"use strict"; exports.id = 245; exports.ids = [245]; exports.modules = { /***/ 81245: /***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => { // EXPORTS __webpack_require__.d(__webpack_exports__, { diagram: () => (/* binding */ diagram) }); // EXTERNAL MODULE: ./node_modules/mermaid/dist/mermaid-2490e8f2.js + 8 modules var mermaid_2490e8f2 = __webpack_require__(38328); // EXTERNAL MODULE: ./node_modules/d3/src/index.js + 197 modules var src = __webpack_require__(26312); ;// ./node_modules/d3-sankey/node_modules/d3-array/src/min.js function min(values, valueof) { let min; if (valueof === undefined) { for (const value of values) { if (value != null && (min > value || (min === undefined && value >= value))) { min = value; } } } else { let index = -1; for (let value of values) { if ((value = valueof(value, ++index, values)) != null && (min > value || (min === undefined && value >= value))) { min = value; } } } return min; } ;// ./node_modules/d3-sankey/src/align.js function targetDepth(d) { return d.target.depth; } function left(node) { return node.depth; } function right(node, n) { return n - 1 - node.height; } function justify(node, n) { return node.sourceLinks.length ? node.depth : n - 1; } function center(node) { return node.targetLinks.length ? node.depth : node.sourceLinks.length ? min(node.sourceLinks, targetDepth) - 1 : 0; } ;// ./node_modules/d3-sankey/node_modules/d3-array/src/sum.js function sum(values, valueof) { let sum = 0; if (valueof === undefined) { for (let value of values) { if (value = +value) { sum += value; } } } else { let index = -1; for (let value of values) { if (value = +valueof(value, ++index, values)) { sum += value; } } } return sum; } ;// ./node_modules/d3-sankey/node_modules/d3-array/src/max.js function max(values, valueof) { let max; if (valueof === undefined) { for (const value of values) { if (value != null && (max < value || (max === undefined && value >= value))) { max = value; } } } else { let index = -1; for (let value of values) { if ((value = valueof(value, ++index, values)) != null && (max < value || (max === undefined && value >= value))) { max = value; } } } return max; } ;// ./node_modules/d3-sankey/src/constant.js function constant(x) { return function() { return x; }; } ;// ./node_modules/d3-sankey/src/sankey.js function ascendingSourceBreadth(a, b) { return ascendingBreadth(a.source, b.source) || a.index - b.index; } function ascendingTargetBreadth(a, b) { return ascendingBreadth(a.target, b.target) || a.index - b.index; } function ascendingBreadth(a, b) { return a.y0 - b.y0; } function value(d) { return d.value; } function defaultId(d) { return d.index; } function defaultNodes(graph) { return graph.nodes; } function defaultLinks(graph) { return graph.links; } function find(nodeById, id) { const node = nodeById.get(id); if (!node) throw new Error("missing: " + id); return node; } function computeLinkBreadths({nodes}) { for (const node of nodes) { let y0 = node.y0; let y1 = y0; for (const link of node.sourceLinks) { link.y0 = y0 + link.width / 2; y0 += link.width; } for (const link of node.targetLinks) { link.y1 = y1 + link.width / 2; y1 += link.width; } } } function Sankey() { let x0 = 0, y0 = 0, x1 = 1, y1 = 1; // extent let dx = 24; // nodeWidth let dy = 8, py; // nodePadding let id = defaultId; let align = justify; let sort; let linkSort; let nodes = defaultNodes; let links = defaultLinks; let iterations = 6; function sankey() { const graph = {nodes: nodes.apply(null, arguments), links: links.apply(null, arguments)}; computeNodeLinks(graph); computeNodeValues(graph); computeNodeDepths(graph); computeNodeHeights(graph); computeNodeBreadths(graph); computeLinkBreadths(graph); return graph; } sankey.update = function(graph) { computeLinkBreadths(graph); return graph; }; sankey.nodeId = function(_) { return arguments.length ? (id = typeof _ === "function" ? _ : constant(_), sankey) : id; }; sankey.nodeAlign = function(_) { return arguments.length ? (align = typeof _ === "function" ? _ : constant(_), sankey) : align; }; sankey.nodeSort = function(_) { return arguments.length ? (sort = _, sankey) : sort; }; sankey.nodeWidth = function(_) { return arguments.length ? (dx = +_, sankey) : dx; }; sankey.nodePadding = function(_) { return arguments.length ? (dy = py = +_, sankey) : dy; }; sankey.nodes = function(_) { return arguments.length ? (nodes = typeof _ === "function" ? _ : constant(_), sankey) : nodes; }; sankey.links = function(_) { return arguments.length ? (links = typeof _ === "function" ? _ : constant(_), sankey) : links; }; sankey.linkSort = function(_) { return arguments.length ? (linkSort = _, sankey) : linkSort; }; sankey.size = function(_) { return arguments.length ? (x0 = y0 = 0, x1 = +_[0], y1 = +_[1], sankey) : [x1 - x0, y1 - y0]; }; sankey.extent = function(_) { return arguments.length ? (x0 = +_[0][0], x1 = +_[1][0], y0 = +_[0][1], y1 = +_[1][1], sankey) : [[x0, y0], [x1, y1]]; }; sankey.iterations = function(_) { return arguments.length ? (iterations = +_, sankey) : iterations; }; function computeNodeLinks({nodes, links}) { for (const [i, node] of nodes.entries()) { node.index = i; node.sourceLinks = []; node.targetLinks = []; } const nodeById = new Map(nodes.map((d, i) => [id(d, i, nodes), d])); for (const [i, link] of links.entries()) { link.index = i; let {source, target} = link; if (typeof source !