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Merge pull request #1231 from theenchantedsword/main 

Update morechemistry.js
This commit is contained in:
slweeb 2025-09-01 16:50:33 -04:00 committed by GitHub
parent adb4dd86b0 26e239c649
commit 61f3887c56
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1 changed files with 608 additions and 30 deletions
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mods/morechemistry.js
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@ -1,19 +1,36 @@
/*
Version 2.0.0
Version 2.1.0
*/
function multiChoice(text, handler, title) {
let pause = false;
if (promptState) { pause = promptState.wasPaused }
else if (paused) { pause = true }
promptState = {
type: "confirm",
text: text,
handler: handler,
title: title || "Are you sure?",
wasPaused: pause
}
showPromptScreen();
}
function pixelToggle(pixel, multi = {r:1,g:1,b:1}){
if(pixel.toggle != undefined){
pixel.toggle = !pixel.toggle;
let rgb;
if(Array.isArray(elements[pixel.element].color)){
let elemColor = elements[pixel.element].color[Math.round(Math.random()*elements[pixel.element].color.length)];
rgb = hexToRGB(elemColor) || getRGB(elemColor);
} else {
let elemColor = elements[pixel.element].color;
rgb = hexToRGB(elemColor) || getRGB(elemColor);
}
let num = 5 - Math.round(Math.random()*10);
if(pixel.toggle){
for(let key in rgb){
rgb[key] += (100*multi[key]);
rgb[key] = Math.round(Math.max(Math.min(rgb[key], 255), 0));
}
pixel.color = `rgb(${rgb.r+num},${rgb.g+num},${rgb.b+num})`;
}
else {
pixel.color = `rgb(${rgb.r+num},${rgb.g+num},${rgb.b+num})`;
}
}
}
function getRGB(rgb){
let rgb2 = rgb.replace(")", "").replace("rgb(", "").replace(/,/g, "r").split("r")
return { r: parseInt(rgb2[0]), g: parseInt(rgb2[1]), b: parseInt(rgb2[2]) };
}
elements.cloner.keyInput = "str:clone", elements.ecloner.keyInput = "str:clone", elements.slow_cloner.keyInput = "str:clone", elements.floating_cloner.keyInput = "str:clone";
let xDown = false;
elements.copper_sulfate = {
behavior: behaviors.POWDER,
@ -57,18 +74,23 @@ elements.copper_sulfate = {
tick: function(pixel){
if(pixelTicks-pixel.start == 2 && xDown){
pixel.anhydrous = true;
}
let colour;
let num = Math.round(Math.random()*2);
if(pixel.anhydrous && !["rgb(235,247,250)","rgb(242,248,250)"].includes(pixel.color)){
pixel.color = ["rgb(235,247,250)","rgb(242,248,250)"][num];
} else if (!pixel.anhydrous && !['rgb(67,145,253)', 'rgb(0,76,254)'].includes(pixel.color)){
pixel.color = ['rgb(67,145,253)', 'rgb(0,76,254)'][num];
let rgb = {r: 235, g: 247, b: 250};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
let multi = (pixel.temp-70)/100;
multi = (multi < 0) ? 0 : ((multi > 1) ? 1 : multi);
if(Math.random() < 0.05*multi){
pixel.anhydrous = true;
let rgb = {r: 235, g: 247, b: 250};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
if(pixel.anhydrous){
let neighbors = [];
@ -78,12 +100,26 @@ elements.copper_sulfate = {
}
if(neighbors.includes("air") && pixel.temp < 50 && Math.random() < 0.00035){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
} else if (neighbors.includes("steam") || neighbors.includes("water") || neighbors.includes("salt_water") || neighbors.includes("sugar_water") || neighbors.includes("dirty_water") || neighbors.includes("seltzer") || neighbors.includes("pool_water") || neighbors.includes("slush")){
pixel.anhydrous = false;
let rgb = (Math.random() > 0.5) ? {r: 67, g: 145, b: 253} : {r: 0, g: 76, b: 254};
let num = 6 - (Math.round(Math.random()*12));
for(let key in rgb){
rgb[key] += num;
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
}
}
}
