/*! markmap-lib v0.4.2 | MIT License */ (function (exports, d3) { 'use strict'; function count(node) { var sum = 0, children = node.children, i = children && children.length; if (!i) sum = 1; else while (--i >= 0) sum += children[i].value; node.value = sum; } function node_count() { return this.eachAfter(count); } function node_each(callback) { var node = this, current, next = [node], children, i, n; do { current = next.reverse(), next = []; while (node = current.pop()) { callback(node), children = node.children; if (children) for (i = 0, n = children.length; i < n; ++i) { next.push(children[i]); } } } while (next.length); return this; } function node_eachBefore(callback) { var node = this, nodes = [node], children, i; while (node = nodes.pop()) { callback(node), children = node.children; if (children) for (i = children.length - 1; i >= 0; --i) { nodes.push(children[i]); } } return this; } function node_eachAfter(callback) { var node = this, nodes = [node], next = [], children, i, n; while (node = nodes.pop()) { next.push(node), children = node.children; if (children) for (i = 0, n = children.length; i < n; ++i) { nodes.push(children[i]); } } while (node = next.pop()) { callback(node); } return this; } function node_sum(value) { return this.eachAfter(function(node) { var sum = +value(node.data) || 0, children = node.children, i = children && children.length; while (--i >= 0) sum += children[i].value; node.value = sum; }); } function node_sort(compare) { return this.eachBefore(function(node) { if (node.children) { node.children.sort(compare); } }); } function node_path(end) { var start = this, ancestor = leastCommonAncestor(start, end), nodes = [start]; while (start !== ancestor) { start = start.parent; nodes.push(start); } var k = nodes.length; while (end !== ancestor) { nodes.splice(k, 0, end); end = end.parent; } return nodes; } function leastCommonAncestor(a, b) { if (a === b) return a; var aNodes = a.ancestors(), bNodes = b.ancestors(), c = null; a = aNodes.pop(); b = bNodes.pop(); while (a === b) { c = a; a = aNodes.pop(); b = bNodes.pop(); } return c; } function node_ancestors() { var node = this, nodes = [node]; while (node = node.parent) { nodes.push(node); } return nodes; } function node_descendants() { var nodes = []; this.each(function(node) { nodes.push(node); }); return nodes; } function node_leaves() { var leaves = []; this.eachBefore(function(node) { if (!node.children) { leaves.push(node); } }); return leaves; } function node_links() { var root = this, links = []; root.each(function(node) { if (node !== root) { // Don’t include the root’s parent, if any. links.push({source: node.parent, target: node}); } }); return links; } function hierarchy(data, children) { var root = new Node(data), valued = +data.value && (root.value = data.value), node, nodes = [root], child, childs, i, n; if (children == null) children = defaultChildren; while (node = nodes.pop()) { if (valued) node.value = +node.data.value; if ((childs = children(node.data)) && (n = childs.length)) { node.children = new Array(n); for (i = n - 1; i >= 0; --i) { nodes.push(child = node.children[i] = new Node(childs[i])); child.parent = node; child.depth = node.depth + 1; } } } return root.eachBefore(computeHeight); } function node_copy() { return hierarchy(this).eachBefore(copyData); } function defaultChildren(d) { return d.children; } function copyData(node) { node.data = node.data.data; } function computeHeight(node) { var height = 0; do node.height = height; while ((node = node.parent) && (node.height < ++height)); } function Node(data) { this.data = data; this.depth = this.height = 0; this.parent = null; } Node.prototype = hierarchy.prototype = { constructor: Node, count: node_count, each: node_each, eachAfter: node_eachAfter, eachBefore: node_eachBefore, sum: node_sum, sort: node_sort, path: node_path, ancestors: node_ancestors, descendants: node_descendants, leaves: node_leaves, links: node_links, copy: node_copy }; var version = "2.1.1"; const defaults = Object.freeze({ children: data => data.children, nodeSize: node => node.data.size, spacing: 0, }); // Create a layout function with customizable options. Per D3-style, the // options can be set at any time using setter methods. The layout function // will compute the tree node positions based on the options in effect at the // time it is called. function flextree(options) { const opts = Object.assign({}, defaults, options); function accessor(name) { const opt = opts[name]; return typeof opt === 'function' ? opt : () => opt; } function layout(tree) { const wtree = wrap(getWrapper(), tree, node=>node.children); wtree.update(); return wtree.data; } function getFlexNode() { const nodeSize = accessor('nodeSize'); const spacing = accessor('spacing'); return class FlexNode extends hierarchy.prototype.constructor { constructor(data) { super(data); } copy() { const c = wrap(this.constructor, this, node=>node.children); c.each(node => node.data = node.data.data); return c; } get size() { return nodeSize(this); } spacing(oNode) { return spacing(this, oNode); } get nodes() { return this.descendants(); } get xSize() { return this.size[0]; } get ySize() { return this.size[1]; } get top() { return this.y; } get bottom() { return this.y + this.ySize; } get left() { return this.x - this.xSize / 2; } get right() { return this.x + this.xSize / 2; } get root() { const ancs = this.ancestors(); return ancs[ancs.length - 1]; } get numChildren() { return this.hasChildren ? this.children.length : 0; } get hasChildren() { return !this.noChildren; } get noChildren() { return this.children === null; } get firstChild() { return this.hasChildren ? this.children[0] : null; } get lastChild() { return this.hasChildren ? this.children[this.numChildren - 1] : null; } get extents() { return (this.children || []).reduce( (acc, kid) => FlexNode.maxExtents(acc, kid.extents), this.nodeExtents); } get nodeExtents() { return { top: this.top, bottom: this.bottom, left: this.left, right: this.right, }; } static maxExtents(e0, e1) { return { top: Math.min(e0.top, e1.top), bottom: Math.max(e0.bottom, e1.bottom), left: Math.min(e0.left, e1.left), right: Math.max(e0.right, e1.right), }; } }; } function getWrapper() { const FlexNode = getFlexNode(); const nodeSize = accessor('nodeSize'); const spacing = accessor('spacing'); return class extends FlexNode { constructor(data) { super(data); Object.assign(this, { x: 0, y: 0, relX: 0, prelim: 0, shift: 0, change: 0, lExt: this, lExtRelX: 0, lThr: null, rExt: this, rExtRelX: 0, rThr: null, }); } get size() { return nodeSize(this.data); } spacing(oNode) { return spacing(this.data, oNode.data); } get x() { return this.data.x; } set x(v) { this.data.x = v; } get y() { return this.data.y; } set y(v) { this.data.y = v; } update() { layoutChildren(this); resolveX(this); return this; } }; } function wrap(FlexClass, treeData, children) { const _wrap = (data, parent) => { const node = new FlexClass(data); Object.assign(node, { parent, depth: parent === null ? 0 : parent.depth + 1, height: 0, length: 1, }); const kidsData = children(data) || []; node.children = kidsData.length === 0 ? null : kidsData.map(kd => _wrap(kd, node)); if (node.children) { Object.assign(node, node.children.reduce( (hl, kid) => ({ height: Math.max(hl.height, kid.height + 1), length: hl.length + kid.length, }), node )); } return node; }; return _wrap(treeData, null); } Object.assign(layout, { nodeSize(arg) { return arguments.length ? (opts.nodeSize = arg, layout) : opts.nodeSize; }, spacing(arg) { return arguments.length ? (opts.spacing = arg, layout) : opts.spacing; }, children(arg) { return