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Merge pull request #686 from JustAGenericUsername/main 

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slweeb 2024-06-16 13:54:54 -04:00 committed by GitHub
parent 48526075f9 a469aad535
commit a63c40d307
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GPG Key ID: B5690EEEBB952194
4 changed files with 129 additions and 8 deletions
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1
mod-list.html
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@ -190,6 +190,7 @@
<tr><td>Neutronium Mod.js</td><td>Variety of scientific elements<br>Explosions</td><td>StellarX20</td></tr>
<tr><td>neutronium_compressor.js</td><td>Adds a compressor (in reference to Minecrafts Avaritia mod) that compresses 10,000 pixels of an element into a “singularity”</td><td>Alice</td></tr>
<tr><td>noblegas.js</td><td>Adds the missing noble gases</td><td>nousernamefound</td></tr>
<tr><td>nousersthings.js</td><td>Adds many chemical elements, compounds, and more</td><td>nousernamefound</td></tr>
<tr><td>radioactive.js</td><td>Adds every radioactive elements on the periodic table (WIP)</td><td>kaeud</td></tr>
<tr><td>random_rocks.js</td><td>Randomly generates rocks on game load</td><td>Alice</td></tr>
<tr><td>roseyiede.js</td><td>Adds several variants of a substance called roseyiede</td><td>Alice</td></tr>

2
mods/halogen.js
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@ -197,7 +197,7 @@ elements.astatine = {
elements.molten_astatine = {
color: ["#cdaf42", "#d09a2c", "#d38419", "#d66b10", "#d84e13"],
behavior: behaviors.RADMOLTEN,
state: "solid",
state: "liquid",
tempHigh: 337,
stateHigh: "astatine_gas",
stateLow: "astatine",

2
mods/heatglow.js
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@ -38,7 +38,7 @@ const heatfunc = function(pixel){
pixel.color = "rgb(" + weightedAverage(pixel.ogR, newR, weight) + "," + weightedAverage(pixel.ogG, newG, weight) + "," + weightedAverage(pixel.ogB, newB, weight) + ")";
}}};
if (!eLists.metals) { eLists.metals = [] }
eLists.metals = eLists.metals.concat(["iron", "glass", "copper", "gold", "brass","steel","nickel","zinc","silver","aluminum","bronze","metal_scrap","oxidized_copper","tin","lead", "rose_gold"])
eLists.metals = eLists.metals.concat(["iron", "glass", "copper", "gold", "brass","steel","nickel","zinc","silver","aluminum","bronze","metal_scrap","oxidized_copper","tin","lead", "rose_gold", "tungsten"])
eLists.metals.forEach(metal => {
const prefunc = elements[metal].tick;
if (!prefunc){