elements.water.ignore = ["copper_sulphate"], elements.steam.ignore = ["copper_sulphate"], elements.pool_water.ignore = ["copper_sulphate", 'pool_ice'], elements.salt_water.ignore = ["copper_sulphate", 'salt_ice'], elements.sugar_water.ignore = ["copper_sulphate", 'sugar_ice'], elements.seltzer.ignore = ["copper_sulphate", 'seltzer_ice'],
document.addEventListener("keydown", (e)=>{xDown = (e.key.toLowerCase() == "x") ? true : xDown;});
document.addEventListener("keyup", (e)=>{xDown = (e.key.toLowerCase() == "x") ? false : xDown;});
@ -94,18 +130,20 @@ elements.toggle_cloner = {
color: "#333300",
name: "ToggleableCloner",
keyInput: "chance",
insulate: 1,
properties: {
clone: null,
toggle: false,
chance: 0.0166666667,
clickCd: 0,
},
ignore: ["cloner", "toggle_cloner", "floating_cloner", "clone_powder", "slow_cloner", "ecloner", "destroyable_cloner", "destroyable_clone_powder", "ewall", "wall"],
hardness: 1,
ignore: ["drag","unknown", "cloner", "toggle_cloner", "floating_cloner", "clone_powder", "slow_cloner", "ecloner", "destroyable_cloner", "destroyable_clone_powder", "ewall", "wall"],
onClicked: function(pixel,element){
if(pixel.clone == null && pixel.clickCd == 0 && dragStart == null){
pixel.clone = (element == "unknown" || elements.toggle_cloner.ignore.includes(element)) ? pixel.clone : element;
} else if (pixel.clickCd == 0) {
pixel.clone = (elements.toggle_cloner.ignore.includes(element)) ? pixel.clone : element;
} else if (pixel.clickCd == 0 && !shiftDown) {
pixel.toggle = !pixel.toggle;
if(pixel.toggle){
let rgb = hexToRGB(elements.toggle_cloner.active);
@ -125,14 +163,16 @@ elements.toggle_cloner = {
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
}
if(shiftDown && !elements.toggle_cloner.ignore.includes(element)){
pixel.clone = element;
}
if(pixel.clickCd == 0 && dragStart == null){
pixel.clickCd = 20;
console.log(element);
};
},
onSelect: function(){
logMessage("Click on the pixel while adjacent to a clonable pixel to set clone, then click on it to toggle on or off.");
logMessage("Place cloner, select element to clone, click on the pixel to set the clone element, then click on it to toggle on or off. Hold shift when clicking to change the element to the selected element.");
},
tick: function(pixel){
if(pixel.clickCd > 0){pixel.clickCd--;}
@ -141,6 +181,7 @@ elements.toggle_cloner = {
let x = pixel.x+coords[0], y = pixel.y+coords[1];
if(isEmpty(x,y) && !outOfBounds(x,y)){
createPixel(pixel.clone, x, y);
pixelMap[x][y].temp = pixel.temp;
}
}
}
@ -154,6 +195,48 @@ elements.toggle_cloner = {
}
};
elements.multi_toggle_cloner = {
category: "machines",
color: "#283300",
keyInput: "chance",
ignore: ["unknown", "cloner", "toggle_cloner", "floating_cloner", "clone_powder", "slow_cloner", "ecloner", "destroyable_cloner", "destroyable_clone_powder", "ewall", "wall"],
properties: {
cloneElems: [],
toggle: false,
clickCd: 0,
chance: 0.45,
},
hardness: 1,
insulate: 1,
onClicked: function(pixel, element){
if(pixel.clickCd == 0 && !shiftDown && dragStart == null){
pixelToggle(pixel, {r:1.5,g:1.5,b:0});
pixel.clickCd = 20;
}
if(shiftDown && !elements.multi_toggle_cloner.ignore.includes(element)){
if(pixel.cloneElems.includes(element)){
pixel.cloneElems.splice(pixel.cloneElems.indexOf(element), 1);
} else {
pixel.cloneElems.push(element);
}
}
},
tick: function(pixel){
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random() < pixel.chance && pixel.toggle && JSON.stringify(pixel.cloneElems) != "[]"){
elem = pixel.cloneElems[Math.round(Math.random()*pixel.cloneElems.length)];
createPixel(elem, x, y);
pixelMap[x][y].temp = pixel.temp;
}
}
pixel.clickCd -= (pixel.clickCd == 0) ? 0 : 1;
},
onSelect: function(){
