredClone(defaultBaseReactions), structuredClone(defaultBaseGasReactions), ["#3bc4ff", "#0062ca", "#7b949e"], false, true, 100, 100, 0, 1000, 1075, 1, "POTASSIUM", "base"); acidNeutralize("potassium_hydroxide"); acidNeutralize("potassium_hydroxide_gas"); eListAddIon("HYDROXIDE", ["potassium_hydroxide", "potassium_hydroxide_gas"], "base"); eLists.CAUSTIC.push("caustic_potash"); acidNeutralize("caustic_potash"); elements.caustic_potash.ignore = elements.potassium_hydroxide.ignore; acidIgnore(["caustic_potash"]); eListAddIon("POTASSIUM", ["caustic_potash", "molten_caustic_potash"], "base"); eListAddIon("HYDROXIDE", ["caustic_potash", "molten_caustic_potash"], "base"); eListAdd("COMPOUND", "caustic_potash"); elements.caustic_potash.behavior = behaviors.CAUSTIC; if (!elements.caustic_potash.reactions) { elements.caustic_potash.reactions = {}; } runAfterLoad(function () { reactList("caustic_potash", eLists.WATER, { elem1: "potassium_hydroxide", elem2: null }); }); elements.potassium_hydroxide_gas.tempHigh = 150; elements.potassium_hydroxide_gas.stateHigh = ["caustic_potash", "steam"]; createAcid("red_mud", structuredClone(defaultBaseReactions), structuredClone(defaultBaseGasReactions), ["#ab3d24", "#cc5d2d", "#a81b1b"], true, true, 1600, 1600, 0, Infinity, 5200, 3, "REDMUD", "base"); acidNeutralize("red_mud"); acidNeutralize("red_mud_gas"); elements.red_mud.viscosity = 1000000; runAfterLoad(function () { reactList("red_mud", eLists.WATER, { elem2: "dirty_water" }); delete elements.red_mud.reactions["dirty_water"]; delete elements.red_mud.reactions["sodium_aluminate_solution"]; }); acidReact("potassium_hydroxide", "fertilizer", "niter", "ammonia", 10); acidReact("potassium_hydroxide_gas", "fertilizer", "niter", "ammonia", 10); acidReact("potassium_hydroxide", "carbon_dioxide", "potassium_carbonate", null, 10); acidReact("potassium_hydroxide_gas", "carbon_dioxide", "potassium_carbonate", null, 10); elements.potassium_hydroxide.ignore.push("carbon_dioxide", "potassium_carbonate"); elements.potassium_hydroxide_gas.ignore.push("carbon_dioxide", "potassium_carbonate"); elements.salt_water.reactions["mercury"] = { elem1: ["sodium_hydroxide", "chlorine", "hydrogen"], charged: true, chance: 0.02 }; elements.sodium_hydroxide.ignore.push("mercury", "chlorine", "salt_water"); elements.sodium_hydroxide_gas.ignore.push("mercury", "chlorine", "salt_water"); elements.potassium_salt_water.reactions["mercury"] = { elem1: ["potassium_hydroxide", "chlorine", "hydrogen"], charged: true, chance: 0.02 }; elements.potassium_hydroxide.ignore.push("mercury", "chlorine", "potassium_salt_water"); elements.potassium_hydroxide_gas.ignore.push("mercury", "chlorine", "potassium_salt_water"); acidReact("sodium_hydroxide", "bauxite", "sodium_aluminate_solution", "red_mud", 10); acidReact("sodium_hydroxide_gas", "bauxite", "sodium_aluminate_solution", "red_mud", 10); elements.red_mud.ignore.push("sodium_aluminate_solution_ice", "sodium_aluminate", "molten_sodium_aluminate", "sodium_carbonate_solution", "spent_sodium_aluminate_solution", "spent_sodium_aluminate_solution_ice", "aluminum_hydroxide", "alumina", "molten_alumina"); elements.red_mud_gas.ignore.push("sodium_aluminate_solution_ice", "sodium_aluminate", "molten_sodium_aluminate", "sodium_carbonate_solution", "spent_sodium_aluminate_solution", "spent_sodium_aluminate_solution_ice", "aluminum_hydroxide", "alumina", "molten_alumina"); elements.sodium_hydroxide.ignore.push("sodium_aluminate_solution_ice", "sodium_aluminate", "molten_sodium_aluminate", "sodium_carbonate_solution", "spent_sodium_aluminate_solution", "spent_sodium_aluminate_solution_ice", "aluminum_hydroxide", "alumina", "molten_alumina"); elements.sodium_hydroxide_gas.ignore.push("sodium_aluminate_solution_ice", "sodium_aluminate", "molten_sodium_aluminate", "sodium_carbonate_solution", "spent_sodium_aluminate_solution", "spent_sodium_aluminate_solution_ice", "aluminum_hydroxide", "alumina", "molten_alumina"); //Cryolite acidReact("hydrofluoric_acid", "sodium_aluminate", "cryolite", "fire", 0); acidReact("hydrofluoric_acid_gas", "sodium_aluminate", "cryolite", "fire", 0); acidReact("hydrogen_fluoride", "sodium_aluminate", "cryolite", "fire", 0); acidReact("liquid_hydrogen_fluoride", "sodium_aluminate", "cryolite", "fire", 