== "object") source = link.source = find(nodeById, source); if (typeof target !== "object") target = link.target = find(nodeById, target); source.sourceLinks.push(link); target.targetLinks.push(link); } if (linkSort != null) { for (const {sourceLinks, targetLinks} of nodes) { sourceLinks.sort(linkSort); targetLinks.sort(linkSort); } } } function computeNodeValues({nodes}) { for (const node of nodes) { node.value = node.fixedValue === undefined ? Math.max(sum(node.sourceLinks, value), sum(node.targetLinks, value)) : node.fixedValue; } } function computeNodeDepths({nodes}) { const n = nodes.length; let current = new Set(nodes); let next = new Set; let x = 0; while (current.size) { for (const node of current) { node.depth = x; for (const {target} of node.sourceLinks) { next.add(target); } } if (++x > n) throw new Error("circular link"); current = next; next = new Set; } } function computeNodeHeights({nodes}) { const n = nodes.length; let current = new Set(nodes); let next = new Set; let x = 0; while (current.size) { for (const node of current) { node.height = x; for (const {source} of node.targetLinks) { next.add(source); } } if (++x > n) throw new Error("circular link"); current = next; next = new Set; } } function computeNodeLayers({nodes}) { const x = max(nodes, d => d.depth) + 1; const kx = (x1 - x0 - dx) / (x - 1); const columns = new Array(x); for (const node of nodes) { const i = Math.max(0, Math.min(x - 1, Math.floor(align.call(null, node, x)))); node.layer = i; node.x0 = x0 + i * kx; node.x1 = node.x0 + dx; if (columns[i]) columns[i].push(node); else columns[i] = [node]; } if (sort) for (const column of columns) { column.sort(sort); } return columns; } function initializeNodeBreadths(columns) { const ky = min(columns, c => (y1 - y0 - (c.length - 1) * py) / sum(c, value)); for (const nodes of columns) { let y = y0; for (const node of nodes) { node.y0 = y; node.y1 = y + node.value * ky; y = node.y1 + py; for (const link of node.sourceLinks) { link.width = link.value * ky; } } y = (y1 - y + py) / (nodes.length + 1); for (let i = 0; i < nodes.length; ++i) { const node = nodes[i]; node.y0 += y * (i + 1); node.y1 += y * (i + 1); } reorderLinks(nodes); } } function computeNodeBreadths(graph) { const columns = computeNodeLayers(graph); py = Math.min(dy, (y1 - y0) / (max(columns, c => c.length) - 1)); initializeNodeBreadths(columns); for (let i = 0; i < iterations; ++i) { const alpha = Math.pow(0.99, i); const beta = Math.max(1 - alpha, (i + 1) / iterations); relaxRightToLeft(columns, alpha, beta); relaxLeftToRight(columns, alpha, beta); } } // Reposition each node based on its incoming (target) links. function relaxLeftToRight(columns, alpha, beta) { for (let i = 1, n = columns.length; i < n; ++i) { const column = columns[i]; for (const target of column) { let y = 0; let w = 0; for (const {source, value} of target.targetLinks) { let v = value * (target.layer - source.layer); y += targetTop(source, target) * v; w += v; } if (!(w > 0)) continue; let dy = (y / w - target.y0) * alpha; target.y0 += dy; target.y1 += dy; reorderNodeLinks(target); } if (sort === undefined) column.sort(ascendingBreadth); resolveCollisions(column, beta); } } // Reposition each node based on its outgoing (source) links. function relaxRightToLeft(columns, alpha, beta) { for (let n = columns.length, i = n - 2; i >= 0; --i) { const column = columns[i]; for (const source of column) { let y = 0; let w = 0; for (const {target, value} of source.sourceLinks) { let v = value * (target.layer - source.layer); y += sourceTop(source, target) * v; w += v; } if (!