132
mods/nousersthings.js
View File

@ -2514,8 +2514,9 @@ elements.solid_diamond = {
tempHigh: elements.diamond.tempHigh,
stateHigh: elements.diamond.stateHigh,
state: "solid",
denisty: elements.diamond.density,
hardness: elements.diamond.hardness
density: elements.diamond.density,
hardness: elements.diamond.hardness,
behavior: behaviors.WALL,
}
elements.textured_rose_gold = {
color: ["#FF5991", "#E4386F", "#7F1037", "#FFCCCD", "#671133"],
@ -2842,7 +2843,7 @@ elements.specific_ray_emitter = {
if (!rayans6) { return }
stopAtElement = mostSimilarElement(rayans6)
let rayans7
if (rayans == "ray"){ rayans7 = prompt("How long should the ray stay on screen in ticks?", (rayLife||10));}
if (rayans == "ray"){ rayans7 = prompt("How long should the ray stay on screen in ticks?", (rayLife||10));
if (!rayans7) { return }
if (isNaN(parseFloat(rayans7))){
rayLife = 10
@ -2851,6 +2852,7 @@ elements.specific_ray_emitter = {
}
var rayans8 = prompt("Would you like rainbow mode to be enabled? Type yes or no.", (rainbowMode||"no"));
if (rayans8 == "yes"){rainbowMode = true} else {rainbowMode = false}
}
},
hoverStat: function(pixel){
return (pixel.rayElement.toUpperCase() || "unset") + ", " + (pixel.rayStoppedByWalls.toString().toUpperCase() || "unset") + ", " + (pixel.specificRayStart || "unset") + ", " + (pixel.specificRayEnd || "unset") + ", " + (pixel.specificRayAngle || "unset")
@ -2967,7 +2969,51 @@ elements.insulated_wire = {
if (!isEmpty(x,y,true)) {
var newPixel = pixelMap[x][y];
var con = newPixel.element;
if (con == "insulated_wire") {
if (con == "insulated_wire" || con == "wire_bridge") {
if (1 == 1) { // If random number is less than conductivity
if (!newPixel.charge && !newPixel.chargeCD) {
newPixel.charge = 1;
}
}
}
}
}
pixel.charge -= 0.25;
if (pixel.charge <= 0) {
delete pixel.charge;
// pixel.chargeCD = 4;
pixel.chargeCD = Math.round(4 + (4*(1-elements[pixel.element].conduct))) || 4;
}
}
// Lower charge cooldown
else if (pixel.chargeCD) {
pixel.chargeCD -= 1;
if (pixel.chargeCD <= 0) {
delete pixel.chargeCD;
if (elements[pixel.element].colorOn) {
pixel.color = pixelColorPick(pixel);
}
}
}
}
doHeat(pixel)
}
}
elements.wire_bridge = {
color: "#461716",
category: "machines",
conduct: 1,
tick: function(pixel){
{
if (pixel.charge) {
// Check each adjacent pixel, if that pixel's charge is false, set it to the same charge
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];
var con = newPixel.element;
if (con == "insulated_wire" || con == "wire" || con == "wire_bridge") {
if (1 == 1) { // If random number is less than conductivity
if (!newPixel.charge && !newPixel.chargeCD) {
newPixel.charge = 1;
@ -3048,7 +3094,7 @@ elements.piston_ray_emitter = {
var lx = lcoord[0];
var ly = lcoord[1];
if (!isEmpty(lx, ly, true)){
tryMove(pixelMap[lx][ly], pCoord[0], pCoord[1])
tryMove(pixelMap[lx][ly], pCoord[0], pCoord[1], null, true)
}
pCoord[0] = lx;
pCoord[1] = ly;
@ -3108,7 +3154,7 @@ elements.specific_piston_ray_emitter = {
var lx = lcoord[0];
var ly = lcoord[1];
if (!isEmpty(lx, ly, true)){
tryMove(pixelMap[lx][ly], pCoord[0], pCoord[1])
tryMove(pixelMap[lx][ly], pCoord[0], pCoord[1], null, true)
}
pCoord[0] = lx;
pCoord[1] = ly;
@ -3118,4 +3164,78 @@ elements.specific_piston_ray_emitter = {
}} else {pixel.cooldown -= 1}
},
insulate: true,
}
if (!elements.molten_gallium.reactions){elements.gallium.reactions = {}}
elements.molten_gallium.reactions.nitrogen = {elem1: "gallium_nitride", elem2: null, chance: 0.02, tempMin: 1200}
elements.gallium_nitride = {
color: "#dedf9d",
behavior: behaviors.WALL,
colorOn: "#493ee9",
category: "solids",
tempHigh: 1650,
density: 6100,
stateHigh: "molten_gallium_nitride",
state: "solid",
conduct: 0.84,
tick: function(pixel){
if (pixel.charge){
for (var i = 0; i < adjacentCoords.length; i++) {
var coord = squareCoords[i];
var x = pixel.x+coord[0];
var y = pixel.y+coord[1];
if (isEmpty(x,y, true)){
if (Math.random() < 0.3){
createPixel("light", x, y)
pixelMap[x][y].color = pixelColorPick(pixelMap[x][y], "#493ee9")
}
}
}
}
}
}
elements.molten_gallium_nitride = {
color: ["#d29d70", "#cf8e5e", "#cd7e4e", "#ca6d40", "#c75b33"],
behavior: behaviors.MOLTEN,
category: "states",
hidden: true,
state: "liquid",
tempLow: 1640,
stateLow: "gallium_nitride",
density: 6050,
}
elements.gallium_phosphide = {
color: "#be6008",
behavior: behaviors.WALL,
colorOn: "#00ff15",
category: "solids",
tempHigh: 1457,
density: 4138,
stateHigh: "molten_gallium_phosphide",
state: "solid",
conduct: 0.84,
tick: function(pixel){
if (pixel.charge){
for (var i = 0; i < adjacentCoords.length; i++) {
var coord = squareCoords[i];
var x = pixel.x+coord[0];
var y = pixel.y+coord[1];
if (isEmpty(x,y, true)){
if (Math.random() < 0.3){
createPixel("light", x, y)
pixelMap[x][y].color = pixelColorPick(pixelMap[x][y], "#00ff15")
}
}
}
}
}
}
elements.molten_gallium_phosphide = {
color: ["#a36936", "#cf8e5e", "#9b4c1c", "#ca6d40", "#a13d19"],
behavior: behaviors.MOLTEN,
category: "states",
hidden: true,
state: "liquid",
tempLow: 1447,
stateLow: "gallium_phosphide",
density: 4100,
}