0); elements.hydrofluoric_acid.ignore.push("molten_cryolite", "molten_sodium_aluminate"); elements.hydrofluoric_acid_gas.ignore.push("molten_cryolite", "molten_sodium_aluminate"); elements.hydrogen_fluoride.ignore.push("molten_cryolite", "molten_sodium_aluminate"); elements.liquid_hydrogen_fluoride.ignore.push("molten_cryolite", "molten_sodium_aluminate"); acidReact("hexafluorosilicic_acid", "sodium_aluminate", "cryolite", "sand", 0); acidReact("hexafluorosilicic_acid_gas", "sodium_aluminate", "cryolite", "sand", 0); elements.hexafluorosilicic_acid.ignore.push("molten_cryolite", "molten_sodium_aluminate"); elements.hexafluorosilicic_acid_gas.ignore.push("molten_cryolite", "molten_sodium_aluminate"); //Aluminum trifluoride acidReact("hydrofluoric_acid", "alumina", "aluminum_trifluoride", "fire", 0); acidReact("hydrofluoric_acid_gas", "alumina", "aluminum_trifluoride", "fire", 0); acidReact("hydrogen_fluoride", "alumina", "aluminum_trifluoride", "fire", 0); acidReact("liquid_hydrogen_fluoride", "alumina", "aluminum_trifluoride", "fire", 0); elements.hydrofluoric_acid.ignore.push("molten_alumina", "aluminum_trifluoride_gas"); elements.hydrofluoric_acid_gas.ignore.push("molten_alumina", "aluminum_trifluoride_gas"); elements.hydrogen_fluoride.ignore.push("molten_alumina", "aluminum_trifluoride_gas"); elements.liquid_hydrogen_fluoride.ignore.push("molten_alumina", "aluminum_trifluoride_gas"); acidReact("hydrofluoric_acid", "aluminum_hydroxide", "aluminum_trifluoride", "fire", 0); acidReact("hydrofluoric_acid_gas", "aluminum_hydroxide", "aluminum_trifluoride", "fire", 0); acidReact("hydrogen_fluoride", "aluminum_hydroxide", "aluminum_trifluoride", "fire", 0); acidReact("liquid_hydrogen_fluoride", "aluminum_hydroxide", "aluminum_trifluoride", "fire", 0); acidReact("hydrofluoric_acid", "sodium_hydroxide", "sodium_fluoride_solution", "fire", 0); acidReact("hydrofluoric_acid_gas", "sodium_hydroxide", "sodium_fluoride_solution", "fire", 0); acidReact("hydrofluoric_acid", "sodium_hydroxide_gas", "sodium_fluoride_solution", "fire", 0); acidReact("hydrofluoric_acid_gas", "sodium_hydroxide_gas", "sodium_fluoride_solution", "fire", 0); acidReact("acid", "sodium_hydroxide", "salt_water", null, 0); acidReact("acid_gas", "sodium_hydroxide", "salt_water", null, 0); acidReact("acid", "sodium_hydroxide_gas", "salt_water", null, 0); acidReact("acid_gas", "sodium_hydroxide_gas", "salt_water", null, 0); acidReact("acid", "potassium_hydroxide", "potassium_salt_water", null, 0); acidReact("acid_gas", "potassium_hydroxide", "potassium_salt_water", null, 0); acidReact("acid", "potassium_hydroxide_gas", "potassium_salt_water", null, 0); acidReact("acid_gas", "potassium_hydroxide_gas", "potassium_salt_water", null, 0); elements.sodium_hydroxide.ignore.push("sodium_methoxide", "methanol"); elements.sodium_hydroxide_gas.ignore.push("sodium_methoxide", "methanol"); elements.sodium_hydroxide.ignore.push("sodium_methoxide", "methanol"); elements.sodium_hydroxide_gas.ignore.push("sodium_methoxide", "methanol"); acidReact("fluoroboric_acid", "sodium_hydroxide", "sodium_tetrafluoroborate", null, 50); acidReact("fluoroboric_acid_gas", "sodium_hydroxide", "sodium_tetrafluoroborate", null, 50); acidReact("fluoroboric_acid", "sodium_hydroxide_gas", "sodium_tetrafluoroborate", null, 50); acidReact("fluoroboric_acid_gas", "sodium_hydroxide_gas", "sodium_tetrafluoroborate", null, 50); //nihonium acidReact("sodium_hydroxide", "nihonium_sulfate_solution", "sodium_sulfate_solution", "nihonium_hydroxide"); acidReact("sodium_hydroxide_gas", "nihonium_sulfate_solution", "sodium_sulfate_solution", "nihonium_hydroxide"); acidReact("sodium_hydroxide", "nihonium_sulfate", "sodium_sulfate_solution", "nihonium_hydroxide"); acidReact("sodium_hydroxide_gas", "nihonium_sulfate", "sodium_sulfate_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide", "nihonium_sulfate_solution", "potassium_sulfate_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide_gas", "nihonium_sulfate_solution", "potassium_sulfate_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide", "nihonium_sulfate", "potassium_sulfate_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide_gas", "nihonium_sulfate", "potassium_sulfate_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide", "nihonium_nitrate_solution", "niter_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide_gas", "nihonium_nitrate_solution", "niter_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide", "nihonium_nitrate", "niter_solution", "nihonium_hydroxide"); acidReact("potassium_hydroxide_gas", "nihonium_nitrate", "niter_solution", "nihonium_hydroxide"); elements.bless.reactions["foof"] = { elem2: "oxygen" }; elements.bless.reactions["solid_foof"] = { elem2: "oxygen" }; elements.bless.reactions["fluorine"] = { elem2: null }; elements.bless.reactions["liquid_fluorine"] = { elem2: null }; elements.bless.reactions["fluorine_ice"] = { elem2: null }; elements.bless.reactions["hydrogen_fluoride"] = { elem2: "hydrogen" }; elements.bless.reactions["liquid_hydrogen_fluoride"] = { elem2: "hydrogen" }; elements.bless.reactions["hydrogen_fluoride_ice"] = { elem2: "hydrogen" }; elements.bless.reactions["hydrofluoric_acid"] = { elem2: "hydrogen" }; elements.bless.reactions["hydrofluoric_acid_ice"] = { elem2: "hydrogen" }; elements.bless.reactions["francium"] = { elem2: null }; elements.bless.reactions["molten_francium"] = { elem2: null }; elements.bless.reactions["astatine"] = { elem2: null }; elements.bless.reactions["molten_astatine"] = { elem2: null }; elements.bless.reactions["astatine_gas"] = { elem2: null }; elements.bless.reactions["big_pop"] = { elem2: null }; elements.bless.reactions["rad_pop"] = { elem2: null }; elements.bless.reactions["radon"] = { elem2: null }; elements.bless.reactions["polonium"] = { elem2: null }; elements.bless.reactions["molten_polonium"] = { elem2: null }; elements.bless.reactions["neutronium"] = { elem2: "neutron" }; elements.bless.reactions["liquid_neutronium"] = { elem2: "neutron" }; elements.bless.reactions["quark_matter"] = { elem2: ["neutron", "proton"] }; elements.bless.reactions["gamma_ray_burst"] = { elem2: null }; elements.bless.reactions["nitrogen_dioxide"] = { elem2: "oxygen" }; elements.bless.reactions["liquid_nitrogen_dioxide"] = { elem2: "oxygen" }; elements.bless.reactions["sulfur_dioxide"] = { elem2: "oxygen" }; elements.bless.reactions["liquid_sulfur_dioxide"] = { elem2: "oxygen" }; elements.bless.reactions["sulfur_dioxide_ice"] = { elem2: "oxygen" }; elements.bless.reactions["hydrogen_sulfide"] = { elem2: "hydrogen" }; elements.bless.reactions["liquid_hydrogen_sulfide"] = { elem2: "hydrogen" }; elements.bless.reactions["bromine"] = { elem2: [null, null, null, "soy_sauce"] }; elements.bless.reactions["bromine_gas"] = { elem2: [null, null, null, "soy_sauce"] }; elements.bless.reactions["bromine_ice"] = { elem2: [null, null, null, "soy_sauce"] }; elements.bless.reactions["rocket_fuel"] = { elem2: null }; elements.bless.reactions["diborane"] = { elem2: "hydrogen" }; elements.bless.reactions["pentaborane"] = { elem2: "hydrogen" }; elements.bless.reactions["decaborane"] = { elem2: "hydrogen" }; elements.bless.reactions["sodium_hydride"] = { elem2: "hydrogen" }; elements.bless.reactions["sodium_borohydride"] = { elem2: "hydrogen" }; elements.bless.reactions["sodium_borohydride_solution"] = { elem2: "water" }; elements.bless.reactions["uraninite"] = { elem2: "rock" }; elements.bless.reactions["yellowcake_solution"] = { elem2: ["rock", "hydrogen", "rock", "hydrogen", "rock", "hydrogen", "baked_batter", "hydrogen"] }; elements.bless.reactions["yellowcake"] = { elem2: ["rock", "rock", "rock", "baked_batter"] }; elements.bless.reactions["depleted_uranium"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium"] = { elem2: "rock" }; elements.bless.reactions["uranium_dioxide"] = { elem2: "rock" }; elements.bless.reactions["depleted_uranium_dioxide"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium_dioxide"] = { elem2: "rock" }; elements.bless.reactions["uranium_tetrafluoride"] = { elem2: "rock" }; elements.bless.reactions["depleted_uranium_tetrafluoride"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium_tetrafluoride"] = { elem2: "rock" }; elements.bless.reactions["uranium_hexafluoride"] = { elem2: "rock" }; elements.bless.reactions["depleted_uranium_hexafluoride"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium_hexafluoride"] = { elem2: "rock" }; elements.bless.reactions["stable_uranium_hexafluoride"] = { elem2: "stable_uranium" }; elements.bless.reactions["molten_depleted_uranium"] = { elem2: "magma" }; elements.bless.reactions["molten_enriched_uranium"] = { elem2: "magma" }; elements.bless.reactions["molten_uranium_dioxide"] = { elem2: "magma" }; elements.bless.reactions["molten_depleted_uranium_dioxide"] = { elem2: "magma" }; elements.bless.reactions["molten_enriched_uranium_dioxide"] = { elem2: "magma" }; elements.bless.reactions["molten_uranium_tetrafluoride"] = { elem2: "magma" }; elements.bless.reactions["molten_depleted_uranium_tetrafluoride"] = { elem2: "magma" }; elements.bless.reactions["molten_enriched_uranium_tetrafluoride"] = { elem2: "magma" }; elements.bless.reactions["uranium_hexafluoride_gas"] = { elem2: "rock" }; elements.bless.reactions["depleted_uranium_hexafluoride_gas"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium_hexafluoride_gas"] = { elem2: "rock" }; elements.bless.reactions["stable_uranium_hexafluoride_gas"] = { elem2: "stable_uranium" }; elements.bless.reactions["neptunium"] = { elem2: "rock" }; elements.bless.reactions["molten_neptunium"] = { elem2: "rock" }; elements.bless.reactions["enriched_uranium_hexafluoride_gas"] = { elem2: "rock" }; elements.bless.reactions["radium"] = { elem2: null }; elements.bless.reactions["molten_radium"] = { elem2: null }; elements.bless.reactions["actinium"] = { elem2: null }; elements.bless.reactions["molten_actinium"] = { elem2: null }; elements.bless.reactions["thorium"] = { elem2: "rock" }; elements.bless.reactions["molten_thorium"] = { elem2: "magma" }; elements.bless.reactions["thorium_dioxide"] = { elem2: "rock" }; elements.bless.reactions["molten_thorium_dioxide"] = { elem2: "magma" }; elements.bless.reactions["thorium_tetrafluoride"] = { elem2: "rock" }; elements.bless.reactions["molten_thorium_tetrafluoride"] = { elem2: "magma" }; elements.bless.reactions["protactinium"] = { elem2: "rock" }; elements.bless.reactions["molten_protactinium"] = { elem2: "magma" }; elements.bless.reactions["neptunium"] = { elem2: "rock" }; elements.bless.reactions["molten_neptunium"] = { elem2: "magma" }; elements.bless.reactions["neptunium_hexafluoride"] = { elem2: "stable_neptunium" }; elements.bless.reactions["neptunium_hexafluoride_gas"] = { elem2: "stable_neptunium" }; elements.bless.reactions["plutonium"] = { elem2: "rock" }; elements.bless.reactions["molten_plutonium"] = { elem2: "magma" }; elements.bless.reactions["plutonium_dioxide"] = { elem2: "rock" }; elements.bless.reactions["molten_plutonium_dioxide"] = { elem2: "magma" }; elements.bless.reactions["plutonium_tetrafluoride"] = { elem2: "rock" }; elements.bless.reactions["molten_plutonium_tetrafluoride"] = { elem2: "magma" }; elements.bless.reactions["plutonium_hexafluoride"] = { elem2: "rock" }; elements.bless.reactions["plutonium_hexafluoride_gas"] = { elem2: "magma" }; elements.bless.reactions["stable_plutonium_hexafluoride"] = { elem2: "stable_plutonium" }; elements.bless.reactions["stable_plutonium_hexafluoride_gas"] = { elem2: "stable_plutonium" }; elements.bless.reactions["americium"] = { elem2: "rock" }; elements.bless.reactions["molten_americium"] = { elem2: "magma" }; elements.bless.reactions["curium"] = { elem2: "rock" }; elements.bless.reactions["molten_curium"] = { elem2: "magma" }; elements.bless.reactions["berkelium"] = { elem2: "rock" }; elements.bless.reactions["molten_berkelium"] = { elem2: "magma" }; elements.bless.reactions["californium"] = { elem2: "rock" }; elements.bless.reactions["molten_californium"] = { elem2: "magma" }; elements.bless.reactions["einsteinium"] = { elem2: "rock" }; elements.bless.reactions["molten_einsteinium"] = { elem2: "magma" }; elements.bless.reactions["fermium"] = { elem2: "rock" }; elements.bless.reactions["molten_fermium"] = { elem2: "magma" }; elements.bless.reactions["copernicium"] = { elem2: "rock" }; elements.bless.reactions["copernicium_gas"] = { elem2: "magma" }; elements.bless.reactions["solid_copernicium"] = { elem2: "rock" }; elements.bless.reactions["copernicium_tetrafluoride"] = { elem2: "stable_copernicium" }; elements.bless.reactions["nihonium"] = { elem2: "rock" }; elements.bless.reactions["molten_nihonium"] = { elem2: "magma" }; elements.bless.reactions["francium_nihonide"] = { elem2: "stable_nihonium" }; elements.bless.reactions["flerovium"] = { elem2: "rock" }; elements.bless.reactions["flerovium_gas"] = { elem2: "magma" }; elements.bless.reactions["solid_flerovium"] = { elem2: "rock" }; elements.bless.reactions["moscovium"] = { elem2: "rock" }; elements.bless.reactions["molten_moscovium"] = { elem2: "magma" }; elements.bless.reactions["livermorium"] = { elem2: "rock" }; elements.bless.reactions["molten_livermorium"] = { elem2: "magma" }; elements.bless.reactions["tennessine"] = { elem2: null }; elements.bless.reactions["molten_tennessine"] = { elem2: null }; elements.bless.reactions["stable_tennessine"] = { elem2: null }; elements.bless.reactions["molten_stable_tennessine"] = { elem2: null }; elements.bless.reactions["tennessine_monofluoride"] = { elem2: null }; elements.bless.reactions["tennessine_monofluoride_ice"] = { elem2: null }; elements.bless.reactions["tennessine_monofluoride_gas"] = { elem2: null }; elements.bless.reactions["tennessine_trifluoride"] = { elem2: null }; elements.bless.reactions["tennessine_trifluoride_ice"] = { elem2: null }; elements.bless.reactions["tennessine_trifluoride_gas"] = { elem2: null }; elements.bless.reactions["molten_oganesson"] = { elem2: null }; elements.bless.reactions["oganesson_gas"] = { elem2: null }; elements.bless.reactions["oganesson"] = { elem2: null }; elements.bless.reactions["oganesson_difluoride"] = { elem2: "stable_oganesson" }; elements.bless.reactions["molten_oganesson_difluoride"] = { elem2: "stable_oganesson" }; elements.bless.reactions["oganesson_tetrafluoride"] = { elem2: "stable_oganesson" }; elements.bless.reactions["molten_oganesson_tetrafluoride"] = { elem2: "stable_oganesson" }; elements.bless.reactions["oganesson_tetratennesside"] = { elem2: "stable_oganesson" }; elements.bless.reactions["ununennium"] = { elem2: null }; elements.bless.reactions["ununennium_gas"] = { elem2: null }; elements.bless.reactions["solid_ununennium"] = { elem2: null }; elements.bless.reactions["stable_ununennium"] = { elem2: null }; elements.bless.reactions["stable_ununennium_gas"] = { elem2: null }; elements.bless.reactions["solid_stable_ununennium"] = { elem2: null }; elements.bless.reactions["ununennium_trifluoride"] = { elem2: null }; elements.bless.reactions["molten_ununennium_trifluoride"] = { elem2: null }; elements.bless.reactions["ununennium_pentafluoride"] = { elem2: null }; elements.bless.reactions["unbinilium"] = { elem2: null }; elements.bless.reactions["molten_unbinilium"] = { elem2: null }; elements.bless.reactions["unbinilium_tetrafluoride"] = { elem2: null }; elements.bless.reactions["molten_unbinilium_tetrafluoride"] = { elem2: null }; elements.bless.reactions["unbinilium_hexafluoride"] = { elem2: null }; elements.foof.ignore.push("foof_grass", "foof_grass_seed"); elements.solid_foof.ignore.push("foof_grass", "foof_grass_seed"); elements.fluorine.ignore.push("foof_grass", "foof_grass_seed"); elements.liquid_fluorine.ignore.push("foof_grass", "foof_grass_seed"); elements.foof_grass = { color: ["#980909", "#8b2708", "#852a11", "#7b1212", "#6d1d13"], tick: function (pixel) { if (!tryMove(pixel, pixel.x, pixel.y + 1)) { if (pixel.h < 2 && Math.random() < 0.0005 && isEmpty(pixel.x, pixel.y - 1)) { createPixel(pixel.element, pixel.x, pixel.y - 1); pixelMap[pixel.x][pixel.y - 1].h = pixel.h + 1; } var coords = [ [pixel.x + 1, pixel.y], [pixel.x - 1, pixel.y], [pixel.x + 1, pixel.y + 1], [pixel.x - 1, pixel.y + 1], ]; for (var i = 0; i < coords.length; i++) { if (Math.random() < 0.005 && isEmpty(coords[i][0], coords[i][1])) { if (!isEmpty(coords[i][0], coords[i][1] + 1, true)) { var soil = pixelMap[coords[i][0]][coords[i][1] + 1]; if (eLists.SOIL.indexOf(soil.element) !