arguments.length ? (opts.children = arg, layout) : opts.children; }, hierarchy(treeData, children) { const kids = typeof children === 'undefined' ? opts.children : children; return wrap(getFlexNode(), treeData, kids); }, dump(tree) { const nodeSize = accessor('nodeSize'); const _dump = i0 => node => { const i1 = i0 + ' '; const i2 = i0 + ' '; const {x, y} = node; const size = nodeSize(node); const kids = (node.children || []); const kdumps = (kids.length === 0) ? ' ' : `,${i1}children: [${i2}${kids.map(_dump(i2)).join(i2)}${i1}],${i0}`; return `{ size: [${size.join(', ')}],${i1}x: ${x}, y: ${y}${kdumps}},`; }; return _dump('\n')(tree); }, }); return layout; } flextree.version = version; const layoutChildren = (w, y = 0) => { w.y = y; (w.children || []).reduce((acc, kid) => { const [i, lastLows] = acc; layoutChildren(kid, w.y + w.ySize); // The lowest vertical coordinate while extreme nodes still point // in current subtree. const lowY = (i === 0 ? kid.lExt : kid.rExt).bottom; if (i !== 0) separate(w, i, lastLows); const lows = updateLows(lowY, i, lastLows); return [i + 1, lows]; }, [0, null]); shiftChange(w); positionRoot(w); return w; }; // Resolves the relative coordinate properties - relX and prelim -- // to set the final, absolute x coordinate for each node. This also sets // `prelim` to 0, so that `relX` for each node is its x-coordinate relative // to its parent. const resolveX = (w, prevSum, parentX) => { // A call to resolveX without arguments is assumed to be for the root of // the tree. This will set the root's x-coord to zero. if (typeof prevSum === 'undefined') { prevSum = -w.relX - w.prelim; parentX = 0; } const sum = prevSum + w.relX; w.relX = sum + w.prelim - parentX; w.prelim = 0; w.x = parentX + w.relX; (w.children || []).forEach(k => resolveX(k, sum, w.x)); return w; }; // Process shift and change for all children, to add intermediate spacing to // each child's modifier. const shiftChange = w => { (w.children || []).reduce((acc, child) => { const [lastShiftSum, lastChangeSum] = acc; const shiftSum = lastShiftSum + child.shift; const changeSum = lastChangeSum + shiftSum + child.change; child.relX += changeSum; return [shiftSum, changeSum]; }, [0, 0]); }; // Separates the latest child from its previous sibling /* eslint-disable complexity */ const separate = (w, i, lows) => { const lSib = w.children[i - 1]; const curSubtree = w.children[i]; let rContour = lSib; let rSumMods = lSib.relX; let lContour = curSubtree; let lSumMods = curSubtree.relX; let isFirst = true; while (rContour && lContour) { if (rContour.bottom > lows.lowY) lows = lows.next; // How far to the left of the right side of rContour is the left side // of lContour? First compute the center-to-center distance, then add // the "spacing" const dist = (rSumMods + rContour.prelim) - (lSumMods + lContour.prelim) + rContour.xSize / 2 + lContour.xSize / 2 + rContour.spacing(lContour); if (dist > 0 || (dist < 0 && isFirst)) { lSumMods += dist; // Move subtree by changing relX. moveSubtree(curSubtree, dist); distributeExtra(w, i, lows.index, dist); } isFirst = false; // Advance highest node(s) and sum(s) of modifiers const rightBottom = rContour.bottom; const leftBottom = lContour.bottom; if (rightBottom <= leftBottom) { rContour = nextRContour(rContour); if (rContour) rSumMods += rContour.relX; } if (rightBottom >= leftBottom) { lContour = nextLContour(lContour); if (lContour) lSumMods += lContour.relX; } } // Set threads and update extreme nodes. In the first case, the // current subtree is taller than the left siblings. if (!rContour && lContour) setLThr(w, i, lContour, lSumMods); // In the next case, the left siblings are taller than the current subtree else if (rContour && !lContour) setRThr(w, i, rContour, rSumMods); }; /* eslint-enable complexity */ // Move