logMessage("Place cloner, then add elements to the clone list by selecting the element and hold down shift while clicking in it, then click on it to toggle on or off. Shift clicking with an element already found in the list will remove it.");
}
}
elements.toggle = {
category: "machines",
active: "#b8b8b8",
@ -163,6 +246,7 @@ elements.toggle = {
toggle: false,
clickCd: 0,
},
hardness: 1,
onClicked: function(pixel){
if(pixel.clickCd == 0 && dragStart == null){
pixel.toggle = !pixel.toggle;
@ -198,7 +282,37 @@ elements.toggle = {
}
}
elements.e_temper = {
category: "machines",
color: "#ffb300",
conduct: 1,
targetTemp: 25,
hardness: 1,
onSelect: function(){
promptInput("Enter the target temperature:", (In)=>{
this.targetTemp = parseInt(In) || this.targetTemp;
}, "Temperature Selector", this.targetTemp);
},
properties: {
targetTemp: null
},
keyInput: "targetTemp",
tick: function(pixel){
if(pixel.targetTemp == null){
pixel.targetTemp = elements.e_temper.targetTemp;
}
doElectricity(pixel, 1);
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
let p2 = getPixel(x,y);
if(p2 != null && pixel.charge > 0){
let difference = pixel.targetTemp-p2.temp;
p2.temp += difference/4;
}
}
}
}
elements.toggle_temper = {
active: "#ff7b00",
@ -207,6 +321,7 @@ elements.toggle_temper = {
category: "machines",
targetTemp: 25,
keyInput: "targetTemp",
hardness: 1,
properties: {
toggle: false,
clickCd: 0,
@ -260,12 +375,16 @@ elements.multitool = {
category: "tools",
input: 0,
onSelect: function(){
promptInput("Multitool for morechemistry.js, changes key values for different elements added in morechemistry.js, chance for toggleable cloner, and targetTemp for toggleable temper.", (In)=>{
this.input = parseFloat(In) || 0;
promptInput("Multitool for morechemistry.js, changes key values for different elements added in morechemistry.js, chance for toggleable cloner, targetTemp for toggleable temper, clone for other cloners, and channel for portals.", (In)=>{
this.input = In;
}, "Multitool Input", this.input);
},
tool: function(pixel){
pixel[elements[pixel.element].keyInput] = this.input;
if(elements[pixel.element].keyInput != undefined){
let type = (elements[pixel.element].keyInput.startsWith("int:")) ? "int" : (elements[pixel.element].keyInput.startsWith("str:")) ? "string" : "int";
let In = elements[pixel.element].keyInput.slice(elements[pixel.element].keyInput.indexOf(":")+1, elements[pixel.element].keyInput.length);
pixel[In] = (type == "int") ? parseFloat(this.input) : this.input;
}
},
canPlace: false,
}
@ -295,6 +414,21 @@ class rangeTool {
}
}
elements.button = {
category: "machines",
color: "#c7c7c7",
hardness: 1,
onClicked: function(pixel){
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
let p = getPixel(x,y);
if(p != null && elements[p.element].conduct){
p.charge = 1;
}
}
}
}
elements.toggle_mixer = new rangeTool("#212420", (pixel)=>{
let range = mouseRange(pixel.x, pixel.y, pixel.range);
let pixels = [];
@ -343,6 +477,7 @@ elements.toggle_mixer = new rangeTool("#212420", (pixel)=>{
};
});
elements.toggle_mixer.inactive = "#212420", elements.toggle_mixer.active = "#93a390", elements.toggle_mixer.movable = false, elements.toggle_mixer.keyInput = "chance";
elements.toggle_mixer.hardness = 1;
elements.toggle_smasher = new rangeTool("#2e2726", (pixel)=>{
let range = mouseRange(pixel.x, pixel.y, pixel.range);
@ -380,3 +515,446 @@ elements.toggle_smasher = new rangeTool("#2e2726", (pixel)=>{
};
});
elements.toggle_smasher.inactive = "#2e2726", elements.toggle_smasher.active = "#bf9e9b", elements.toggle_smasher.movable = false, elements.toggle_smasher.keyInput = "chance";
elements.toggle_smasher.hardness = 1;
elements.target_toggle_smasher = new rangeTool("#332422", (pixel)=>{
