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Delete yumcherries.js

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lllllllllwith10ls 2023-07-20 19:09:56 -05:00 committed by GitHub
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mods/yumcherries.js
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var modName = "mods/cherries.js";
var onTryMoveIntoMod = "mods/onTryMoveInto.js";
var libraryMod = "mods/code_library.js";
if(enabledMods.includes(onTryMoveIntoMod) && enabledMods.includes(libraryMod)) {
randomNumberFromOneToThree = function() {
return 1 + Math.floor(Math.random() * 3)
};
debugSpeedGrowth = false;
logLeaves = false;
cherryAttachWhitelist = ["cherry_log","cherry_branch_1","cherry_branch_2","blossom","cherry_leaf","cherry_plant_top","cherry"];
cherryDirtElements = ["dirt","mud","sand","wet_sand","clay_soil","mycelium","grass"];
function logPixelCoords(pixel) {
return `(${pixel.x}, ${pixel.y})`
};
function hasPixel(x,y,elementInput) {
if(isEmpty(x,y,true)) { //if empty, it can't have a pixel
return false;
} else {
if(elementInput.includes(",")) { //CSTA
elementInput = elementInput.split(",");
};
if(Array.isArray(elementInput)) { //if element list
return elementInput.includes(pixelMap[x][y].element);
} else { //if single element
return pixelMap[x][y].element === elementInput;
};
};
};
elements.cherry_seed = {
color: "#8b4513",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
if (isEmpty(pixel.x,pixel.y+1)) {
movePixel(pixel,pixel.x,pixel.y+1);
} else {
if (Math.random() < (debugSpeedGrowth ? 0.09 : 0.03) && pixel.age > (debugSpeedGrowth ? 20 : 50) && pixel.temp < 100) {
if (!outOfBounds(pixel.x,pixel.y+1)) {
var dirtPixel = pixelMap[pixel.x][pixel.y+1];
if (cherryDirtElements.includes(dirtPixel.element)) {
changePixel(dirtPixel,"root");
};
};
if (isEmpty(pixel.x,pixel.y-1)) {
movePixel(pixel,pixel.x,pixel.y-1);
createPixel("cherry_log",pixel.x,pixel.y+1);
pixelMap[pixel.x][pixel.y+1].cherryRange = pixel.cherryRange; //pass cherry range down to log
};
} else if (pixel.age > (debugSpeedGrowth ? 500 : 1000)) {
changePixel(pixel,"cherry_plant_top");
};
pixel.age++;
};
if(Math.random() < 0.01 && pixel.age > 200) {
changePixel(pixel,"cherry_plant_top");
};
doDefaults(pixel);
},
properties: {
"age": 0,
//"cherryRange": null, //apparently this is suddenly, in an illogical, never-before-seen, completely new, unprecedented incident of bad behavior, evaluated before being put into the property database, so RNG has to be done in tick
"cherryRange": null,
},
tempHigh: 100,
stateHigh: "dead_plant",
tempLow: -2,
stateLow: "frozen_plant",
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
category: "life",
state: "solid",
density: 1500,
cooldown: defaultCooldown,
};
elements.cherry_log = {
hidden: true,
color: "#310a0b",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
if (pixel.age > 60 && pixel.temp < 100 && !pixel.grewPeduncle) {
var peduncleOffsets = [-1, 1]; //placed to the left, placed to the right
for(i = 0; i < peduncleOffsets.length; i++) {
if (isEmpty(pixel.x+peduncleOffsets[i],pixel.y,false)) {
if (Math.random() < 0.005) {
createPixel("cherry_branch_1",pixel.x+peduncleOffsets[i],pixel.y);
pixelMap[pixel.x+peduncleOffsets[i]][pixel.y].dir = Math.sign(peduncleOffsets[i]);
pixelMap[pixel.x+peduncleOffsets[i]][pixel.y].cherryRange = pixel.cherryRange; //pass cherry range down to branch
if(Math.random() < 0.8) { pixel.grewPeduncle = true; } //20% chance to not mark as true, allowing for a chance to try another branch