(w > 0)) continue; let dy = (y / w - source.y0) * alpha; source.y0 += dy; source.y1 += dy; reorderNodeLinks(source); } if (sort === undefined) column.sort(ascendingBreadth); resolveCollisions(column, beta); } } function resolveCollisions(nodes, alpha) { const i = nodes.length >> 1; const subject = nodes[i]; resolveCollisionsBottomToTop(nodes, subject.y0 - py, i - 1, alpha); resolveCollisionsTopToBottom(nodes, subject.y1 + py, i + 1, alpha); resolveCollisionsBottomToTop(nodes, y1, nodes.length - 1, alpha); resolveCollisionsTopToBottom(nodes, y0, 0, alpha); } // Push any overlapping nodes down. function resolveCollisionsTopToBottom(nodes, y, i, alpha) { for (; i < nodes.length; ++i) { const node = nodes[i]; const dy = (y - node.y0) * alpha; if (dy > 1e-6) node.y0 += dy, node.y1 += dy; y = node.y1 + py; } } // Push any overlapping nodes up. function resolveCollisionsBottomToTop(nodes, y, i, alpha) { for (; i >= 0; --i) { const node = nodes[i]; const dy = (node.y1 - y) * alpha; if (dy > 1e-6) node.y0 -= dy, node.y1 -= dy; y = node.y0 - py; } } function reorderNodeLinks({sourceLinks, targetLinks}) { if (linkSort === undefined) { for (const {source: {sourceLinks}} of targetLinks) { sourceLinks.sort(ascendingTargetBreadth); } for (const {target: {targetLinks}} of sourceLinks) { targetLinks.sort(ascendingSourceBreadth); } } } function reorderLinks(nodes) { if (linkSort === undefined) { for (const {sourceLinks, targetLinks} of nodes) { sourceLinks.sort(ascendingTargetBreadth); targetLinks.sort(ascendingSourceBreadth); } } } // Returns the target.y0 that would produce an ideal link from source to target. function targetTop(source, target) { let y = source.y0 - (source.sourceLinks.length - 1) * py / 2; for (const {target: node, width} of source.sourceLinks) { if (node === target) break; y += width + py; } for (const {source: node, width} of target.targetLinks) { if (node === source) break; y -= width; } return y; } // Returns the source.y0 that would produce an ideal link from source to target. function sourceTop(source, target) { let y = target.y0 - (target.targetLinks.length - 1) * py / 2; for (const {source: node, width} of target.targetLinks) { if (node === source) break; y += width + py; } for (const {target: node, width} of source.sourceLinks) { if (node === target) break; y -= width; } return y; } return sankey; } ;// ./node_modules/d3-sankey/node_modules/d3-path/src/path.js var pi = Math.PI, tau = 2 * pi, epsilon = 1e-6, tauEpsilon = tau - epsilon; function Path() { this._x0 = this._y0 = // start of current subpath this._x1 = this._y1 = null; // end of current subpath this._ = ""; } function path() { return new Path; } Path.prototype = path.prototype = { constructor: Path, moveTo: function(x, y) { this._ += "M" + (this._x0 = this._x1 = +x) + "," + (this._y0 = this._y1 = +y); }, closePath: function() { if (this._x1 !== null) { this._x1 = this._x0, this._y1 = this._y0; this._ += "Z"; } }, lineTo: function(x, y) { this._ += "L" + (this._x1 = +x) + "," + (this._y1 = +y); }, quadraticCurveTo: function(x1, y1, x, y) { this._ += "Q" + (+x1) + "," + (+y1) + "," + (this._x1 = +x) + "," + (this._y1 = +y); }, bezierCurveTo: function(x1, y1, x2, y2, x, y) { this._ += "C" + (+x1) + "," + (+y1) + "," + (+x2) + "," + (+y2) + "," + (this._x1 = +x) + "," + (this._y1 = +y); }, arcTo: function(x1, y1, x2, y2, r) { x1 = +x1, y1 = +y1, x2 = +x2, y2 = +y2, r = +r; var x0 = this._x1, y0 = this._y1, x21 = x2 - x1, y21 = y2 - y1, x01 = x0 - x1, y01 = y0 - y1, l01_2 = x01 * x01 + y01 * y01; // Is the radius negative? Error. if (r < 0) throw new Error("negative radius: " + r); // Is this path empty? Move to (x1,y1). if (this._x1 === null) { this._ += "M" + (this._x1 = x1) + "," + (this._y1 = y1); } // Or, is (x1,y1) coincident with (x0,y0)? Do nothing. else if (!(l01_2 > epsilon)); // Or, are (x0,y0), (x1,y1) and (x2,y2) collinear? // Equivalently, is (x1,y1) coincident with (x2,y2)? // Or, is the radius zero? Line to (x1,y1). else if (!(Math.abs(y01 * x21 - y21 * x01) > epsilon) || !r) { this._ += "L" + (this._x1 = x1) + "," + (this._y1 = y1); } // Otherwise, draw an arc! else { var x20 = x2 - x0, y20 = y2 - y0, l21_2 = x21 * x21 + y21 * y21, l20_2 = x20 * x20 + y20 * y20, l21 = Math.sqrt(l21_2), l01 = Math.sqrt(l01_2), l = r * Math.tan((pi - Math.acos((l21_2 + l01_2 - l20_2) / (2 * l21 * l01))) / 2), t01 = l / l01, t21 = l / l21; // If the start tangent is not coincident with (x0,y0), line to. if (Math.abs(t01 - 1) > epsilon) { this._ += "L" + (x1 + t01 * x01) + "," + (y1 + t01 * y01); } this._ += "A" + r + "," + r + ",0,0," + (+(y01 * x20 > x01 * y20)) + "," + (this._x1 = x1 + t21 * x21) + "," + (this._y1 = y1 + t21 * y21); } }, arc: function(x, y, r, a0, a1, ccw) { x = +x, y = +y, r = +r, ccw = !!ccw; var dx = r * Math.cos(a0), dy = r * Math.sin(a0), x0 = x + dx, y0 = y + dy, cw = 1 ^ ccw, da = ccw ? a0 - a1 : a1 - a0; // Is the radius negative? Error. if (r < 0) throw new Error("negative radius: " + r); // Is this path empty? Move to (x0,y0). if (this._x1 === null) { this._ += "M" + x0 + "," + y0; } // Or, is (x0,y0) not coincident with the previous point? Line to (x0,y0). else if (Math.abs(this._x1 - x0) > epsilon || Math.abs(this._y1 - y0) > epsilon) { this._ += "L" + x0 + "," + y0; } // Is this arc empty? We’re done. if (!r) return; // Does the angle go the wrong