subtree by changing relX. const moveSubtree = (subtree, distance) => { subtree.relX += distance; subtree.lExtRelX += distance; subtree.rExtRelX += distance; }; const distributeExtra = (w, curSubtreeI, leftSibI, dist) => { const curSubtree = w.children[curSubtreeI]; const n = curSubtreeI - leftSibI; // Are there intermediate children? if (n > 1) { const delta = dist / n; w.children[leftSibI + 1].shift += delta; curSubtree.shift -= delta; curSubtree.change -= dist - delta; } }; const nextLContour = w => { return w.hasChildren ? w.firstChild : w.lThr; }; const nextRContour = w => { return w.hasChildren ? w.lastChild : w.rThr; }; const setLThr = (w, i, lContour, lSumMods) => { const firstChild = w.firstChild; const lExt = firstChild.lExt; const curSubtree = w.children[i]; lExt.lThr = lContour; // Change relX so that the sum of modifier after following thread is correct. const diff = lSumMods - lContour.relX - firstChild.lExtRelX; lExt.relX += diff; // Change preliminary x coordinate so that the node does not move. lExt.prelim -= diff; // Update extreme node and its sum of modifiers. firstChild.lExt = curSubtree.lExt; firstChild.lExtRelX = curSubtree.lExtRelX; }; // Mirror image of setLThr. const setRThr = (w, i, rContour, rSumMods) => { const curSubtree = w.children[i]; const rExt = curSubtree.rExt; const lSib = w.children[i - 1]; rExt.rThr = rContour; const diff = rSumMods - rContour.relX - curSubtree.rExtRelX; rExt.relX += diff; rExt.prelim -= diff; curSubtree.rExt = lSib.rExt; curSubtree.rExtRelX = lSib.rExtRelX; }; // Position root between children, taking into account their modifiers const positionRoot = w => { if (w.hasChildren) { const k0 = w.firstChild; const kf = w.lastChild; const prelim = (k0.prelim + k0.relX - k0.xSize / 2 + kf.relX + kf.prelim + kf.xSize / 2 ) / 2; Object.assign(w, { prelim, lExt: k0.lExt, lExtRelX: k0.lExtRelX, rExt: kf.rExt, rExtRelX: kf.rExtRelX, }); } }; // Make/maintain a linked list of the indexes of left siblings and their // lowest vertical coordinate. const updateLows = (lowY, index, lastLows) => { // Remove siblings that are hidden by the new subtree. while (lastLows !== null && lowY >= lastLows.lowY) lastLows = lastLows.next; // Prepend the new subtree. return { lowY, index, next: lastLows, }; }; function walkTree(tree, callback, key = 'c') { const walk = (item, parent) => callback(item, () => { var _item$key; (_item$key = item[key]) == null ? void 0 : _item$key.forEach(child => { walk(child, item); }); }, parent); walk(tree); } let canvas; function getTextRect(items, font) { // re-use canvas object for better performance if (!canvas) canvas = document.createElement('canvas'); const context = canvas.getContext('2d'); context.font = font; let maxWidth = 0; let width = 0; let row = 0; const walk = item => { if (item.t === 'text') { item.p = { ...item.p }; if (!width && row) item.p.newline = true; const metrics = context.measureText(item.v); width += metrics.width; if (maxWidth < width) maxWidth = width; } else if (item.t === 'softbreak') { width = 0; row += 1; } else if (item.t === 'link') { item.c.forEach(walk); } }; items.forEach(walk); return [maxWidth, row + 1]; } function linkWidth(nodeData) { const data = nodeData.data; return Math.max(6 - 2 * data.d, 1.5); } function getKey(v) { const result = ['<']; v.forEach(item => { if (item.t === 'text') result.push(item.v.replace(/[<|&]/g, m => `&${m}`));else if (item.c) result.push(getKey(item.c)); }); result.push('>'); return result.join(''); } function addSpacing(tree, spacing) { let depth = 0; walkTree(tree, (item, next) => { item.y += depth * spacing; depth += 1; next(); depth -= 1; }, 'children'); } function getChildNodes() { return this.childNodes; } function markmap(svg, data, opts) { svg = svg.datum ? svg : d3.select(svg); const classList = (svg.attr('class') || '').split(' ').filter(Boolean); if (classList.indexOf('markmap') < 0) { classList.push('markmap'); svg.attr('class', classList.join(' ')); } const style = svg.append('style'); const g = svg.append('g'); const zoom = d3.zoom().on('zoom', handleZoom); const svgNode = svg.node(); const options = { duration: 500, nodeFont: '300 16px sans-serif', lineHeight: 20, spacingVertical: 5, spacingHorizontal: 80, autoFit: false, fitRatio: 0.95, color: d3.scaleOrdinal(d3.schemeCategory10), colorDepth: 0, ...opts }; const state = {}; updateStyle(); if (data) { setData(data); fit(); // always fit for the first render } svg.call(zoom); return { setData, setOptions, fit }; function updateStyle() { style.text(`\ .markmap a { fill: #0097e6; } .markmap a:hover { fill: #00a8ff; } .markmap path { fill: none; } .markmap text { font: ${options.nodeFont} } .markmap tspan.markmap-em { font-style: italic; } .markmap tspan.markmap-strong { font-weight: 500; } .markmap g > g { cursor: pointer; } `); } function handleZoom() { const { transform } = d3.event; g.attr('transform', transform); } function addKeys(node) { let i = 1; const { colorDepth } = options; walkTree(node, (item, next, parent) => { var _item$v; options.color(`${i}`); // preload colors item.p = { i, ...item.p }; if ((_item$v = item.v) == null ? void 0 : _item$v.length) { var _parent$p; item.p.k = ((parent == null ? void 0 : (_parent$p = parent.p) == null ? void 0 : _parent$p.k) || '') + getKey(item.v); } next(); if (!colorDepth || item.d === colorDepth) i += 1; }); } function setOptions(opts) { Object.assign(options, opts); } function setData(data, opts) { addKeys(data); state.data = data; if (opts) setOptions(opts); renderData(data); } function fit() { const { width: offsetWidth, height: offsetHeight } = svgNode.getBoundingClientRect(); const { minX, maxX, minY, maxY } = state; const naturalWidth = maxY - minY; const naturalHeight = maxX - minX; const scale = Math.min(offsetWidth / naturalWidth * options.fitRatio, offsetHeight / naturalHeight * options.fitRatio, 2); const initialZoom = d3.zoomIdentity.translate((offsetWidth - naturalWidth * scale) / 2 - minY * scale, (offsetHeight - naturalHeight * scale) / 2 - minX * scale).scale(scale); svg.transition().duration(options.duration).call(zoom.transform, initialZoom); } function handleClick(d) { var _data$p; const { data } = d; data.p = { ...data.p, f: !((_data$p = data.p) == null ? void 0 : _data$p.f) }; renderData(d.data); } function handleLink(d) { d3.event.preventDefault(); window.open(d.p.href); } function renderTextNode(t, d) { if (d.t === 'link') { const a = t.append('a').attr('href', d.p.href).attr('title', d.p.title).on('click', handleLink); const text = a.selectAll(getChildNodes).data(d => d.c); text.enter().each(function (d) { const t = d3.select(this); renderTextNode(t, d); }); } if (d.t === 'text') { t.append('tspan').text(d.v).attr('class', d => { var _d$p; const style = ((_d$p = d.p) == null ? void 0 : _d$p.style) || {}; return [style.em && 'markmap-em', style.strong && 'markmap-strong'].filter(Boolean).join(' '); }).attr('x', d => { var _d$p2; return ((_d$p2 = d.p) == null ? void 0 : _d$p2.newline) ? 8 : null; }).attr('dy', d => { var _d$p3; return ((_d$p3 = d.p) == null ? void 0 : _d$p3.newline) ? options.lineHeight : null; }); } } function renderText(text) { const textNode = text.selectAll(getChildNodes).data(d => d.data.v); textNode.enter().each(function (d) { const t = d3.select(this); renderTextNode(t, d); }); return text; } function renderData(originData) { var _origin$data$x, _origin$data$y; if (!state.data) return; const layout = flextree().children(d => { var _d$p4; return !