};
};
};
};
pixel.age++;
doDefaults(pixel);
},
properties: {
"age": 0,
"grewPeduncle": false,
"cherryRange": null,
},
tempHigh: 100,
stateHigh: "dead_plant",
tempLow: -2,
stateLow: "frozen_plant",
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
category: "life",
state: "solid",
density: 1500,
};
elements.cherry = {
color: "#f7022a",
tick: function(pixel) {
if(pixel.attached) {
var attachCoords = [pixel.x+Math.sign(pixel.attachDirection), pixel.y];
if(isEmpty(attachCoords[0],attachCoords[1],false)) {
pixel.attached = false;
};
} else { //Move if not attached
if (!tryMove(pixel, pixel.x, pixel.y+1)) {
if(Math.random() < 0.9) {
if (Math.random() < 0.5) {
if (!tryMove(pixel, pixel.x+1, pixel.y+1)) {
tryMove(pixel, pixel.x-1, pixel.y+1);
};
} else {
if (!tryMove(pixel, pixel.x-1, pixel.y+1)) {
tryMove(pixel, pixel.x+1, pixel.y+1);
};
};
};
};
};
doDefaults(pixel);
var shouldSpoil = true; //spoil by default
if(pixel.attached) { //if it's attached
if(!isEmpty(attachCoords[0],attachCoords[1],true)) { //if the attachment coords are a pixel and not OOB
var attachPixel = pixelMap[attachCoords[0]][attachCoords[1]];
var attachElement = attachPixel.element;
if(cherryAttachWhitelist.includes(attachElement)) {//if the element is a whitelisted "don't spoil" element
shouldSpoil = false; //then don't spoil
};
};
};
if(shouldSpoil) { //spoil if not attached
if(pixel.temp > -14 && pixel.temp <= 4) { //(no spoiling below 14C)
pixel.spoilage += Math.max(Math.min(scale(pixel.temp,-14,4,0,9),9),0)
} else if(pixel.temp > 4) {
pixel.spoilage += Math.max(Math.min(scale(pixel.temp,4,20,9,30),40),0)
};
};
if(pixel.spoilage > 14400) { //3600 = 120 ticks at 20C
if(Math.random() < 0.05) {
changePixel(pixel,"spoiled_cherry");
};
};
},
properties: {
"spoilage":0,
"attached": false,
"attachDirection": (!Math.floor(Math.random() * 2)) ? 1 : -1,
},
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
tempHigh: 200,
stateHigh: ["steam", "ash"],
onTryMoveInto: function(pixel,otherPixel) {
var otherInfo = elements[otherPixel.element]
if(typeof(otherInfo.state) === "string" && otherInfo.state !== "gas") {
pixel.attached = false;
};
},
};
elements.cherry_branch_1 = {
hidden: true,
name: "cherry branch (offshoot)",
color: "#310a0b",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
if (pixel.age > 20 && pixel.temp < 100) {
var peduncleCoords1 = [pixel.x + pixel.dir, pixel.y];
var peduncleCoords2 = [pixel.x + pixel.dir, pixel.y + 1];
if(isEmpty(peduncleCoords1[0],peduncleCoords1[1],false) && isEmpty(peduncleCoords2[0],peduncleCoords2[1],false)) {
if(Math.random() < 0.5) {
createPixel(pixel.element,peduncleCoords1[0],peduncleCoords1[1]);
pixelMap[peduncleCoords1[0]][peduncleCoords1[1]].dir = pixel.dir;
pixelMap[peduncleCoords1[0]][peduncleCoords1[1]].cherryRange = pixel.cherryRange; //pass cherry range down to next pixel of branch horizontal
} else {
createPixel("cherry_branch_2",peduncleCoords2[0],peduncleCoords2[1]);
pixelMap[peduncleCoords2[0]][peduncleCoords2[1]].cherryRange = pixel.cherryRange; //pass cherry range down to diagonal offshoot
};
};
};
pixel.age++;
doDefaults(pixel);
},
properties: {
"dir": (!Math.floor(Math.random() * 2)) ? 1 : -1,
"age": 0,
//"cherryRange": (1 + (Math.floor(Math.random() * 3))), //1-3
"cherryRange": null,
},
tempHigh: 100,
stateHigh: "dead_plant",
tempLow: -2,
stateLow: "frozen_plant",
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