way? Flip the direction. if (da < 0) da = da % tau + tau; // Is this a complete circle? Draw two arcs to complete the circle. if (da > tauEpsilon) { this._ += "A" + r + "," + r + ",0,1," + cw + "," + (x - dx) + "," + (y - dy) + "A" + r + "," + r + ",0,1," + cw + "," + (this._x1 = x0) + "," + (this._y1 = y0); } // Is this arc non-empty? Draw an arc! else if (da > epsilon) { this._ += "A" + r + "," + r + ",0," + (+(da >= pi)) + "," + cw + "," + (this._x1 = x + r * Math.cos(a1)) + "," + (this._y1 = y + r * Math.sin(a1)); } }, rect: function(x, y, w, h) { this._ += "M" + (this._x0 = this._x1 = +x) + "," + (this._y0 = this._y1 = +y) + "h" + (+w) + "v" + (+h) + "h" + (-w) + "Z"; }, toString: function() { return this._; } }; /* harmony default export */ const src_path = (path); ;// ./node_modules/d3-sankey/node_modules/d3-shape/src/array.js var slice = Array.prototype.slice; ;// ./node_modules/d3-sankey/node_modules/d3-shape/src/constant.js /* harmony default export */ function src_constant(x) { return function constant() { return x; }; } ;// ./node_modules/d3-sankey/node_modules/d3-shape/src/point.js function point_x(p) { return p[0]; } function point_y(p) { return p[1]; } ;// ./node_modules/d3-sankey/node_modules/d3-shape/src/link/index.js function linkSource(d) { return d.source; } function linkTarget(d) { return d.target; } function link_link(curve) { var source = linkSource, target = linkTarget, x = point_x, y = point_y, context = null; function link() { var buffer, argv = slice.call(arguments), s = source.apply(this, argv), t = target.apply(this, argv); if (!context) context = buffer = src_path(); curve(context, +x.apply(this, (argv[0] = s, argv)), +y.apply(this, argv), +x.apply(this, (argv[0] = t, argv)), +y.apply(this, argv)); if (buffer) return context = null, buffer + "" || null; } link.source = function(_) { return arguments.length ? (source = _, link) : source; }; link.target = function(_) { return arguments.length ? (target = _, link) : target; }; link.x = function(_) { return arguments.length ? (x = typeof _ === "function" ? _ : src_constant(+_), link) : x; }; link.y = function(_) { return arguments.length ? (y = typeof _ === "function" ? _ : src_constant(+_), link) : y; }; link.context = function(_) { return arguments.length ? ((context = _ == null ? null : _), link) : context; }; return link; } function curveHorizontal(context, x0, y0, x1, y1) { context.moveTo(x0, y0); context.bezierCurveTo(x0 = (x0 + x1) / 2, y0, x0, y1, x1, y1); } function curveVertical(context, x0, y0, x1, y1) { context.moveTo(x0, y0); context.bezierCurveTo(x0, y0 = (y0 + y1) / 2, x1, y0, x1, y1); } function curveRadial(context, x0, y0, x1, y1) { var p0 = pointRadial(x0, y0), p1 = pointRadial(x0, y0 = (y0 + y1) / 2), p2 = pointRadial(x1, y0), p3 = pointRadial(x1, y1); context.moveTo(p0[0], p0[1]); context.bezierCurveTo(p1[0], p1[1], p2[0], p2[1], p3[0], p3[1]); } function linkHorizontal() { return link_link(curveHorizontal); } function linkVertical() { return link_link(curveVertical); } function linkRadial() { var l = link_link(curveRadial); l.angle = l.x, delete l.x; l.radius = l.y, delete l.y; return l; } ;// ./node_modules/d3-sankey/src/sankeyLinkHorizontal.js function horizontalSource(d) { return [d.source.x1, d.y0]; } function horizontalTarget(d) { return [d.target.x0, d.y1]; } /* harmony default export */ function sankeyLinkHorizontal() { return linkHorizontal() .source(horizontalSource) .target(horizontalTarget); } // EXTERNAL MODULE: ./node_modules/dayjs/dayjs.min.js var dayjs_min = __webpack_require__(74353); // EXTERNAL MODULE: ./node_modules/@braintree/sanitize-url/dist/index.js var dist = __webpack_require__(16750); // EXTERNAL MODULE: ./node_modules/dompurify/dist/purify.es.mjs var purify_es = __webpack_require__(99418); ;// ./node_modules/mermaid/dist/sankeyDiagram-c599f8ec.js var parser = function() { var o = function(k, v, o2, l) { for (o2 = o2 || {}, l = k.length; l--; o2[k[l]] = v) ; return o2; }, $V0 = [1, 9], $V1 = [1, 10], $V2 = [1, 5, 10, 12]; var parser2 = { trace: function trace() { }, yy: {}, symbols_: { "error": 2, "start": 3, "SANKEY": 4, "NEWLINE": 5, "csv": 6, "opt_eof": 7, "record": 8, "csv_tail": 9, "EOF": 10, "field[source]": 11, "COMMA": 12, "field[target]": 13, "field[value]": 14, "field": 15, "escaped": 16, "non_escaped": 17, "DQUOTE": 18, "ESCAPED_TEXT": 19, "NON_ESCAPED_TEXT": 20, "$accept": 0, "$end": 1 }, terminals_: { 2: "error", 4: "SANKEY", 5: "NEWLINE", 10: "EOF", 11: "field[source]", 12: "COMMA", 13: "field[target]", 14: "field[value]", 18: "DQUOTE", 19: "ESCAPED_TEXT", 20: "NON_ESCAPED_TEXT" }, productions_: [0, [3, 4], [6, 2], [9, 2], [9, 0], [7, 1], [7, 0], [8, 5], [15, 1], [15, 1], [16, 3], [17, 1]], performAction: function anonymous(yytext, yyleng, yylineno, yy, yystate, $$, _$) { var $0 = $$.length - 1; switch (yystate) { case 7: const source = yy.findOrCreateNode($$[$0 - 4].trim().replaceAll('""', '"')); const target = yy.findOrCreateNode($$[$0 - 2].trim().replaceAll('""', '"')); const value = parseFloat($$[$0].trim()); yy.addLink(source, target, value); break; case 8: case 9: case 11: this.