From ce98e325656b8419b80d8c248e0469f3a9708322 Mon Sep 17 00:00:00 2001 From: Catalin Mititiuc Date: Sat, 27 Apr 2024 15:58:11 -0700 Subject: Rename some files --- src/modules/game/firing_arc.js | 348 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 348 insertions(+) create mode 100644 src/modules/game/firing_arc.js (limited to 'src/modules/game/firing_arc.js') diff --git a/src/modules/game/firing_arc.js b/src/modules/game/firing_arc.js new file mode 100644 index 0000000..817bc44 --- /dev/null +++ b/src/modules/game/firing_arc.js @@ -0,0 +1,348 @@ +// source: 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 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 + }, + + clippedFiringArcRadius = 25; + +class Point { + constructor(x = 0, y = 0) { + this.x = +x; + this.y = +y; + } + + toString() { + return `${this.x},${this.y}`; + } +} + +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 calcEdgePt({ x: x1, y: y1 }, { x: x2, y: y2 }, { x: [minX, maxX], y: [minY, maxY] }) { + const xDiff = x2 - x1, + yDiff = y2 - y1, + xIntercept = y => (y - y1) * xDiff / yDiff + x1, + yIntercept = x => (x - x1) * yDiff / xDiff + y1; + + let pointCoords; + + 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 new Point(...pointCoords); +} + +function touchSameEdge({ x: x1, y: y1 }, { x: x2, y: y2 }) { + return x1 === x2 || y1 === y2; +} + +function shareValue({ x: x1, y: y1 }, { x: x2, y: y2 }) { + return x1 === x2 || y1 === y2; +} + +function touchOrthogonalEdges({ x: x1, y: y1 }, { x: x2, y: y2 }, bounds) { + return (bounds.x.includes(x1) && bounds.y.includes(y2)) || (bounds.y.includes(y1) && bounds.x.includes(x2)); +} + +function getCornerPts({ x: [xMin, xMax], y: [yMin, yMax] }) { + const corners = [[xMin, yMin], [xMax, yMin], [xMax, yMax], [xMin, yMax]]; + return corners.map(([x, y]) => new Point(x, y)); +} + +function getBounds({ x, y, width, height }) { + return { + x: [x, x + width], + y: [y, y + height] + }; +} + +// 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? +function findWhichTwoCorners(pt, bounds, ...pts) { + const ptVals = Object.values(pt), + sharedValPt = pts.find(({ x, y }) => ptVals.includes(x) || ptVals.includes(y)); + + if (!sharedValPt) { + return; + } + + const nonSharedValKey = pt.x === sharedValPt.x ? 'y' : 'x'; + let cornerVal; + + if (pt[nonSharedValKey] < sharedValPt[nonSharedValKey]) { + cornerVal = Math.min(...bounds[nonSharedValKey]); + } else { + cornerVal = Math.max(...bounds[nonSharedValKey]); + } + + return getCornerPts(bounds).filter(cp => cp[nonSharedValKey] === cornerVal); +} + +function selectCornerPoints(aimPt, arcPt1, arcPt2, bounds) { + const cornerPts = getCornerPts(bounds); + + let points; + + if (touchSameEdge(arcPt1, arcPt2)) { + // 0-corner case + points = []; + } else if (touchOrthogonalEdges(arcPt1, arcPt2, bounds)) { + if (touchSameEdge(aimPt, arcPt1) || touchSameEdge(aimPt, arcPt2)) { + // 1-corner case + let cp = cornerPts.find(cp => shareValue(cp, arcPt1) && shareValue(cp, arcPt2)); + points = [cp]; + } else { + // 3-corner case + points = cornerPts.filter(cp => !shareValue(cp, arcPt1) || !shareValue(cp, arcPt2)); + } + } else { + if (touchSameEdge(aimPt, arcPt1) || touchSameEdge(aimPt, arcPt2)) { + // 2-corner case, aim and an arc point touch the same edge + points = findWhichTwoCorners(aimPt, bounds, arcPt1, arcPt2); + } else { + // 2-corner case, aim and both arc points all touch different edges + points = cornerPts.filter(cp => shareValue(cp, aimPt) || shareValue(cp, aimPt)); + } + } + + return points; +} + +function orderPoints(arcPoints, cornerPts) { + if (cornerPts.length === 0) { + return arcPoints; + } + + const index = cornerPts.findIndex(cp => shareValue(cp, arcPoints.at(0))); + return cornerPts.slice(0, index + 1).concat(arcPoints).concat(cornerPts.slice(index + 1)); +} + +function calcArcLinePtDeltas(aimPt, pivotPt, size) { + const angle = calculateAngle(aimPt.x - pivotPt.x, aimPt.y - pivotPt.y), + arcAngle = arcSize[size], + distance = Math.sqrt((aimPt.x - pivotPt.x) ** 2 + (aimPt.y - pivotPt.y) ** 2), + yDelta = distance * Math.cos(angle) * Math.tan(arcAngle), + xDelta = distance * Math.sin(angle) * Math.tan(arcAngle); + + return { xDelta, yDelta }; +} + +function calcPoints(e, aimLine, grid, size) { + const pointer = new DOMPoint(e.clientX, e.clientY), + pointerPt = pointer.matrixTransform(grid.getScreenCTM().inverse()), + pivotPt = new Point(aimLine.getAttribute('x1'), aimLine.getAttribute('y1')), + + bounds = getBounds(grid.getBBox()), + aimPt = calcEdgePt(pivotPt, pointerPt, bounds), + + { xDelta, yDelta } = calcArcLinePtDeltas(aimPt, pivotPt, size), + arcPt1 = calcEdgePt(pivotPt, new Point(aimPt.x - xDelta, aimPt.y - yDelta), bounds), + arcPt2 = calcEdgePt(pivotPt, new Point(aimPt.x + xDelta, aimPt.y + yDelta), bounds), + + outlinePoints = [arcPt2, pivotPt, arcPt1], + cornerPoints = selectCornerPoints(aimPt, arcPt1, arcPt2, bounds), + arcPoints = orderPoints(outlinePoints, cornerPoints); + + return { aimPt, outlinePoints, arcPoints }; +} + +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(svg) { + return svg.querySelectorAll('#firing-arcs #shapes polygon:not([clip-path]), #firing-arcs #lines polyline:not([clip-path])'); +}; + +function createAimLine(x, y, container) { + const aimLine = document.createElementNS(svgns, 'line'); + aimLine.setAttributeNS(null, 'x1', x); + aimLine.setAttributeNS(null, 'y1', y); + aimLine.setAttributeNS(null, 'x2', x); + aimLine.setAttributeNS(null, 'y2', y); + container.appendChild(aimLine); + + return aimLine; +} + +function createClipPath(x, y, id, container) { + const clipShape = document.createElementNS(svgns, 'circle'), + clipPath = document.createElementNS(svgns, 'clipPath'); + + clipShape.setAttributeNS(null, 'cx', x); + clipShape.setAttributeNS(null, 'cy', y); + clipShape.setAttributeNS(null, 'r', clippedFiringArcRadius); + + clipPath.setAttributeNS(null, 'id', id); + clipPath.appendChild(clipShape); + container.appendChild(clipPath); + + return clipPath; +} + +function createFiringArc(x, y, size, container) { + const firingArc = document.createElementNS(svgns, 'polygon'); + firingArc.setAttributeNS(null, 'points', `${x},${y}`); + firingArc.dataset.size = size; + firingArc.classList.add('firing-arc', 'active'); + container.appendChild(firingArc); + + return firingArc; +} + +function createFiringArcOutline(x, y, container) { + const firingArcOutline = document.createElementNS(svgns, 'polyline'); + firingArcOutline.setAttributeNS(null, 'points', `${x},${y}`); + container.appendChild(firingArcOutline); + + return firingArcOutline; +} + +function queryContainers(svg) { + const grid = svg.querySelector('.grid'), + arcContainer = svg.querySelector('#firing-arcs'), + arcLayer = arcContainer.querySelector('#shapes'), + outlineLayer = arcContainer.querySelector('#lines'); + + return { grid, containers: { arcContainer, arcLayer, outlineLayer }}; +} + +function create(x, y, size, counter, { arcContainer, arcLayer, outlineLayer }) { + const aimLine = createAimLine(x, y, outlineLayer), + firingArc = createFiringArc(x, y, size, arcLayer), + firingArcOutline = createFiringArcOutline(x, y, outlineLayer), + clipPath = createClipPath(x, y, getClipPathId(counter), arcContainer); + + setDataAttrs(counter, firingArc); + setDataAttrs(counter, firingArcOutline); + setDataAttrs(counter, clipPath); + + return { aimLine, firingArc, firingArcOutline }; +} + +function set(svg, size, counter, { x, y }) { + get(svg, counter).forEach(el => el.remove()); + + const { grid, containers } = queryContainers(svg), + { aimLine, firingArc, firingArcOutline } = create(x, y, size, counter, containers); + + function positionListener(e) { + const { aimPt, outlinePoints, arcPoints } = calcPoints(e, aimLine, grid, size); + + aimLine.setAttributeNS(null, 'x2', aimPt.x); + aimLine.setAttributeNS(null, 'y2', aimPt.y); + firingArcOutline.setAttributeNS(null, 'points', outlinePoints.join(' ')); + firingArc.setAttributeNS(null, 'points', arcPoints.join(' ')); + } + + function placementListener() { + aimLine.remove(); + firingArc.classList.remove('active'); + grid.removeAttribute('style'); + svg.removeEventListener('mousemove', positionListener); + } + + function cancelPlacementListener(e) { + e.preventDefault(); + + get(counter).forEach(el => el.remove()); + grid.removeAttribute('style'); + svg.removeEventListener('mousemove', positionListener); + } + + grid.style.pointerEvents = 'none'; + firingArc.addEventListener('click', placementListener, { once: true }); + firingArc.addEventListener('contextmenu', cancelPlacementListener, { once: true }); + svg.addEventListener('mousemove', positionListener); +} + +function clear(svg, allegiance) { + const selector = `#firing-arcs [data-allegiance="${allegiance}"]`; + svg.querySelectorAll(selector).forEach(el => el.remove()); +} + +function get(svg, { dataset: { allegiance, number }}) { + return svg.querySelectorAll(`#firing-arcs [data-number="${number}"][data-allegiance="${allegiance}"], #firing-arcs line`); +} + +function toggleVisibility(svg, allegiance) { + const vis = firingArcVisibility[allegiance], + clipPaths = svg.querySelectorAll(`clipPath[data-allegiance="${allegiance}"]`); + + clipPaths.forEach(cp => cp.style.display = !vis ? 'none' : ''); + firingArcVisibility[allegiance] = !vis; +} + +function toggleCounterVisibility(svg, { dataset: { number, allegiance }}, vis) { + const cp = svg.querySelector(`#clip-path-${allegiance}-${number}`), + display = vis ? 'none' : ''; + + if (cp) { + cp.style.display = firingArcVisibility[allegiance] ? 'none' : display; + } +} + +function clipAll(svg) { + getUnclipped(svg).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})`); + }); +} + +export { set, clear, get, toggleVisibility, toggleCounterVisibility, clipAll }; -- cgit v1.2.3