category: "life",
state: "solid",
density: 1500,
};
elements.cherry_branch_2 = {
hidden: true,
name: "cherry branch (hanging)",
color: "#310a0b",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
// Grow/Flower
if (pixel.age > 20 && pixel.temp < 100) {
var growthCoords = [pixel.x, pixel.y + 1];
if(isEmpty(...growthCoords)) {
if(Math.random() < 0.9) {
createPixel(pixel.element,...growthCoords);
pixelMap[growthCoords[0]][growthCoords[1]].cherryRange = pixel.cherryRange; //pass cherry range down to next pixel of branch vertical
} else {
createPixel("blossom",...growthCoords); // cherry flower
};
};
};
//Make cherries
if (pixel.age > 40 && pixel.temp < 100) {
var cherryOffsets = [-1, 1]; //placed to the left, placed to the right
for(i = 0; i < cherryOffsets.length; i++) {
//console.log(`Looping through left and right positions: ${cherryOffsets}`);
for(j = 1; j < pixel.cherryRange + 1; j++) { //for max cherry distance, using the cherry range
//console.log(`Looping through cherry offset multipliers: ${j}`);
if (isEmpty(pixel.x+(j * cherryOffsets[i]),pixel.y,false)) { //if there's an empty space
//console.log(`Cherry position is empty: [${j * cherryOffsets[i]}, 0]\nTrying cherry at (${pixel.x+(j * cherryOffsets[i])},${pixel.y})`);
if (Math.random() < (debugSpeedGrowth ? 0.05 : 0.005)) { //try to place the cherry
//console.log(`Placing cherry`);
createPixel("cherry",pixel.x+(j * cherryOffsets[i]),pixel.y);
pixelMap[pixel.x+(j * cherryOffsets[i])][pixel.y].attached = true;
pixelMap[pixel.x+(j * cherryOffsets[i])][pixel.y].attachDirection = -1 * Math.sign(cherryOffsets[i]); //attach dir is the opposite of placement dir so it attaches towards the stem
} else {
//console.log(`NOT placing cherry`);
};
//console.log(`Cherry tried, stopping iteration`);
break; //and then stop iteration
} else {
//console.log(`Cherry position is NOT empty: [${j * cherryOffsets[i]}, 0]\nSkipping this offset`);
continue; //if not empty, skip that pixel and move on the next distance
};
//console.log(`====End of side try====`);
};
//console.log(`####End of side iterator####`);
};
//console.log(`>>>>End of cherry iterator<<<<`);
};
pixel.age++;
doDefaults(pixel);
//console.log(`\nEnd of branch tick\n`);
},
properties: {
"age": 0,
//"cherryRange": (1 + (Math.floor(Math.random() * 3))), //1-3
"cherryRange": null,
},
tempHigh: 100,
stateHigh: "dead_plant",
tempLow: -2,
stateLow: "frozen_plant",
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
category: "life",
state: "solid",
density: 1500,
};
elements.spoiled_cherry = {
hidden: true,
color: "#594b29",
behavior: [
"XX|CR:stench,fly%0.1|XX",
"M2%0.5|CH:dirty_water,fly,fly%0.007|M2%0.5",
"M2|M1|M2"
],
stain: 0.01,
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
tempHigh: 200,
stateHigh: ["steam", "ash"],
};
elements.fly.reactions.spoiled_cherry = { "elem2":null, chance:0.15, func:behaviors.FEEDPIXEL };
elements.cherry_leaf = {
hidden: true,
color: "#9df24e",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
if(pixel.attached) {
var attachCoords = [pixel.x + pixel.attachOffsets[0], pixel.y + pixel.attachOffsets[1]];
if(isEmpty(attachCoords[0],attachCoords[1],false)) { //consider OOB full
pixel.attached = false;
};
} else { //Move if not attached
if(Math.random() < 0.2) {
if (!tryMove(pixel, pixel.x, pixel.y+1)) {
if(Math.random() < 0.4) {
if (Math.random() < 0.5) {
if (!tryMove(pixel, pixel.x+1, pixel.y+1)) {
tryMove(pixel, pixel.x-1, pixel.y+1);