((_d$p4 = d.p) == null ? void 0 : _d$p4.f) && d.c; }).nodeSize(d => { const [width, rows] = getTextRect(d.data.v, options.nodeFont); return [rows * options.lineHeight, width + 16]; }).spacing((a, b) => { return a.parent === b.parent ? options.spacingVertical : options.spacingVertical * 2; }); const tree = layout.hierarchy(state.data); layout(tree); addSpacing(tree, options.spacingHorizontal); const descendants = tree.descendants().reverse(); const links = tree.links(); const linkShape = d3.linkHorizontal(); const minX = d3.min(descendants, d => d.x - d.xSize / 2); const maxX = d3.max(descendants, d => d.x + d.xSize / 2); const minY = d3.min(descendants, d => d.y); const maxY = d3.max(descendants, d => d.y + d.ySize); state.minX = minX; state.maxX = maxX; state.minY = minY; state.maxY = maxY; if (options.autoFit) fit(); const origin = originData ? descendants.find(item => item.data === originData) : tree; const x0 = (_origin$data$x = origin.data.x0) != null ? _origin$data$x : origin.x; const y0 = (_origin$data$y = origin.data.y0) != null ? _origin$data$y : origin.y; // Update the nodes const node = g.selectAll('g').data(descendants, d => d.data.p.k); const nodeEnter = node.enter().append('g').attr('transform', d => `translate(${y0 + origin.ySize - d.ySize},${x0 + origin.xSize / 2 - d.xSize})`).on('click', handleClick); const nodeExit = node.exit().transition().duration(options.duration); nodeExit.select('rect').attr('width', 0).attr('x', d => d.ySize); nodeExit.select('text').attr('fill-opacity', 0); nodeExit.attr('transform', d => `translate(${origin.y + origin.ySize - d.ySize},${origin.x + origin.xSize / 2 - d.xSize})`).remove(); const nodeMerge = node.merge(nodeEnter); nodeMerge.transition().duration(options.duration).attr('transform', d => `translate(${d.y},${d.x - d.xSize / 2})`); nodeMerge.selectAll('rect').data(d => [d], d => d.data.p.k).join(enter => { return enter.append('rect').attr('x', d => d.ySize).attr('y', d => d.xSize - linkWidth(d) / 2).attr('width', 0).attr('height', linkWidth); }, update => update, exit => exit.remove()).transition().duration(options.duration).attr('x', -1).attr('width', d => d.ySize + 2).attr('fill', d => options.color(d.data.p.i)); nodeMerge.selectAll('circle').data(d => d.data.c ? [d] : [], d => d.data.p.k).join(enter => { return enter.append('circle').attr('stroke-width', '1.5').attr('cx', d => d.ySize).attr('cy', d => d.xSize).attr('r', 0); }, update => update, exit => exit.remove()).transition().duration(options.duration).attr('r', 6).attr('stroke', d => options.color(d.data.p.i)).attr('fill', d => { var _d$data$p; return ((_d$data$p = d.data.p) == null ? void 0 : _d$data$p.f) ? options.color(d.data.p.i) : '#fff'; }); nodeMerge.selectAll('text').data(d => [d], d => d.data.p.k).join(enter => { return enter.append('text').attr('x', 8).attr('y', options.lineHeight - 4).attr('text-anchor', 'start').attr('fill-opacity', 0).call(renderText); }, update => update, exit => exit.remove()).transition().duration(options.duration).attr('fill-opacity', 1); // Update the links g.selectAll('path').data(links, d => d.target.data.p.k).join(enter => { const source = [y0 + origin.ySize, x0 + origin.xSize / 2]; return enter.insert('path', 'g').attr('d', linkShape({ source, target: source })); }, update => update, exit => { const source = [origin.y + origin.ySize, origin.x + origin.xSize / 2]; return exit.transition().duration(options.duration).attr('d', linkShape({ source, target: source })).remove(); }).transition().duration(options.duration).attr('stroke', d => options.color(d.target.data.p.i)).attr('stroke-width', d => linkWidth(d.target)).attr('d', d => { const source = [d.source.y + d.source.ySize, d.source.x + d.source.xSize / 2]; const target = [d.target.y, d.target.x + d.target.xSize / 2]; return linkShape({ source, target }); }); descendants.forEach(d => { d.data.x0 = d.x; d.data.y0 = d.y; }); } } exports.markmap = markmap; }(this.markmap = this.markmap || {}, d3));