X-Git-Url: https://git.r.bdr.sh/rbdr/r.bdr.sh/blobdiff_plain/50a2afb6c837562cf159cfd12a40e37e9aa6664b..97d30c507df73255741898d7945b1e51a0fdd012:/jekyll/js/breadsticks.js?ds=inline diff --git a/jekyll/js/breadsticks.js b/jekyll/js/breadsticks.js index 2675c0c..b42bc17 100644 --- a/jekyll/js/breadsticks.js +++ b/jekyll/js/breadsticks.js @@ -5,6 +5,8 @@ const kGap = 50; const kDrawDelay = 100; const kDarkDrawingColor = '#fff'; const kLightDrawingColor = '#000'; +const kMaxVectorMagnitude = 150; // max size of a vector +const kMagnitudeColorMultiplier = 2.5; // how large should the magnitude be before it's completely transparent /*********************************************** * Breadstick generates a matrix of points @@ -54,8 +56,8 @@ const updateFieldMatrixFromMouse = (field, matrix, gap = 50) => { fillMatrix(matrix, mousePosition.x, mousePosition.y, field.width, field.height, gap); const updateMousePosition = document.addEventListener('mousemove', (event) => { - mousePosition.x = event.offsetX; - mousePosition.y = event.offsetY; + mousePosition.x = event.clientX; + mousePosition.y = event.clientY; fillMatrix(matrix, mousePosition.x, mousePosition.y, field.width, field.height, gap); }); }; @@ -78,13 +80,16 @@ const calculateOffsetVector = (sourceX, sourceY, targetX, targetY, w, h) => { const xOffset = targetX - sourceX; const yOffset = targetY - sourceY; + const calculatedMagnitude = Math.sqrt(Math.pow(xOffset, 2) + Math.pow(yOffset, 2)); + return { position: { x: targetX, y: targetY }, + color: getColor(calculatedMagnitude), angle: Math.atan2(xOffset, yOffset), - magnitude: Math.sqrt(Math.pow(xOffset, 2) + Math.pow(yOffset, 2)) + magnitude: Math.min(calculatedMagnitude, kMaxVectorMagnitude) }; }; @@ -93,28 +98,30 @@ const calculateOffsetVector = (sourceX, sourceY, targetX, targetY, w, h) => { * Drawing */ -// draw a vector from center +// draw a vector const drawVector = (context, i, j, vector) => { - const origin = { - x: context.canvas.width / 2, - y: context.canvas.height / 2 - }; - const x = origin.x - vector.magnitude * Math.cos(vector.angle); - const y = origin.y - vector.magnitude * Math.sin(vector.angle); + const x = vector.position.x - vector.magnitude * Math.sin(vector.angle); + const y = vector.position.y - vector.magnitude * Math.cos(vector.angle); + context.strokeStyle = vector.color; context.beginPath(); context.moveTo(vector.position.x, vector.position.y); context.lineTo(Math.round(x), Math.round(y)); context.stroke(); }; -// Gets the color depending on the team +// Gets the color depending on the calculated magnitude +// as well as the color scheme + +const getColor = (calculatedMagnitude) => { + + let colorValue = Math.round(calculatedMagnitude * 255 / (kMaxVectorMagnitude * kMagnitudeColorMultiplier)) % 255; -const getColor = () => { if (window.matchMedia('(prefers-color-scheme: dark)').matches) { - return kDarkDrawingColor; + colorValue = 255 - colorValue % 255; } - return kLightDrawingColor; + // Initialize an array with the value, converts it to a hex string and joins it. + return `#${Array(3).fill(colorValue.toString(16)).join('')}`; }; @@ -122,7 +129,7 @@ const getColor = () => { const drawFieldMatrixOnCanvas = (matrix, context) => { - context.strokeStyle = getColor(); + context.setLineDash([25, 10]) context.clearRect(0, 0, context.canvas.width, context.canvas.height); for (let i = 0; i < matrix.length; ++i) {