};
} else {
if (!tryMove(pixel, pixel.x-1, pixel.y+1)) {
tryMove(pixel, pixel.x+1, pixel.y+1);
};
};
};
};
};
};
doDefaults(pixel);
},
properties: {
"attached": false,
"attachOffsets": [(!Math.floor(Math.random() * 2)) ? 1 : -1, 0],
"cherryRange": null,
},
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
tempHigh: 200,
stateHigh: ["steam", "ash"],
onTryMoveInto: function(pixel,otherPixel) { //Move through
var otherElement = otherPixel.element; //var element for readability
var otherInfo = elements[otherElement]; //var info
var otherState = "solid"; //consider things solid by default
if(typeof(otherInfo.state) === "string") {
otherState = otherInfo.state; //get actual state if it exists
};
var otherDensity = 1000; //consider density 1000 by default
if(typeof(otherInfo.density) === "number") {
otherDensity = otherInfo.density; //get actual density if it exists
};
var react = false; //default to no reaction
if(typeof(otherInfo.reactions) === "object") { //look for reactions
if(typeof(otherInfo.reactions[pixel.element]) === "object") { //look for reactions involving this element
react = true; //if there are any, set reaction flag to true
};
};
if(otherElement.endsWith("head") || otherElement.endsWith("body")) {
//i don't want to make general MPL handling so I'll just try to exclude them;
if(otherElement !== "antibody") {
//exclude antibody from exclusion
return false;
};
};
if(otherElement !== pixel.element) { //allow this element from piling on itself
if(logLeaves) { console.log("Other element is not cherry leaves") }; //yes, this code is for cherry leaves
if(react) { //if there was a reaction in that previous step
if(logLeaves) { console.log("Reacting pixels") };
reactPixels(otherPixel,pixel); //react
} else { //if no such reaction existed, move through
if(logLeaves) { console.log("Moving pixels") };
if((otherState !== "solid") || (otherState === "solid" && otherDensity > 100)) { //admit any non-solid, or any solid with a density over 100
var pX = pixel.x; //var pixel coords for no particular reason
var pY = pixel.y;
var oX = otherPixel.x; //var other pixel's coords for no particular reason
var oY = otherPixel.y;
if(logLeaves) { console.log(`${otherElement} pixel (${oX},${oY}) trying to move info leaf block (${pX},${pY})`) };
var dX = oX - pX; //get the difference between this's X and other's X; if the other pixel is moving from the space immediately to the right, this dX value should be 1
var dY = oY - pY;
var iDX = -1 * dX; //get the additive inverse; if we want to move such a pixel from the right to the left, we would change its +1 X offset to a -1 X offset for the coord sto move it to
var iDY = -1 * dY;
if(logLeaves) { console.log(`Old offset (relative to leaf): [${dX},${dY}], new offset [${iDX},${iDY}]`) };
var fX = pX + iDX; //combine this pixel's X with the inverted offset we just made;
//assuming this pixel is (23,31) and the other pixel is trying to move in to the left into this from (24,31),
//the dX would be [1, 0], signifying that the other pixel is 1 pixel to the right of this
//the space to the left of this, where it would go, is (22,31), and the offset for that pixel relative to this is [-1, 0]
//to get the [-1, 0], we'd need to flip that [1, 0] offset (lmao flip that the song by loona), hence the inverse
var fY = pY + iDY;
if(logLeaves) { console.log(`Calculated final position: (${fX},${fY}), moving other pixel from (${oX},${oY})`) };
tryMove(otherPixel,fX,fY);
