// https://www.redblobgames.com/grids/hexagons/ // Horizontal distance between hex centers is sqrt(3) * size. The vertical // distance is 3 / 2 * size. When we calculate horzDist / vertDist, the size // cancels out, leaving us with a unitless ratio of sqrt(3) / (3 / 2), or // 2 * sqrt(3) / 3. const svgns = "http://www.w3.org/2000/svg", horzToVertDistRatio = 2 * Math.sqrt(3) / 3, arcSize = { 'small': Math.atan(horzToVertDistRatio / 6), 'medium': Math.atan(horzToVertDistRatio / 2), 'large': Math.atan(7 * horzToVertDistRatio / 2) }, firingArcVisibility = { davion: false, liao: false }; let svg; function calculateAngle(xDiff, yDiff) { yDiff = -yDiff; let angle = Math.abs(Math.atan(yDiff / xDiff)); if (xDiff < 0 && yDiff > 0) { angle = Math.PI - angle; } else if (xDiff < 0 && yDiff < 0) { angle = Math.PI + angle; } else if (xDiff > 0 && yDiff < 0) { angle = 2 * Math.PI - angle; } return angle; } function edgePoint(x1, y1, x2, y2, maxX, maxY, minX = 0, minY = 0) { let pointCoords, xDiff = x2 - x1, yDiff = y2 - y1, xIntercept = y => (y - y1) * xDiff / yDiff + x1, yIntercept = x => (x - x1) * yDiff / xDiff + y1; if (xDiff > 0 && yDiff > 0) { let x = xIntercept(maxY); pointCoords = x <= maxX ? [x, maxY] : [maxX, yIntercept(maxX)]; } else if (xDiff > 0 && yDiff < 0) { let y = yIntercept(maxX); pointCoords = y >= minY ? [maxX, y] : [xIntercept(minY), minY]; } else if (xDiff < 0 && yDiff < 0) { let x = xIntercept(minY); pointCoords = x >= minX ? [x, minY] : [minX, yIntercept(minX)]; } else { let y = yIntercept(minX); pointCoords = y <= maxY ? [minX, y] : [xIntercept(maxY), maxY]; } return pointCoords; } let cornerPoints; function position(e) { // let activeFiringArc = this.querySelector('polygon.firing-arc.active'); let activeFiringArc; let size = this.querySelector('polygon.firing-arc.active').dataset.size; // TODO: handle exactly horizontal and vertical lines let grid = this.querySelector('.grid'); let testAim = this.querySelector('#test-arcs line'); let testOutline = this.querySelector('#test-arcs polyline'); let testArea = this.querySelector('#test-arcs polygon'); let pt = new DOMPoint(e.clientX, e.clientY); let { x, y } = pt.matrixTransform(grid.getScreenCTM().inverse()); let pivotPt = [x1, y1] = [testAim.getAttribute('x1'), testAim.getAttribute('y1')].map(n => parseFloat(n)); let [maxX, maxY, minX, minY] = [ grid.getBBox().x + grid.getBBox().width, grid.getBBox().y + grid.getBBox().height, grid.getBBox().x, grid.getBBox().y ].map(n => parseFloat(n)); let edgePointArgs = [testAim.getAttribute('x1'), testAim.getAttribute('y1'), x, y, maxX, maxY, minX, minY].map(n => parseFloat(n)) let aimPt = [x2, y2] = edgePoint(...edgePointArgs); testAim.setAttributeNS(null, 'x2', x2); testAim.setAttributeNS(null, 'y2', y2); // console.log(testAim); let angle = calculateAngle(x2 - x1, y2 - y1); let arcAngle = arcSize[size]; // let arcAngle = Math.PI / 4; let distance = Math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2); let yDelta = distance * Math.cos(angle) * Math.tan(arcAngle); let xDelta = distance * Math.sin(angle) * Math.tan(arcAngle); let [newY1, newX1] = [y2 - yDelta, x2 - xDelta]; let [newY2, newX2] = [y2 + yDelta, x2 + xDelta]; let arcPt1 = [newX1, newY1] = edgePoint(x1, y1, newX1, newY1, maxX, maxY, minX, minY); let arcPt2 = [newX2, newY2] = edgePoint(x1, y1, newX2, newY2, maxX, maxY, minX, minY); testOutline.setAttributeNS(null, 'points', `${newX1},${newY1} ${x1},${y1} ${newX2},${newY2}`); // console.log('area ', testArea.getAttribute('points').split(' ').map(n => n.split(',').map(n => Math.round(parseFloat(n)))).join(' \t')); // console.log('lines ', testOutline.getAttribute('points').split(' ').map(n => n.split(',').map(n => Math.round(parseFloat(n)))).join(' \t')); function