let range = mouseRange(pixel.x, pixel.y, pixel.range);
for(let coords of range){
let p2 = getPixel(coords[0], coords[1]);
if(p2 != null && pixel.toggle && Math.random() < pixel.chance && elements[p2.element].breakInto != undefined && pixel.targetElems.includes(p2.element)){
let elem = (Array.isArray(elements[p2.element].breakInto)) ? elements[p2.element].breakInto[Math.round(Math.random()*elements[p2.element].breakInto.length)] : elements[p2.element].breakInto;
if(elem != undefined){
changePixel(p2, elem);
}
}
}
if(pixel.clickCd > 0){pixel.clickCd--;}
}, {range: null, toggle: false, clickCd: 0, chance: 0.35, targetElems: []}, ()=>{
promptInput("Enter the range for this tool: ", (range)=>{
console.log(range);
elements.target_toggle_smasher.range = parseInt(range);
logMessage("Place smasher, then add elements to the target list by selecting the element and hold down shift while clicking on the pixel, then click on it to toggle on or off. Shift clicking with an element already found in the list will remove it.");
}, "Enter range", elements.target_toggle_smasher.range);
}, (pixel, elem)=>{
if(pixel.clickCd == 0 && dragStart == null && !shiftDown){
pixel.toggle = !pixel.toggle;
pixel.clickCd = 20;
if(pixel.toggle){
let rgb = hexToRGB(elements.target_toggle_smasher.active);
let num = 5 - (Math.random()*10);
for(let key in rgb){
rgb[key] += num;
rgb[key] = Math.round(Math.max(Math.min(rgb[key], 255), 0));
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
} else {
let rgb = hexToRGB(elements.target_toggle_smasher.inactive);
let num = 5 - (Math.random()*10);
for(let key in rgb){
rgb[key] += num;
rgb[key] = Math.round(Math.max(Math.min(rgb[key], 255), 0));
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
};
if(shiftDown && elements[elem].breakInto != undefined){
if(pixel.targetElems.includes(elem)){
pixel.targetElems.splice(pixel.targetElems.indexOf(elem), 1);
} else {
pixel.targetElems.push(elem);
}
}
});
elements.target_toggle_smasher.inactive = "#332422", elements.target_toggle_smasher.active = "#b57a72", elements.target_toggle_smasher.movable = false, elements.target_toggle_smasher.keyInput = "chance";
elements.target_toggle_smasher.hardness = 1;
elements.target_toggle_mixer = new rangeTool("#1f291b", (pixel)=>{
let range = mouseRange(pixel.x, pixel.y, pixel.range);
let pixels = [];
for(let coords of range){
let p2 = getPixel(coords[0], coords[1]);
if(p2 != null && pixel.toggle){
pixels.push(p2);
}
}
for(let p of pixels){
if(Math.random() < pixel.chance){
let p2 = pixels[Math.round(Math.random()*pixels.length)];
if(p != undefined && p2 != undefined && elements[p.element].movable && elements[p2.element].movable && pixel.targetElems.includes(p.element) && pixel.targetElems.includes(p2.element)){
swapPixels(p, p2);
if(elements[p.element].onMix != undefined){
elements[p.element].onMix(p);
}
if(elements[p2.element].onMix != undefined){
elements[p2.element].onMix(p2);
}
}
}
}
if(pixel.clickCd > 0){pixel.clickCd--;}
}, {range: null, toggle: false, clickCd: 0, chance: 0.35, targetElems: []}, ()=>{
promptInput("Enter the range for this tool: ", (range)=>{
console.log(range);
elements.target_toggle_mixer.range = parseInt(range);
logMessage("Place mixer, then add elements to the target list by selecting the element and hold down shift while clicking on the pixel, then click on it to toggle on or off. Shift clicking with an element already found in the list will remove it.");
}, "Enter range", elements.target_toggle_mixer.range);
}, (pixel, elem)=>{
if(pixel.clickCd == 0 && dragStart == null && !shiftDown){
pixel.toggle = !pixel.toggle;
pixel.clickCd = 20;
if(pixel.toggle){
let rgb = hexToRGB(elements.target_toggle_mixer.active);