};
};
};
},
};
/*if(!elements.diamond.reactions) { //test reaction
elements.diamond.reactions = {};
};
elements.diamond.reactions.cherry_leaf = { "elem2": "dead_plant" };*/
elements.cherry_plant_top = {
hidden: true,
color: "#310a0b",
tick: function(pixel) {
if(pixel.cherryRange === null) {
pixel.cherryRange = randomNumberFromOneToThree();
};
if (pixel.age > 30 && pixel.temp < 100) {
if(!pixel.grewLeftLeaves) {
for(i = (0 - pixel.leafRange); i < 0; i++) { //left half
if(i == 0) {
continue;
};
var leafOffset = i; //readability
var leafX = pixel.x + leafOffset; //set X to cherry_plant_top pixel's X + offset/index
var leafAttachOffset = [1, 0]; //difference 1: attaches rightwards (+) for leaves left (-) of center
var leafY = pixel.y; //set Y to default cherry_plant_top pixel's Y
if(Math.abs(leafOffset) == pixel.leafRange) {
leafY++; //place edge leaves 1 pixel downwards;
leafAttachOffset[1] = -1; //compensate by subtracting 1 from Y attach offset (less Y = higher position, so they attach diagonally up-right or up-left)
};
if(outOfBounds(leafX,leafY)) {
continue;
};
if (isEmpty(leafX,leafY,false)) {
createPixel("cherry_leaf",leafX,leafY);
pixelMap[leafX][leafY].attached = true; //set leaf's attached to true
pixelMap[leafX][leafY].attachOffsets = leafAttachOffset; //array of 2 numbers
pixelMap[leafX][leafY].cherryRange = pixel.cherryRange;
pixel.grewLeftLeaves = true; //difference 2: separate flag for left side
} else {
break;
};
};
};
if(!pixel.grewRightLeaves) {
for(i = 1; i < (pixel.leafRange + 1); i++) { //right half
if(i == 0) {
continue;
};
var leafOffset = i; //readability
var leafX = pixel.x + leafOffset; //set X to cherry_plant_top pixel's X + offset/index
var leafAttachOffset = [-1, 0]; //difference 1: attaches leftwards (-) for leaves right (+) of center
var leafY = pixel.y; //set Y to default cherry_plant_top pixel's Y
if(Math.abs(leafOffset) == pixel.leafRange) {
leafY++; //place edge leaves 1 pixel downwards;
leafAttachOffset[1] = -1; //compensate by subtracting 1 from Y attach offset (less Y = higher position, so they attach diagonally up-right or up-left)
};
if(outOfBounds(leafX,leafY)) {
continue;
};
if (isEmpty(leafX,leafY,false)) {
createPixel("cherry_leaf",leafX,leafY);
pixelMap[leafX][leafY].attached = true; //set leaf's attached to true
pixelMap[leafX][leafY].attachOffsets = leafAttachOffset; //array of 2 numbers
pixelMap[leafX][leafY].cherryRange = pixel.cherryRange;
pixel.grewRightLeaves = true; //difference 2: separate flag for right side
} else {
break;
};
};
};
};
pixel.age++;
doDefaults(pixel);
},
properties: {
"age": 0,
"leafRange": 2 + (Math.floor(Math.random() * 3)), //2-4
"grewLeftLeaves": false,
"grewRightLeaves": false,
"cherryRange": null,
},
tempHigh: 100,
stateHigh: "dead_plant",
tempLow: -2,
stateLow: "frozen_plant",
burn: 5,
burnInto: ["steam", "ash"],
burnTime: 600,
category: "life",
state: "solid",
density: 1500,
};
/*elements.cocoa_bean = {
color: ["#f2ede9", "#f0dfce", "#e8cfb5"],
behavior: behaviors.SOLID,
category: "liquids",
viscosity: 100000,
state: "liquid",
density: 593,
tick: functi
};*/
} else {
enabledMods.splice(enabledMods.indexOf(modName),0,onTryMoveIntoMod);
enabledMods.splice(enabledMods.indexOf(modName),0,libraryMod);
localStorage.setItem("enabledMods", JSON.stringify(enabledMods));
alert(`The ${onTryMoveIntoMod} mod and ${libraryMod} mods are required and have been automatically inserted (reload for this to take effect).`);
};