$ = $$[$0]; break; case 10: this.$ = $$[$0 - 1]; break; } }, table: [{ 3: 1, 4: [1, 2] }, { 1: [3] }, { 5: [1, 3] }, { 6: 4, 8: 5, 15: 6, 16: 7, 17: 8, 18: $V0, 20: $V1 }, { 1: [2, 6], 7: 11, 10: [1, 12] }, o($V1, [2, 4], { 9: 13, 5: [1, 14] }), { 12: [1, 15] }, o($V2, [2, 8]), o($V2, [2, 9]), { 19: [1, 16] }, o($V2, [2, 11]), { 1: [2, 1] }, { 1: [2, 5] }, o($V1, [2, 2]), { 6: 17, 8: 5, 15: 6, 16: 7, 17: 8, 18: $V0, 20: $V1 }, { 15: 18, 16: 7, 17: 8, 18: $V0, 20: $V1 }, { 18: [1, 19] }, o($V1, [2, 3]), { 12: [1, 20] }, o($V2, [2, 10]), { 15: 21, 16: 7, 17: 8, 18: $V0, 20: $V1 }, o([1, 5, 10], [2, 7])], defaultActions: { 11: [2, 1], 12: [2, 5] }, parseError: function parseError(str, hash) { if (hash.recoverable) { this.trace(str); } else { var error = new Error(str); error.hash = hash; throw error; } }, parse: function parse(input) { var self = this, stack = [0], tstack = [], vstack = [null], lstack = [], table = this.table, yytext = "", yylineno = 0, yyleng = 0, TERROR = 2, EOF = 1; var args = lstack.slice.call(arguments, 1); var lexer2 = Object.create(this.lexer); var sharedState = { yy: {} }; for (var k in this.yy) { if (Object.prototype.hasOwnProperty.call(this.yy, k)) { sharedState.yy[k] = this.yy[k]; } } lexer2.setInput(input, sharedState.yy); sharedState.yy.lexer = lexer2; sharedState.yy.parser = this; if (typeof lexer2.yylloc == "undefined") { lexer2.yylloc = {}; } var yyloc = lexer2.yylloc; lstack.push(yyloc); var ranges = lexer2.options && lexer2.options.ranges; if (typeof sharedState.yy.parseError === "function") { this.parseError = sharedState.yy.parseError; } else { this.parseError = Object.getPrototypeOf(this).parseError; } function lex() { var token; token = tstack.pop() || lexer2.lex() || EOF; if (typeof token !== "number") { if (token instanceof Array) { tstack = token; token = tstack.pop(); } token = self.symbols_[token] || token; } return token; } var symbol, state, action, r, yyval = {}, p, len, newState, expected; while (true) { state = stack[stack.length - 1]; if (this.defaultActions[state]) { action = this.defaultActions[state]; } else { if (symbol === null || typeof symbol == "undefined") { symbol = lex(); } action = table[state] && table[state][symbol]; } if (typeof action === "undefined" || !action.length || !action[0]) { var errStr = ""; expected = []; for (p in table[state]) { if (this.terminals_[p] && p > TERROR) { expected.push("'" + this.terminals_[p] + "'"); } } if (lexer2.showPosition) { errStr = "Parse error on line " + (yylineno + 1) + ":\n" + lexer2.showPosition() + "\nExpecting " + expected.join(", ") + ", got '" + (this.terminals_[symbol] || symbol) + "'"; } else { errStr = "Parse error on line " + (yylineno + 1) + ": Unexpected " + (symbol == EOF ? "end of input" : "'" + (this.terminals_[symbol] || symbol) + "'"); } this.parseError(errStr, { text: lexer2.match, token: this.terminals_[symbol] || symbol, line: lexer2.yylineno, loc: yyloc, expected }); } if (action[0] instanceof Array && action.length > 1) { throw new Error("Parse Error: multiple actions possible at state: " + state + ", token: " + symbol); } switch (action[0]) { case 1: stack.push(symbol); vstack.push(lexer2.yytext); lstack.push(lexer2.yylloc); stack.push(action[1]); symbol = null; { yyleng = lexer2.yyleng; yytext = lexer2.yytext; yylineno = lexer2.yylineno; yyloc = lexer2.yylloc; } break; case 2: len = this.productions_[action[1]][1]; yyval.$ = vstack[vstack.length - len]; yyval._$ = { first_line: lstack[lstack.length - (len || 1)].first_line, last_line: lstack[lstack.length - 1].last_line, first_column: lstack[lstack.length - (len || 1)].first_column, last_column: lstack[lstack.length - 1].last_column }; if (ranges) { yyval._$.range = [ lstack[lstack.length - (len || 1)].range[0], lstack[lstack.length - 1].range[1] ]; } r = this.performAction.apply(yyval, [ yytext, yyleng, yylineno, sharedState.yy, action[1], vstack, lstack ].concat(args)); if (typeof r !== "undefined") { return r; } if (len) { stack = stack.slice(0, -1 * len * 2); vstack = vstack.slice(0, -1 * len); lstack = lstack.slice(0, -1 * len); } stack.push(this.productions_[action[1]][0]); vstack.push(yyval.