let num = 5 - (Math.random()*10);
for(let key in rgb){
rgb[key] += num;
rgb[key] = Math.round(Math.max(Math.min(rgb[key], 255), 0));
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
} else {
let rgb = hexToRGB(elements.target_toggle_mixer.inactive);
let num = 5 - (Math.random()*10);
for(let key in rgb){
rgb[key] += num;
rgb[key] = Math.round(Math.max(Math.min(rgb[key], 255), 0));
}
pixel.color = `rgb(${rgb.r},${rgb.g},${rgb.b})`;
}
};
if(shiftDown && elements[elem].movable){
if(pixel.targetElems.includes(elem)){
pixel.targetElems.splice(pixel.targetElems.indexOf(elem), 1);
} else {
pixel.targetElems.push(elem);
}
}
});
elements.target_toggle_mixer.inactive = "#1f291b", elements.target_toggle_mixer.active = "#8cbf7a", elements.target_toggle_mixer.movable = false, elements.target_toggle_mixer.keyInput = "chance";
elements.target_toggle_mixer.hardness = 1;
elements.target_sensor = {
color: "#afb08b",
conduct: 1,
category: "machines",
properties: {
targetElems: [],
clickCd: 0,
},
hardness: 1,
onClicked: function(pixel, element){
if(shiftDown && element != "unknown" && pixel.clickCd == 0){
if(pixel.targetElems.includes(element)){
pixel.targetElems.splice(pixel.targetElems.indexOf(element), 1);
pixel.clickCd = 20;
} else {
pixel.targetElems.push(element);
pixel.clickCd = 20;
}
}
},
tick: function(pixel){
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
let p = getPixel(x,y);
if(p != null && pixel.targetElems.includes(p.element)){
pixel.charge = 1;
doElectricity(pixel,1);
}
}
pixel.clickCd -= (pixel.clickCd > 0) ? 1 : 0;
}
}
Pixel.prototype.inRange = function(range){
res = false;
for(let coords of range){
if(this.x == coords[0] && this.y == coords[1]){
res = true;
}
}
return res;
}
elements.acid.ignore = elements.acid.ignore.concat(["nitric_acid", "aqua_regia", "chloroauric_acid", "nitrogen_dioxide", "nitric_acid_ice", "nitrogen_dioxide_ice", "acid", "chloroauric_acid", "magnesium_chloride", "magnesium_carbonate", "magnesium_hydroxide", "magnesium", "gallium", "gallium_chloride", "salt", "aluminum", "aluminum_chloride", "target_portal_in"]);
elements.nitric_acid = {
alias: "HNO₃",
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: elements.acid.ignore,
state: "liquid",
color: ["#f5e7e1", "#f7e8e1", "#f7ebe6"],
tempLow: -42,
stateLow: "nitric_acid_ice",
reactions: {
acid: {elem1: null, elem2: "aqua_regia"},
},
density: 1510,
category: "liquids",
tick: function(pixel){
for(let coords of squareCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
let p2 = getPixel(x,y);
if(p2 != null && ["light", "liquid_light", "laser"].includes(p2.element) || Math.random()<(pixel.temp-68)/53){
let elems = ["nitrogen_dioxide","water", "oxygen"];
let elem = elems[Math.round(Math.random()*elems.length)];
while (elem == undefined){
elem = elems[Math.round(Math.random()*elems.length)];
}
changePixel(pixel, elem);
}
}
}
}
elements.nitrogen_dioxide = {
alias: "NO₂",
color: ["#6e361f", "#7d3d22", "#873f20", "#9c4935"],
behavior: behaviors.GAS,
state: "gas",
reactions: {
water: {elem1: null, elem2: "nitric_acid"},
},
category: "gases",
stateHigh: ["nitrogen", "oxygen"],
tempHigh: 150,
stateLow: "nitrogen_dioxide_ice",
tempLow: -11,
};
elements.nitrogen_dioxide_ice = {
color: ["#4f1607", "#4d1709", "#541606", "#471407"],
behavior: behaviors.WALL,
state: "solid",
category: "states",
stateHigh: "nitrogen_dioxide",
tempHigh: -10,
};
elements.nitric_acid_ice = {
behavior: behaviors.WALL,
color: ["#f5e7e4", "#f5efed", "#fcfafa"],
state: "solid",
category: "states",
stateHigh: "nitric_acid",
tempHigh: -41
};
elements.aqua_regia = {
alias: "3HCl•HNO₃",
color:["#ffc766", "#f5c36e", "#f7c163", "#ffcd75"],