== -1) { createPixel(pixel.element, coords[i][0], coords[i][1]); } } } } } doDefaults(pixel); }, properties: { h: 0, }, reactions: { vinegar: { elem1: "explosion", elem2: null, chance: 0.035 }, mercury: { elem1: "explosion", elem2: null, chance: 0.01 }, }, temp: -120, tempHigh: -57, stateHigh: ["oxygen", "fluorine", "explosion"], tempLow: -200, stateLow: "solid_foof", burn: 50, burnTime: 20, breakInto: "foof", category: "life", state: "solid", density: 1400, hidden: true, seed: "foof_grass_seed", }; elements.foof_grass_seed = { color: ["#980909", "#8b2708", "#852a11", "#7b1212", "#6d1d13"], behavior: ["XX|M2%0.05|XX", "XX|L2:foof_grass|XX", "XX|M1|XX"], temp: -120, tempHigh: -57, stateHigh: ["oxygen", "fluorine", "explosion"], tempLow: -200, stateLow: "solid_foof", burn: 50, burnTime: 20, category: "life", state: "solid", density: 1400, breakInto: "foof", hidden: true, cooldown: defaultCooldown, seed: true, }; elements.centrifuge = { color: "#89888f", category: "machines", tempHigh: 1455.5, stateHigh: "molten_steel", tick: function (pixel) { if (!pixel.del) { for (let i = 0; i < 10; i++) { for (let j = 1; j < 10; j++) { let x = [pixel.x + i, pixel.x - j, pixel.x - i, pixel.x + j]; let y = [pixel.y + j, pixel.y + i, pixel.y - j, pixel.y - i]; var oob = outOfBounds(x[0], y[0]) || outOfBounds(x[1], y[1]) || outOfBounds(x[2], y[2]) || outOfBounds(x[3], y[3]); if (!oob) { let pixels = [null, null, null, null]; let immovable = false; for (let k = 0; k < 4; k++) { pixels[k] = !isEmpty(x[k], y[k], true) ? pixelMap[x[k]][y[k]] : null; if (pixels[k] && !elements[pixels[k].element].movable) { immovable = true; } } if (!immovable) { for (let k = 0; k < 4; k++) { if (pixelMap[x[k]][y[k]]) { delete pixelMap[x[k]][y[k]]; } } for (let k = 0; k < 4; k++) { if (pixels[k] && !pixels[k].del) { pixels[k].x = x[(k + 1) % 4]; pixels[k].y = y[(k + 1) % 4]; movePixel(pixels[k], x[(k + 1) % 4], y[(k + 1) % 4]); } } for (let k = 0; k < 4; k++) { if (pixels[k] && elements[pixels[k].element].onCentrifuge) { elements[pixels[k].element].onCentrifuge(pixels[k]); } } } } } } } doDefaults(pixel); }, movable: false, }; for (let i = 0; i < eLists.INSOLUBLE.length; i++) { eListAdd("COMPOUND", eLists.INSOLUBLE[i]); } eListAdd("COMPOUND", "water"); eListAddIon("HYDROGEN", "water"); eListAddIon("HYDROXIDE", "water"); eListAdd("COMPOUND", "methanol"); eListAddIon("HYDROGEN", "methanol"); eListAddIon("METHOXIDE", "methanol"); eListAdd("COMPOUND", "vinegar"); eListAdd("ACID", "vinegar"); eListAddIon("HYDROGEN", "vinegar", "acid"); eListAddIon("ACETATE", "vinegar", "acid"); createSalt("baking_soda", "baking_soda_solution", ["#f2f2f2", "#e0e0e0"], "#7494db", false, true, 292, -2, 102, 3980, 1026, "SODIUM", "BICARBONATE"); delete elements["molten_baking_soda"]; eListAdd("COMPOUND", "baking_soda"); eListAdd("BASE", "baking_soda"); eListAdd("COMPOUND", "baking_soda_solution"); eListAdd("BASE", "baking_soda_solution"); eListAddIon("SODIUM", "baking_soda", "base"); eListAddIon("BICARBONATE", "baking_soda", "base"); eListAddIon("SODIUM", "baking_soda_solution", "base"); eListAddIon("BICARBONATE", "baking_soda_solution", "base"); elements["baking_soda"].reactions["sodium_hydroxide"] = { elem1: "sodium_carbonate_solution", elem2: null }; elements["baking_soda"].reactions["sodium_hydroxide_gas"] = { elem1: "sodium_carbonate_solution", elem2: null }; elements["baking_soda_solution"].reactions["sodium_hydroxide"] = { elem1: "sodium_carbonate_solution", elem2: null }; elements["baking_soda_solution"].reactions["sodium_hydroxide_gas"] = { elem1: "sodium_carbonate_solution", elem2: null }; createSalt("sodium_acetate", "sodium_acetate_solution", ["#f2f2f2", "#e0e0e0"], "#7ea2f2", false, true, 292, -2, 102, 3980, 1028, "SODIUM", "ACETATE"); eListAdd("ACID", "seltzer"); eListAddIon("HYDROGEN", "seltzer", "acid"); eListAddIon("CARBONATE", "seltzer", "acid"); eListAddIon("HYDROGEN", "seltzer", "bicarbonate"); eListAddIon("BICARBONATE", "seltzer", "bicarbonate"); eListAdd("ACID", "soda"); eListAddIon("HYDROGEN", "soda", "acid"); eListAddIon("CARBONATE", "soda", "acid"); eListAddIon("HYDROGEN", "soda", "bicarbonate"); eListAddIon("BICARBONATE", "soda", "bicarbonate"); eListAdd("ACID", "pilk"); eListAddIon("HYDROGEN", "pilk", "acid"); eListAddIon("CARBONATE", "pilk", "acid"); eListAddIon("HYDROGEN", "pilk", "bicarbonate"); eListAddIon("BICARBONATE", "pilk", "bicarbonate"); eListAdd("COMPOUND", "copper_sulfate"); eListAddIon("COPPERII", "copper_sulfate"); eListAddIon("SULFATE", "copper_sulfate"); eListAddIon("COPPERII", "molten_copper_sulfate"); eListAddIon("SULFATE", "molten_copper_sulfate"); function listMatching(list) { let result = []; for (let i in elements) { let valid = false; if (elements[i].salt) { for (let ii in elements[i].salt) { let valid2 = true; for (let j = 0; j < list.length; j++) { if (!elements[i].salt[ii].components.includes(list[j])) { valid2 = false; continue; } } for (let j = 0; j < elements[i].salt[ii].components.length; j++) { if (!list.includes(elements[i].salt[ii].components[j])) { valid2 = false; continue; } } valid = valid || valid2; } } if (valid) { result.push(i); } } return result; } function listMatching2(list, elem) { let result = []; for (let i = 0; i < elem.length; i++) { let valid = true; for (let j = 0; j < list.length; j++) { if (!eLists[list[j]].includes(elem[i])) { valid = false; break; } } if (valid) { result.push(elem[i]); } } return result; } runAfterAutogen(function () { for (let ii = 0; ii < eLists.WATER.length; ii++) { let i = eLists.WATER[ii]; if (!elements[i]) { continue; } if (!elements[i].reactions) { elements[i].reactions = {}; } for (let jj = 0; jj < eLists.WATER.length; jj++) { let j = eLists.WATER[jj]; if (i != j && elements[i].salt && elements[j].salt) { let priorityA = -Infinity; let priorityB = -Infinity; for (let iii in elements[i].salt) { if (priorityA > elements[i].salt[iii].priority) { continue; } for (let jjj in elements[j].salt) { if (priorityB > elements[j].salt[jjj].priority) { continue; } if (elements[i].salt[iii].components.length > 1 && elements[j].salt[jjj].components.length > 1) { let match1 = listMatching([elements[i].salt[iii].components[0], elements[j].salt[jjj].components[1]]); let match2 = listMatching([elements[i].salt[iii].components[1], elements[j].salt[jjj].components[0]]); let match3 = listMatching([elements[i].salt[iii].components[0], elements[j].salt[jjj].components[0]]); let match4 = listMatching([elements[i].salt[iii].components[1], elements[j].salt[jjj].components[1]]); let water1 = listMatching2(["WATER"], match1); let water2 = listMatching2(["WATER"], match2); let water3 = listMatching2(["WATER"], match3); let water4 = listMatching2(["WATER"], match4); let salt1 = listMatching2(["INSOLUBLE"], match1); let salt2 = listMatching2(["INSOLUBLE"], match2); let salt3 = listMatching2(["INSOLUBLE"], match3); let salt4 = listMatching2(["INSOLUBLE"], match4); let productsA = []; let productsB = []; if (water1.length > 0 && salt2.length > 0) { productsA = productsA.concat(water1); productsB = productsB.concat(salt2); } if (water2.length > 0 && salt1.length > 0) { productsA = productsA.concat(water2); productsB = productsB.concat(salt1); } if (water3.length > 0 && salt4.length > 0) { productsA = productsA.concat(water3); productsB = productsB.concat(salt4); } if (water4.length > 0 && salt3.length > 0) { productsA = productsA.concat(water4); productsB = productsB.concat(salt3); } if (productsA.length > 0 && productsB.length > 0) { acidReact(i, j, productsA, productsB, 0); // console.log("precipitate"); // console.log(i); // console.log(j); // console.log(productsA); // console.log(productsB); priorityA = elements[i].salt[iii].priority; priorityB = elements[j].salt[jjj].priority; continue; } if (elements[i].salt[iii].components[0] == elements[j].salt[jjj].components[0] || elements[i].salt[iii].components[1] == elements[j].salt[jjj].components[1] || elements[i].salt[iii].components[1] == elements[j].salt[jjj].components[0] || elements[i].salt[iii].components[0] == elements[j].salt[jjj].components[1]) { continue; } productsA = []; productsB = []; if (water1.length > 0 && water2.length > 0) { productsA = productsA.concat(water1); productsB = productsB.concat(water2); } if (water3.length > 0 && water4.length > 0) { productsA = productsA.concat(water3); productsB = productsB.concat(water4); } if (productsA.length > 0 && productsB.length > 0) { elements[i].reactions[j] = { elem1: productsA, elem2: productsB, chance: 0.001, oneway: true }; //console.log(i); //console.log(j); //console.log(productsA); //console.log(productsB); priorityA = elements[i].salt[iii].priority; priorityB = elements[j].salt[jjj].priority; } } } } } } } let acids = eLists.ACID.concat(eLists.ACIDGAS).concat(eLists.AMPHOTERIC); for (let ii = 0; ii < acids.length; ii++) { let i = acids[ii]; if (!elements[i]) { continue; } if (!elements[i].reactions) { elements[i].reactions = {}; } let bases = eLists.BASE.concat(eLists.AMPHOTERIC); for (let jj = 0; jj < bases.length; jj++) { let j = bases[jj]; if (i != j && elements[i].salt && elements[j].salt && elements[i].salt["acid"].components.length > 1 && elements[j].salt["base"].components.length > 1) { let productsA = []; let productsB = []; let match = [listMatching([elements[i].salt["acid"].components[0], elements[j].salt["base"].components[1]]), listMatching([elements[i].salt["acid"].components[1], elements[j].salt["base"].components[0]]), listMatching([elements[i].salt["acid"].components[0], elements[j].salt["base"].components[0]]), listMatching([elements[i].salt["acid"].components[1], elements[j].salt["base"].components[1]])]; let compounds = [listMatching2(["COMPOUND"], match[0]), listMatching2(["COMPOUND"], match[1]), listMatching2(["COMPOUND"], match[2]), listMatching2(["COMPOUND"], match[3])]; for (let n = 0; n < compounds.length; n++) { let m = n - 1; if (n % 2 == 0) { m = n + 1; } if (compounds[n].includes("water")) { let water1 = listMatching2(["WATER"], match[m]); if (water1.length > 0) { compounds[m] = water1; compounds[n].splice(compounds[n].indexOf("water"), 1); if (compounds[n].length == 0) compounds[n] = [null]; } } } if (compounds[0].length > 0 && compounds[1].length > 0) { productsA = productsA.concat(compounds[0]); productsB = productsB.concat(compounds[1]); } if (compounds[2].length > 0 && compounds[3].length > 0) { productsA = productsA.concat(compounds[2]); productsB = productsB.concat(compounds[3]); } if (productsA.length > 0 && productsB.length > 0) { let reactionTemp = 0; if (elements[i].salt["acid"].components.includes("FLUORIDE") && elements[i].salt["acid"].components.includes("HYDROGEN")) { if (productsB[0] === null && productsB.length === 1) { productsB = ["fire"]; } else { productsB.push("fire"); } } if ((elements[i].salt["acid"].components.includes("SULFATE") || elements[i].salt["acid"].components.includes("CHLORIDE")) && elements[i].salt["acid"].components.includes("HYDROGEN")) { reactionTemp = 50; } if (elements[i].reactions && elements[i].reactions[j]) { delete elements[i].reactions[j]; } if (elements[j].reactions && elements[j].reactions[i]) { delete elements[j].reactions[i]; } acidReact(i, j, productsA, productsB, reactionTemp); for (let k = 0; k < productsA.length; k++) { if (productsA[k] == "water") { continue; } if (elements[j].reactions && elements[j].reactions[productsA[k]]) { delete elements[j].reactions[productsA[k]]; } if (elements[i].reactions && elements[i].reactions[productsA[k]]) { delete elements[i].reactions[productsA[k]]; } } for (let k = 0; k < productsB.length; k++) { if (productsB[k] == "water") { continue; } if (elements[j].reactions && elements[j].reactions[productsB[k]]) { delete elements[j].reactions[productsB[k]]; } if (elements[i].reactions && elements[i].reactions[productsB[k]]) { delete elements[i].reactions[productsB[k]]; } } // console.log("neutral"); // console.log(i); // console.log(j); // console.log(compounds); // console.log(productsA); // console.log(productsB); } } if (elements[i].salt) { let acidType = eLists[elements[i].salt["acid"].components[0]]; for (let jj = 0; jj < acidType.length; jj++) { let j = acidType[jj]; if (elements[i].reactions && elements[i].reactions[j] && elements[i].reactions[j].elem2 === "dirty_water") { delete elements[i].reactions[j]; } } } } let acidType = eLists["NITRATE"]; for (let jj = 0; jj < acidType.length; jj++) { let j = acidType[jj]; if (elements["nitrogen_dioxide"].reactions[j] && elements["nitrogen_dioxide"].reactions[j].elem2 === "nitric_acid") { delete elements["nitrogen_dioxide"].reactions[j]; } if (elements["liquid_nitrogen_dioxide"].reactions[j] && elements["liquid_nitrogen_dioxide"].reactions[j].elem2 === "nitric_acid") { delete elements["liquid_nitrogen_dioxide"].reactions[j]; } } acidType = eLists["SULFATE"]; for (let jj = 0; jj < acidType.length; jj++) { let j = acidType[jj]; if (elements["sulfur_dioxide"].reactions[j] && elements["sulfur_dioxide"].reactions[j].elem2 === "sulfuric_acid") { delete elements["sulfur_dioxide"].reactions[j]; } } delete elements["molten_iodine_ice"]; delete elements["molten_nihonium_nitrate"]; for (let i in elements) { if (elements[i].ignore) { elements[i].ignore = [...new Set(elements[i].ignore)]; } } } });