$); lstack.push(yyval._$); newState = table[stack[stack.length - 2]][stack[stack.length - 1]]; stack.push(newState); break; case 3: return true; } } return true; } }; var lexer = function() { var lexer2 = { EOF: 1, parseError: function parseError(str, hash) { if (this.yy.parser) { this.yy.parser.parseError(str, hash); } else { throw new Error(str); } }, // resets the lexer, sets new input setInput: function(input, yy) { this.yy = yy || this.yy || {}; this._input = input; this._more = this._backtrack = this.done = false; this.yylineno = this.yyleng = 0; this.yytext = this.matched = this.match = ""; this.conditionStack = ["INITIAL"]; this.yylloc = { first_line: 1, first_column: 0, last_line: 1, last_column: 0 }; if (this.options.ranges) { this.yylloc.range = [0, 0]; } this.offset = 0; return this; }, // consumes and returns one char from the input input: function() { var ch = this._input[0]; this.yytext += ch; this.yyleng++; this.offset++; this.match += ch; this.matched += ch; var lines = ch.match(/(?:\r\n?|\n).*/g); if (lines) { this.yylineno++; this.yylloc.last_line++; } else { this.yylloc.last_column++; } if (this.options.ranges) { this.yylloc.range[1]++; } this._input = this._input.slice(1); return ch; }, // unshifts one char (or a string) into the input unput: function(ch) { var len = ch.length; var lines = ch.split(/(?:\r\n?|\n)/g); this._input = ch + this._input; this.yytext = this.yytext.substr(0, this.yytext.length - len); this.offset -= len; var oldLines = this.match.split(/(?:\r\n?|\n)/g); this.match = this.match.substr(0, this.match.length - 1); this.matched = this.matched.substr(0, this.matched.length - 1); if (lines.length - 1) { this.yylineno -= lines.length - 1; } var r = this.yylloc.range; this.yylloc = { first_line: this.yylloc.first_line, last_line: this.yylineno + 1, first_column: this.yylloc.first_column, last_column: lines ? (lines.length === oldLines.length ? this.yylloc.first_column : 0) + oldLines[oldLines.length - lines.length].length - lines[0].length : this.yylloc.first_column - len }; if (this.options.ranges) { this.yylloc.range = [r[0], r[0] + this.yyleng - len]; } this.yyleng = this.yytext.length; return this; }, // When called from action, caches matched text and appends it on next action more: function() { this._more = true; return this; }, // When called from action, signals the lexer that this rule fails to match the input, so the next matching rule (regex) should be tested instead. reject: function() { if (this.options.backtrack_lexer) { this._backtrack = true; } else { return this.parseError("Lexical error on line " + (this.yylineno + 1) + ". You can only invoke reject() in the lexer when the lexer is of the backtracking persuasion (options.backtrack_lexer = true).\n" + this.showPosition(), { text: "", token: null, line: this.yylineno }); } return this; }, // retain first n characters of the match less: function(n) { this.unput(this.match.slice(n)); }, // displays already matched input, i.e. for error messages pastInput: function() { var past = this.matched.substr(0, this.matched.length - this.match.length); return (past.length > 20 ? "..." : "") + past.substr(-20).replace(/\n/g, ""); }, // displays upcoming input, i.e. for error messages upcomingInput: function() { var next = this.match; if (next.length < 20) { next += this._input.substr(0, 20 - next.length); } return (next.substr(0, 20) + (next.length > 20 ? "..." : "")).replace(/\n/g, ""); }, // displays the character position where the lexing error occurred, i.e. for error messages showPosition: function() { var pre = this.pastInput(); var c = new Array(pre.length + 1).join("-"); return pre + this.upcomingInput() + "\n" + c + "^"; }, // test the lexed token: return FALSE when not a match, otherwise return token test_match: function(match, indexed_rule) { var token, lines, backup; if (this.options.backtrack_lexer) { backup = { yylineno: this.yylineno, yylloc: { first_line: this.yylloc.first_line, last_line: this.last_line, first_column: this.yylloc.first_column, last_column: this.yylloc.last_column }, yytext: this.yytext, match: this.match, matches: this.matches, matched: this.matched, yyleng: this.yyleng, offset: this.offset, _more: this._more, _input: this._input, yy: this.yy, conditionStack: this.conditionStack.slice(0), done: this.done }; if (this.options.ranges) { backup.yylloc.range = this.yylloc.range.slice(0); } } lines = match[0].match(/(?:\r\n?|\n).*/g); if (lines) { this.yylineno += lines.length; } this.yylloc = { first_line: this.yylloc.last_line, last_line: this.yylineno + 1, first_column: this.yylloc.last_column, last_column: lines ? lines[lines.length - 1].length - lines[lines.length - 1].match(/\r?\n?