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: elements.acid.ignore,
category: "liquids",
state: "liquid",
density: 1210,
reactions: {
gold: {elem1: "chloroauric_acid", elem2: null, chance: 0.15},
gold_coin: {elem1: "chloroauric_acid", elem2: null, chance: 0.15},
blue_gold: {elem1: ["chloroauric_acid", "gallium_chloride"], elem2: null, chance: 0.15},
purple_gold: {elem1: ["chloroauric_acid", "chloroauric_acid", "chloroauric_acid", "aluminum_chloride"], elem2: null, chance: 0.15},
}
};
elements.chloroauric_acid = {
color: ["#f7bb2f", "#f5bb33", "#f5b727", "#e8ae25"],
alias: "H(AuCl₄)",
behavior: behaviors.POWDER,
category: "powders",
state: "solid",
density: 3900,
reactions: {
potassium: {elem1: "gold_coin", elem2: "potassium_salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}},
sodium: {elem1: "gold_coin", elem2: "salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}},
caustic_potash: {elem1: "gold_coin", elem2: "potassium_salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("water", x, y);}}}},
lye: {elem1: "gold_coin", elem2: "salt", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("water", x, y);}}}},
magnesium: {elem1: "gold_coin", elem2: "magnesium_chloride", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}},
metal_scrap: {elem1: "gold_coin", elem2: "slag", func: function(pixel){for(let coords of squareCoords){let x=pixel.x+coords[0],y=pixel.y+coords[1]; if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.25){createPixel("hydrogen", x, y);}}}},
}
};
elements.magnesium_chloride = {
alias: "MgCl₂",
category: "salts",
behavior: behaviors.POWDER,
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
density: 2320,
reactions: {
baking_soda: {elem1: "magnesium_carbonate", elem2: "salt"},
lye: {elem1: "magnesium_hydroxide", elem2: "salt"},
caustic_potash: {elem1: "magnesium_hydroxide", elem2: "potassium_salt"},
ash: {elem1: "magnesium_carbonate", elem2: ["dust","dust",null,"potassium_salt", "charcoal"]}
}
}
elements.calcium_chloride = {
alias: "CaCl₂",
category: "salts",
density: 2150,
behavior: behaviors.POWDER,
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
density: 2320,
reactions: {
baking_soda: {elem1: "limestone", elem2: "salt"},
lye: {elem1: "slaked_lime", elem2: "salt"},
caustic_potash: {elem1: "slaked_lime", elem2: "potassium_salt"},
ash: {elem1: "limestone", elem2: ["dust","dust",null,"potassium_salt", "charcoal"]},
epsom_salt: {elem1: "hardened_gypsum", elem2: "magnesium_chloride"},
carbon_dioxide: {elem1: "limestone", elem2: "chlorine", chance: 0.001, tempMin: 60}
}
}
elements.sodium.reactions.carbon_dioxide = {elem1: "baking_soda", elem2: null}, elements.magnesium.reactions.carbon_dioxide = {elem1: "magnesium_carbonate", elem2:null};
elements.acid.reactions.magnesium = {elem1: "hydrogen", elem2: "magnesium_chloride"};
elements.magnesium_carbonate = {
alias: "MgCO₃",
category: "salts",
behavior: behaviors.POWDER,
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
density: 2960,
reactions: {
acid: {elem1: "magnesium_chloride", elem2: ["carbon_dioxide", "foam", "seltzer", "seltzer"]}
}
}
elements.magnesium_hydroxide = {
alias: "Mg(OH)₂",
category: "salts",
behavior: behaviors.POWDER,
state: "solid",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
density: 2340,
reactions: {
acid: {elem1: "magnesium_chloride", elem2: "water"}
}
}
elements.hardened_gypsum = {
alias: "CaSO₄•2H₂O",
color: ["#f2f2f2", "#f5f5f5", "#ebebeb", "#e6e6e6"],
category: "solids",
state: "solid",
behavior: behaviors.WALL,
density: 2320,
breakInto: "gypsum",
}
elements.gypsum = {
alias: "CaSO₄•2H₂O",
color: ["#d1d1d1", "#d6d6d6", "#cccbca", "#cfcdca", "#bfbebb"],
category: "powders",
