if(enabledMods.includes("mods/a_mod_by_alice.js")) { logMessage("cursor_shapes.js is redundant with a_mod_by_alice.js") } else { currentShape = "square"; shapeOrder = ["square","circle","triangle","inverted triangle","rhombus","squircle","twinkle"]; shapeExclusionConditions = { /*"square": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { return false },*/ "triangle": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var distanceFromCenterLine; if(size % 2 == 0) { distanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { distanceFromCenterLine = Math.abs(mouseX - x); }; var distanceProportion = distanceFromCenterLine / size; var hpovp = ((yOffset + (size % 2 == 0)) / size) / 2; //halvedPossiblyOffsetVerticalProportion return distanceProportion > (hpovp + 0.01); }, "inverted triangle": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var distanceFromCenterLine; if(size % 2 == 0) { distanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { distanceFromCenterLine = Math.abs(mouseX - x); }; var distanceProportion = distanceFromCenterLine / size; var hpovpc = (1 - ((yOffset + (size % 2 !== 0)) / size)) / 2; //halvedPossiblyOffsetVerticalProportionComplement return distanceProportion > (hpovpc + 0.01); }, "rhombus": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var xDistanceFromCenterLine; if(size % 2 == 0) { xDistanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { xDistanceFromCenterLine = Math.abs(mouseX - x) }; var yDistanceFromCenterLine; if(size % 2 == 0) { yDistanceFromCenterLine = Math.abs((size / 2) - (yOffset + 0.5)) } else { yDistanceFromCenterLine = Math.abs(mouseY - y) }; return (xDistanceFromCenterLine + yDistanceFromCenterLine) > (size / 2) //i was just messing around, i didn't expect this to actually be the right condition :sob: }, "squircle": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var xDistanceFromCenterLine; if(size % 2 == 0) { xDistanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { xDistanceFromCenterLine = Math.abs(mouseX - x) }; var yDistanceFromCenterLine; if(size % 2 == 0) { yDistanceFromCenterLine = Math.abs((size / 2) - (yOffset + 0.5)) } else { yDistanceFromCenterLine = Math.abs(mouseY - y) }; return ( (((xDistanceFromCenterLine ** 3) + (yDistanceFromCenterLine ** 3)) ** (1/3)) > (size / 2)) || ((size > 2) && (size <= 6) && ((xDistanceFromCenterLine + yDistanceFromCenterLine) == (size - 1))); }, "twinkle": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var xDistanceFromCenterLine; if(size % 2 == 0) { xDistanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { xDistanceFromCenterLine = Math.abs(mouseX - x) }; var yDistanceFromCenterLine; if(size % 2 == 0) { yDistanceFromCenterLine = Math.abs((size / 2) - (yOffset + 0.5)) } else { yDistanceFromCenterLine = Math.abs(mouseY - y) }; return ((((xDistanceFromCenterLine ** (1/2)) + (yDistanceFromCenterLine ** (1/2))) ** (2)) > ((size / (size % 2 ? 2 : 1.7)))) && (xDistanceFromCenterLine > 0.5) && (yDistanceFromCenterLine > 0.5) }, "circle": function(x,y,size,mouseX,mouseY,topLeft,bottomRight) { var xOffset = (x - topLeft[0]); var yOffset = (y - topLeft[1]); var xDistanceFromCenterLine; if(size % 2 == 0) { xDistanceFromCenterLine = Math.abs((size / 2) - (xOffset + 0.5)) } else { xDistanceFromCenterLine = Math.abs(mouseX - x) }; var yDistanceFromCenterLine; if(size % 2 == 0) { yDistanceFromCenterLine = Math.abs((size / 2) - (yOffset + 0.5)) } else { yDistanceFromCenterLine = Math.abs(mouseY - y) }; if( (((xDistanceFromCenterLine ** 2) + (yDistanceFromCenterLine ** 2)) ** (1/2)) > (size / 2)) { return true }; //structured this way for legibility if( ((xDistanceFromCenterLine + yDistanceFromCenterLine) == 2) && (size == 3)) { return true }; if( ((xDistanceFromCenterLine + yDistanceFromCenterLine) >= 3.5) && (size == 6)) { return true }; if( ((xDistanceFromCenterLine + yDistanceFromCenterLine) >= 4.5) && (size == 8) && !(Math.abs(xDistanceFromCenterLine) === Math.abs(yDistanceFromCenterLine))) { return true }; if( //i can't explain how these rules work, but they just do (size % 2 == 1) && (size > 5) && ((xDistanceFromCenterLine + yDistanceFromCenterLine) >= (size - 3)) && !(Math.abs(xDistanceFromCenterLine) === Math.abs(yDistanceFromCenterLine)) ) { return true }; return false } } function mouseRange(mouseX,mouseY,size,shapeOverride=null) { var shape = shapeOverride ?? currentShape ?? "square"; var coords = []; size = size || mouseSize; if (elements[currentElement].maxSize < mouseSize) { var mouseOffset = Math.trunc(elements[currentElement].maxSize/2); } else { var mouseOffset = Math.trunc(size/2); } var topLeft = [mouseX-mouseOffset,mouseY-mouseOffset]; var bottomRight = [mouseX+mouseOffset,mouseY+mouseOffset]; if(size % 2 == 0) { bottomRight[0]--; bottomRight[1]--; }; var exclusionFunction = shapeExclusionConditions[shape] ?? null; if((shape !== "square") && (exclusionFunction == null)) { logMessage(`Shape ${shape} not recognized!`) return [] }; // Starting at the top left, go through each pixel for (var x = topLeft[0]; x <= bottomRight[0]; x++) { for (var y = topLeft[1]; y <= bottomRight[1]; y++) { // If the pixel is empty, add it to coords if((shape !== "square") && exclusionFunction?.(x,y,size,mouseX,mouseY,topLeft,bottomRight)) { continue }; coords.push([x,y]); } }; return coords }; document.addEventListener("keydown", function(e) { //shift+8 to change cursor shape if (e.keyCode == 56 && shiftDown) { var currentShapeIndex = shapeOrder.indexOf(currentShape); currentShape = shapeOrder[(currentShapeIndex + 1) % shapeOrder.length]; logMessage(`Current shape: ${currentShape}`) } }) }