touchSameEdge([x1, y1], [x2, y2]) { // console.log('touchSameEdge', x1, y1, x2, y2); return x1 === x2 || y1 === y2; } function touchOrthogonalEdges([x1, y1], [x2, y2]) { let xLimit = [minX, maxX], yLimit = [minY, maxY]; return (xLimit.includes(x1) && yLimit.includes(y2)) || (yLimit.includes(y1) && xLimit.includes(x2)); } function shareValue([x1, y1], [x2, y2]) { return x1 === x2 || y1 === y2; } function findSharedValue(pt, ...pts) { // which arcpt does aimpt share a value with? // if they share an x value, we will look for corner y value // if they share a y value, we will look for corner x value // is aim pt non-shared value greater or less than arcpt non-shared value? const sharedValPt = pts.find(([ptX, ptY]) => pt.includes(ptX) || pt.includes(ptY)); let limits = [[minX, maxX], [minY, maxY]]; if (!sharedValPt) { return; } const nonSharedValIndex = pt[0] === sharedValPt[0] ? 1 : 0; const cornerVal = pt[nonSharedValIndex] < sharedValPt[nonSharedValIndex] ? Math.min(...limits[nonSharedValIndex]) : Math.max(...limits[nonSharedValIndex]); let cps = cornerPoints.filter(cp => cp[nonSharedValIndex] === cornerVal); return cps; } console.log('cornerPoints', cornerPoints); if (touchSameEdge(arcPt1, arcPt2)) { // 0 corner case console.log('0-corner case'); testArea.setAttributeNS(null, 'points', [pivotPt, arcPt1, arcPt2].join(' ')); } else if (touchOrthogonalEdges(arcPt1, arcPt2)) { // 1 corner or 3 corner case if (touchSameEdge(aimPt, arcPt1) || touchSameEdge(aimPt, arcPt2)) { console.log('1-corner case'); let cp = cornerPoints.find(cp => shareValue(cp, arcPt1) && shareValue(cp, arcPt2)); testArea.setAttributeNS(null, 'points', [pivotPt, arcPt1, cp, arcPt2].join(' ')); } else { console.log('3-corner case'); console.log('cornerPoints', cornerPoints); let cps = cornerPoints.filter(cp => !shareValue(cp, arcPt1) || !shareValue(cp, arcPt2)); let index = cps.findIndex(cp => shareValue(cp, arcPt2)); console.log('cps', cps, 'index', index, 'arcPt2', arcPt2, 'arcPt1', arcPt1); cps.splice(index + 1, 0, arcPt2, pivotPt, arcPt1); console.log('after splice', cps); // testArea.setAttributeNS(null, 'points', [pivotPt, arcPt1, cps.join(' '), arcPt2].join(' ')); testArea.setAttributeNS(null, 'points', cps.join(' ')); } } else { // 2 corner case if (touchSameEdge(aimPt, arcPt1) || touchSameEdge(aimPt, arcPt2)) { console.log('2-corner case, edge shared'); let cps = findSharedValue(aimPt, arcPt1, arcPt2); let index = cps.findIndex(cp => shareValue(cp, arcPt2)); // console.log('cps', cps, 'index', index, 'arcPt2', arcPt2, 'arcPt1', arcPt1); cps.splice(index + 1, 0, arcPt2, pivotPt, arcPt1); // testArea.setAttributeNS(null, 'points', [pivotPt, arcPt1, cps.join(' '), arcPt2].join(' ')); testArea.setAttributeNS(null, 'points', cps.join(' ')); } else { console.log('2-corner case, all separate edges'); let cps = cornerPoints.filter(cp => shareValue(cp, aimPt) || shareValue(cp, aimPt)); let index = cps.findIndex(cp => shareValue(cp, arcPt2)); cps.splice(index + 1, 0, arcPt2, pivotPt, arcPt1); // testArea.setAttributeNS(null, 'points', [pivotPt, arcPt1, cps.join(' '), arcPt2].join(' ')); testArea.setAttributeNS(null, 'points', cps.join(' ')); } } // testArea.setAttributeNS(null, 'points', cornerPoints.join(' ')); if (activeFiringArc) { let activeFiringArcOutline = this.querySelector(`#lines polygon[data-number="${activeFiringArc.dataset.number}"][data-allegiance="${activeFiringArc.dataset.allegiance}"]`), board = this.querySelector('#image-maps'), { width, height } = board.getBBox(), pt = new DOMPoint(e.clientX, e.clientY), { x: pointerX, y: pointerY } = pt.matrixTransform(board.getScreenCTM().inverse()), [maxXpx, maxYpx] = [width, height], { x: x1px, y: y1px } = activeFiringArc.points[0]; let [x2px, y2px] = [ pointerX / width * maxXpx, pointerY / height * maxYpx ]; let