state: "solid",
behavior: behaviors.STURDYPOWDER,
density: 2420,
tick: function(pixel){
let chance = (pixel.temp-18)/100*(pixel.temp/40)*((pixelTicks-pixel.start)/250);
if(Math.random()<chance){
changePixel(pixel, "hardened_gypsum");
}
}
}
elements.gallium_chloride = {
category: "salts",
alas: "GaCl₃",
behavior: behaviors.POWDER,
state: "solid",
color: ["#ffffff", "#fcfcfc", "#ffffff", "#ededed"],
density: 2470,
reactions: {
water: {elem1: "gallium", elem2: "acid"},
steam: {elem1: "gallium", elem2: "acid_gas"},
salt_water: {elem1: "gallium", elem2: ["acid", "salt"]},
seltzer: {elem1: "gallium", elem2: ["acid", "acid", "acid", "carbon_dioxide"]},
dirty_water: {elem1: "gallium", elem2: ["acid", "acid", "dirt"]},
sugar_water: {elem1: "gallium", elem2: ["acid", "sugar"]},
aluminum: {elem1: "gallium", elem2: "aluminum_chloride"},
sodium: {elem1: "gallium", elem2: "salt"},
potassium: {elem1: "gallium", elem2: "potassium_salt"},
magnesium: {elem1: "gallium", elem2: "magnesium_chloride"},
},
tick: function(pixel){
for(let coords of squareCoords){
let x = pixel.x+coords[0],y=pixel.y+coords[1];
if(isEmpty(x,y) && !outOfBounds(x,y) && Math.random()<0.0015){
createPixel("acid",x,y);
changePixel(pixel, "gallium");
}
}
}
};
elements.aluminum_chloride = {
category: "salts",
color: ["#fcd732", "#fad42d", "#f5d133", "#fad83e"],
alias: "AlCl₃",
behavior: behaviors.POWDER,
state: "solid",
density: 2480,
}
elements.acid.reactions.aluminum = {elem1: "hydrogen", elem2: "aluminum_chloride"};
elements.acid.reactions.purple_gold = {elem1: ["aluminum_chloride", "aluminum_chloride", "hydrogen"], elem2: "gold"};
elements.acid.reactions.blue_gold = {elem1: ["gallium_chloride", "gallium_chloride", "hydrogen"], elem2: "gold"};
elements.portal_in.keyInput = "channel", elements.portal_out.keyInput = "channel";
elements.target_portal_in = {
keyInput: "channel",
category: "machines",
state: "solid",
behavior: behaviors.WALL,
channel: 0,
movable: false,
hardness: 1,
checkAdjacent: function(pixel){
let adjacent = [];
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
if(isEmpty(x,y) && !outOfBounds(x,y)){
adjacent.push([x,y]);
}
}
return (adjacent.length == 0) ? false : adjacent;
},
color: ["#f7ab05", "#fab011", "#faaf0c", "#f5aa0a", "#ffaf03"],
properties: {clickCd: 0, targetElems: [], channel: null, out: null},
onClicked: function(pixel, elem){
if(pixel.clickCd == 0){
if(elem != null){
if(pixel.targetElems.includes(elem)){
pixel.targetElems.splice(pixel.targetElems.indexOf(elem), 1);
} else {
pixel.targetElems.push(elem);
}
}
pixel.clickCd = 20;
}
},
onSelect: function(){
promptInput("Enter channel for the portal: ", (input)=>{
elements.target_portal_in.channel = parseInt(input);
}, "Portal Channel", elements.target_portal_in.channel)
},
tick: function(pixel){
pixel.clickCd -= (pixel.clickCd == 0) ? 0 : 1;
if(pixel.channel == null){
pixel.channel = elements.target_portal_in.channel;
}
if(pixel.out == null){
for(p2 of currentPixels){
if(p2.element == "portal_out" && p2.channel == pixel.channel){
let adjacent = this.checkAdjacent(p2);
if(adjacent != false){
pixel.out = p2;
break;
}
}
}
}
for(let coords of adjacentCoords){
let x = pixel.x+coords[0], y = pixel.y+coords[1];
if(!isEmpty(x,y) && !outOfBounds(x,y) && elements[pixelMap[x][y].element].movable && pixel.out != undefined){
let pixel2 = getPixel(x,y);
let spots = this.checkAdjacent(pixel.out);
if(spots != false && Array.isArray(spots)){
let num = Math.round(Math.random()*spots.length);
while(spots[num] == undefined){
num = Math.round(Math.random()*spots.length);
}
if(pixel.targetElems.includes(pixel2.element)){
movePixel(pixel2, spots[num][0], spots[num][1]);
}
}
}
}
}
}