/)[0].length : this.yylloc.last_column + match[0].length }; this.yytext += match[0]; this.match += match[0]; this.matches = match; this.yyleng = this.yytext.length; if (this.options.ranges) { this.yylloc.range = [this.offset, this.offset += this.yyleng]; } this._more = false; this._backtrack = false; this._input = this._input.slice(match[0].length); this.matched += match[0]; token = this.performAction.call(this, this.yy, this, indexed_rule, this.conditionStack[this.conditionStack.length - 1]); if (this.done && this._input) { this.done = false; } if (token) { return token; } else if (this._backtrack) { for (var k in backup) { this[k] = backup[k]; } return false; } return false; }, // return next match in input next: function() { if (this.done) { return this.EOF; } if (!this._input) { this.done = true; } var token, match, tempMatch, index; if (!this._more) { this.yytext = ""; this.match = ""; } var rules = this._currentRules(); for (var i = 0; i < rules.length; i++) { tempMatch = this._input.match(this.rules[rules[i]]); if (tempMatch && (!match || tempMatch[0].length > match[0].length)) { match = tempMatch; index = i; if (this.options.backtrack_lexer) { token = this.test_match(tempMatch, rules[i]); if (token !== false) { return token; } else if (this._backtrack) { match = false; continue; } else { return false; } } else if (!this.options.flex) { break; } } } if (match) { token = this.test_match(match, rules[index]); if (token !== false) { return token; } return false; } if (this._input === "") { return this.EOF; } else { return this.parseError("Lexical error on line " + (this.yylineno + 1) + ". Unrecognized text.\n" + this.showPosition(), { text: "", token: null, line: this.yylineno }); } }, // return next match that has a token lex: function lex() { var r = this.next(); if (r) { return r; } else { return this.lex(); } }, // activates a new lexer condition state (pushes the new lexer condition state onto the condition stack) begin: function begin(condition) { this.conditionStack.push(condition); }, // pop the previously active lexer condition state off the condition stack popState: function popState() { var n = this.conditionStack.length - 1; if (n > 0) { return this.conditionStack.pop(); } else { return this.conditionStack[0]; } }, // produce the lexer rule set which is active for the currently active lexer condition state _currentRules: function _currentRules() { if (this.conditionStack.length && this.conditionStack[this.conditionStack.length - 1]) { return this.conditions[this.conditionStack[this.conditionStack.length - 1]].rules; } else { return this.conditions["INITIAL"].rules; } }, // return the currently active lexer condition state; when an index argument is provided it produces the N-th previous condition state, if available topState: function topState(n) { n = this.conditionStack.length - 1 - Math.abs(n || 0); if (n >= 0) { return this.conditionStack[n]; } else { return "INITIAL"; } }, // alias for begin(condition) pushState: function pushState(condition) { this.begin(condition); }, // return the number of states currently on the stack stateStackSize: function stateStackSize() { return this.conditionStack.length; }, options: { "case-insensitive": true }, performAction: function anonymous(yy, yy_, $avoiding_name_collisions, YY_START) { switch ($avoiding_name_collisions) { case 0: this.pushState("csv"); return 4; case 1: return 10; case 2: return 5; case 3: return 12; case 4: this.pushState("escaped_text"); return 18; case 5: return 20; case 6: this.popState("escaped_text"); return 18; case 7: return 19; } }, rules: [/^(?:sankey-beta\b)/i, /^(?:$)/i, /^(?:((\u000D\u000A)|(\u000A)))/i, /^(?:(\u002C))/i, /^(?:(\u0022))/i, /^(?:([\u0020-\u0021\u0023-\u002B\u002D-\u007E])*)/i, /^(?:(\u0022)(?!(\u0022)))/i, /^(?:(([\u0020-\u0021\u0023-\u002B\u002D-\u007E])|(\u002C)|(\u000D)|(\u000A)|(\u0022)(\u0022))*)/i], conditions: { "csv": { "rules": [1, 2, 3, 4, 5, 6, 7], "inclusive": false }, "escaped_text": { "rules": [6, 7], "inclusive": false }, "INITIAL": { "rules": [0, 1, 2, 3, 4, 5, 6, 7], "inclusive": true } } }; return lexer2; }(); parser2.lexer = lexer; function Parser() { this.yy = {}; } Parser.prototype = parser2; parser2.Parser = Parser; return new Parser(); }(); parser.parser = parser; const parser$1 = parser; let links = []; let nodes = []; let nodesMap = {}; const clear = () => { links = []; nodes = []; nodesMap = {}; (0,mermaid_2490e8f2.v)(); }; class SankeyLink { constructor(source, target, value = 0) { this.source = source; this.target = target; this.value = value; } } const addLink = (source, target, value) => { links.push(new SankeyLink(source, target, value)); }; class SankeyNode { constructor(ID) { this.ID = ID; } } const findOrCreateNode = (ID) => { ID = mermaid_2490e8f2.e.sanitizeText(ID, (0,mermaid_2490e8f2.c)()); if (!nodesMap[ID]) { nodesMap[ID] = new SankeyNode(ID); nodes.push(nodesMap[ID]); } return nodesMap[ID]; }; const getNodes = () => nodes; const getLinks = () => links; const getGraph = () => ({ nodes: nodes.map((node) => ({ id: node.ID })), links: links.map((link) => ({ source: link.source.ID, target: link.target.ID, value: link.value })) }); const db = { nodesMap, getConfig: () => (0,mermaid_2490e8f2.c)().sankey, getNodes, getLinks, getGraph, addLink, findOrCreateNode, getAccTitle: mermaid_2490e8f2.g, setAccTitle: mermaid_2490e8f2.s, getAccDescription: mermaid_2490e8f2.a, setAccDescription: mermaid_2490e8f2.b, getDiagramTitle: mermaid_2490e8f2.t, setDiagramTitle: mermaid_2490e8f2.q, clear }; const _Uid = class _Uid2 { static next(name) { return new _Uid2(name + ++_Uid2.count); } constructor(id) { this.id = id; this.href = `#${id}`; } toString() { return "url(" + this.href + ")"; } }; _Uid.count = 0; let Uid = _Uid; const alignmentsMap = { left: left, right: right, center: center, justify: justify }; const draw = function(text, id, _version, diagObj) { const { securityLevel, sankey: conf } = (0,mermaid_2490e8f2.c)(); const defaultSankeyConfig = mermaid_2490e8f2.K.sankey; let sandboxElement; if (securityLevel === "sandbox") { sandboxElement = (0,src/* select */.Ltv)("#i" + id); } const root = securityLevel === "sandbox" ? (0,src/* select */.Ltv)(sandboxElement.nodes()[0].contentDocument.body) : (0,src/* select */.Ltv)("body"); const svg = securityLevel === "sandbox" ? root.select(`[id="${id}"]`) : (0,src/* select */.Ltv)(`[id="${id}"]`); const width = (conf == null ? void 0 : conf.width) ?? defaultSankeyConfig.width; const height = (conf == null ? void 0 : conf.height) ?? defaultSankeyConfig.width; const useMaxWidth = (conf == null ? void 0 : conf.useMaxWidth) ?? defaultSankeyConfig.useMaxWidth; const nodeAlignment = (conf == null ? void 0 : conf.nodeAlignment) ?? defaultSankeyConfig.nodeAlignment; const prefix = (conf == null ? void 0 : conf.prefix) ?? defaultSankeyConfig.prefix; const suffix = (conf == null ? void 0 : conf.suffix) ?? defaultSankeyConfig.suffix; const showValues = (conf == null ? void 0 : conf.showValues) ?? defaultSankeyConfig.showValues; const graph = diagObj.db.getGraph(); const nodeAlign = alignmentsMap[nodeAlignment]; const nodeWidth = 10; const sankey$1 = Sankey().nodeId((d) => d.id).nodeWidth(nodeWidth).nodePadding(10 + (showValues ? 15 : 0)).nodeAlign(nodeAlign).extent([ [0, 0], [width, height] ]); sankey$1(graph); const colorScheme = (0,src/* scaleOrdinal */.UMr)(src/* schemeTableau10 */.zt); svg.append("g").attr("class", "nodes").selectAll(".node").data(graph.nodes).join("g").attr("class", "node").attr("id", (d) => (d.uid = Uid.next("node-")).id).attr("transform", function(d) { return "translate(" + d.x0 + "," + d.y0 + ")"; }).attr("x", (d) => d.x0).attr("y", (d) => d.y0).append("rect").attr("height", (d) => { return d.y1 - d.y0; }).attr("width", (d) => d.x1 - d.x0).attr("fill", (d) => colorScheme(d.id)); const getText = ({ id: id2, value }) => { if (!showValues) { return id2; } return `${id2} ${prefix}${Math.round(value * 100) / 100}${suffix}`; }; svg.append("g").attr("class", "node-labels").attr("font-family", "sans-serif").attr("font-size", 14).selectAll("text").data(graph.nodes).join("text").attr("x", (d) => d.x0 < width / 2 ? d.x1 + 6 : d.x0 - 6).attr("y", (d) => (d.y1 + d.y0) / 2).attr("dy", `${showValues ? "0" : "0.35"}em`).attr("text-anchor", (d) => d.x0 < width / 2 ? "start" : "end").text(getText); const link = svg.append("g").attr("class", "links").attr("fill", "none").attr("stroke-opacity", 0.5).selectAll(".link").data(graph.links).join("g").attr("class", "link").style("mix-blend-mode", "multiply"); const linkColor = (conf == null ? void 0 : conf.linkColor) || "gradient"; if (linkColor === "gradient") { const gradient = link.append("linearGradient").attr("id", (d) => (d.uid = Uid.next("linearGradient-")).id).attr("gradientUnits", "userSpaceOnUse").attr("x1", (d) => d.source.x1).attr("x2", (d) => d.target.x0); gradient.append("stop").attr("offset", "0%").attr("stop-color", (d) => colorScheme(d.source.id)); gradient.append("stop").attr("offset", "100%").attr("stop-color", (d) => colorScheme(d.target.id)); } let coloring; switch (linkColor) { case "gradient": coloring = (d) => d.uid; break; case "source": coloring = (d) => colorScheme(d.source.id); break; case "target": coloring = (d) => colorScheme(d.target.id); break; default: coloring = linkColor; } link.append("path").attr("d", sankeyLinkHorizontal()).attr("stroke", coloring).attr("stroke-width", (d) => Math.max(1, d.width)); (0,mermaid_2490e8f2.o)(void 0, svg, 0, useMaxWidth); }; const renderer = { draw }; const prepareTextForParsing = (text) => { const textToParse = text.replaceAll(/^[^\S\n\r]+|[^\S\n\r]+$/g, "").replaceAll(/([\n\r])+/g, "\n").trim(); return textToParse; }; const originalParse = parser$1.parse.bind(parser$1); parser$1.parse = (text) => originalParse(prepareTextForParsing(text)); const diagram = { parser: parser$1, db, renderer }; /***/ }) }; ;