xDiff = x2px - x1px; let yDiff = y2px - y1px; let angle = calculateAngle(xDiff, yDiff); let arcAngle = arcSize[activeFiringArc.dataset.size]; let distance = Math.sqrt((x2px - x1px) ** 2 + (y2px - y1px) ** 2); let yDelta = distance * Math.cos(angle) * Math.tan(arcAngle); let xDelta = distance * Math.sin(angle) * Math.tan(arcAngle); let [newY1, newX1] = [y2px + yDelta, x2px + xDelta]; let [newY2, newX2] = [y2px - yDelta, x2px - xDelta]; [newX1, newY1] = edgePoint(x1px, y1px, newX1, newY1, maxXpx, maxYpx); [newX2, newY2] = edgePoint(x1px, y1px, newX2, newY2, maxXpx, maxYpx); let oppositeEdgeConditions = [ newX1 == 0 && newX2 == maxXpx, newX2 == 0 && newX1 == maxXpx, newY1 == 0 && newY2 == maxYpx, newY2 == 0 && newY1 == maxYpx ] let orthogonalEdgeConditions = [ (newX1 == 0 || newX1 == maxXpx) && (newY2 == 0 || newY2 == maxYpx), (newX2 == 0 || newX2 == maxXpx) && (newY1 == 0 || newY1 == maxYpx), ] let points; if (oppositeEdgeConditions.some(e => e)) { let cornerPoints; if (xDiff > 0 && yDiff > 0) { if ((newY1 == 0 && newY2 == maxYpx) || (newY1 == maxYpx && newY2 == 0)) { cornerPoints = [[maxXpx, 0], [maxXpx, maxYpx]]; } else { cornerPoints = [[maxXpx, maxYpx], [0, maxYpx]]; } } else if (xDiff > 0 && yDiff < 0) { if ((newY1 == 0 && newY2 == maxYpx) || (newY1 == maxYpx && newY2 == 0)) { cornerPoints = [[maxXpx, 0], [maxXpx, maxYpx]]; } else { cornerPoints = [[0, 0], [maxXpx, 0]]; } } else if (xDiff < 0 && yDiff > 0) { if ((newY1 == 0 && newY2 == maxYpx) || (newY1 == maxYpx && newY2 == 0)) { cornerPoints = [[0, maxYpx], [0, 0]]; } else { cornerPoints = [[maxXpx, maxYpx], [0, maxYpx]]; } } else { if ((newY1 == 0 && newY2 == maxYpx) || (newY1 == maxYpx && newY2 == 0)) { cornerPoints = [[0, maxYpx], [0, 0]]; } else { cornerPoints = [[0, 0], [maxXpx, 0]]; } } points = `${x1px},${y1px} ${newX1},${newY1} ${cornerPoints[1]} ${cornerPoints[0]} ${newX2},${newY2}`; } else if (orthogonalEdgeConditions.some(e => e)) { let cornerPoints = []; let cp1, cp2; if (newX1 == 0 || newX1 == maxXpx) { cp1 = [newX1, yDiff > 0 ? maxYpx : 0]; } else { cp1 = [xDiff > 0 ? maxXpx : 0, newY1]; } if (newX2 == 0 || newX2 == maxXpx) { cp2 = [newX2, yDiff > 0 ? maxYpx : 0]; } else { cp2 = [xDiff > 0 ? maxXpx : 0, newY2]; } if (cp1[0] == cp2[0] && cp1[1] == cp2[1]) { cornerPoints.push(cp1); } else { cornerPoints.push(cp1); cornerPoints.push([xDiff > 0 ? maxXpx : 0, yDiff > 0 ? maxYpx : 0]) cornerPoints.push(cp2); } points = `${x1px},${y1px} ${newX1},${newY1} ${cornerPoints.join(' ')} ${newX2},${newY2}`; } else { points = `${x1px},${y1px} ${newX1},${newY1} ${newX2},${newY2}`; } activeFiringArcOutline.setAttributeNS(null, 'points', points); activeFiringArc.setAttributeNS(null, 'points', points); } } function setDataAttrs({ dataset: { allegiance, number }}, el) { el.dataset.allegiance = allegiance; el.dataset.number = number; } function getClipPathId({ dataset: { allegiance, number }}) { return `clip-path-${allegiance}-${number}`; } function getUnclipped() { return svg.querySelectorAll('#firing-arcs polygon:not([clip-path])'); }; export default function (el) { svg = el; this.set = function (size, counter, { x, y }) { this.get(counter).forEach(fa => fa.remove()); let arcLayer = svg.querySelector('#shapes'); let outlineLayer = svg.querySelector('#lines'); let arcContainer = svg.querySelector('#firing-arcs'); let testArcs = svg.querySelector('#test-arcs'); let testAim = document.createElementNS(svgns, 'line'); testAim.setAttributeNS(null, 'x1', x); testAim.setAttributeNS(null, 'y1', y); testAim.setAttributeNS(null, 'x2', x); testAim.setAttributeNS(null, 'y2', y); testArcs.appendChild(testAim); let testOutline = document.createElementNS(svgns, 'polyline'); testOutline.setAttributeNS(null, 'points', `${x},${y} ${x},${y} ${x},${y}`); testArcs.appendChild(testOutline); let testGrid = svg.querySelector('.grid'); let gridArea = document.createElementNS(svgns, 'polygon'); cornerPoints = (function () { let { x, y, width, height } = testGrid.getBBox(); return [[x, y], [x + width, y], [x + width, y + height], [x, y + height]]; })(); gridArea.setAttributeNS(null, 'points', cornerPoints.join(' ')); testArcs.appendChild(gridArea); // console.log(testArcs); let grid = svg.querySelector('.board'); const transform = getComputedStyle(grid).transform.match(/-?\d+\.?\d*/g); const pt = new DOMPoint(x, y); const mtx = new DOMMatrix(transform); let tPt = pt.matrixTransform(mtx); let pivotPoint = [tPt.x, tPt.y]; let firingArc = document.createElementNS(svgns, 'polygon'); let firingArcOutline = document.createElementNS(svgns, 'polygon'); setDataAttrs(counter, firingArc); firingArc.dataset.size = size; firingArc.classList.add('firing-arc', 'active'); firingArc.setAttributeNS(null, 'points', `${pivotPoint} ${pivotPoint} ${pivotPoint}`); setDataAttrs(counter, firingArcOutline); firingArcOutline.setAttributeNS(null, 'points', `${pivotPoint} ${pivotPoint} ${pivotPoint}`); let clipShape = document.createElementNS(svgns, 'circle'); clipShape.setAttributeNS(null, 'cx', tPt.x); clipShape.setAttributeNS(null, 'cy', tPt.y); clipShape.setAttributeNS(null, 'r', 100); let clipPath = document.createElementNS(svgns, 'clipPath'); setDataAttrs(counter, clipPath); clipPath.setAttributeNS(null, 'id', getClipPathId(counter)); clipPath.appendChild(clipShape); arcContainer.appendChild(clipPath); arcLayer.appendChild(firingArc); outlineLayer.appendChild(firingArcOutline); let firingArcPlacementListener = e => { svg.querySelectorAll('.firing-arc.active').forEach(el => el.classList.remove('active')); grid.removeAttribute('style'); svg.removeEventListener('mousemove', position); firingArc.removeEventListener('click', firingArcPlacementListener); firingArc.removeEventListener('contextmenu', cancelFiringArcPlacement); }; let cancelFiringArcPlacement = e => { e.preventDefault(); firingArc.removeEventListener('click', firingArcPlacementListener); firingArc.removeEventListener('contextmenu', cancelFiringArcPlacement); this.get(counter).forEach(fa => fa.remove()); grid.removeAttribute('style'); svg.removeEventListener('mousemove', position); }; grid.style.pointerEvents = 'none'; svg.addEventListener('mousemove', position); firingArc.addEventListener('click', firingArcPlacementListener); firingArc.addEventListener('contextmenu', cancelFiringArcPlacement); }; this.clear = function (allegiance) { const selector = `#firing-arcs [data-allegiance="${allegiance}"]`; svg.querySelectorAll(selector).forEach(el => el.remove()); }; this.get = function ({ dataset: { allegiance, number }}) { return svg.querySelectorAll(`#firing-arcs polygon[data-number="${number}"][data-allegiance="${allegiance}"]`); }; this.toggleVisibility = function (allegiance) { const vis = firingArcVisibility[allegiance], clipPaths = svg.querySelectorAll(`clipPath[data-allegiance="${allegiance}"]`); clipPaths.forEach(cp => cp.style.display = !vis ? 'none' : ''); firingArcVisibility[allegiance] = !vis; }; this.toggleCounterVisibility = function ({ dataset: { number, allegiance }}, vis) { const cp = svg.querySelector(`#clip-path-${allegiance}-${number}`), display = vis ? 'none' : ''; if (cp) { cp.style.display = firingArcVisibility[allegiance] ? 'none' : display; } }; this.clipAll = function () { console.log('clipall') let unclipped = getUnclipped(); unclipped.forEach(el => { const { number, allegiance } = el.dataset, clipPathId = `clip-path-${allegiance}-${number}`, isVisible = firingArcVisibility[allegiance]; if (isVisible) { svg.querySelector(`#${clipPathId}`).style.display = 'none'; } el.setAttributeNS(null, 'clip-path', `url(#${clipPathId})`); }); }; }