blog/assets/js/943.d6e1bb0d.js

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"use strict";
exports.id = 943;
exports.ids = [943];
exports.modules = {
/***/ 41644:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
bK: () => (/* reexport */ layout)
});
// UNUSED EXPORTS: acyclic, normalize, rank
// EXTERNAL MODULE: ./node_modules/lodash-es/forEach.js
var forEach = __webpack_require__(70870);
// EXTERNAL MODULE: ./node_modules/lodash-es/uniqueId.js
var uniqueId = __webpack_require__(66749);
// EXTERNAL MODULE: ./node_modules/lodash-es/has.js + 1 modules
var has = __webpack_require__(17452);
// EXTERNAL MODULE: ./node_modules/lodash-es/constant.js
var constant = __webpack_require__(62002);
// EXTERNAL MODULE: ./node_modules/lodash-es/flatten.js
var flatten = __webpack_require__(27961);
// EXTERNAL MODULE: ./node_modules/lodash-es/map.js
var map = __webpack_require__(43836);
// EXTERNAL MODULE: ./node_modules/lodash-es/range.js + 2 modules
var range = __webpack_require__(74379);
// EXTERNAL MODULE: ./node_modules/dagre-d3-es/src/graphlib/index.js
var graphlib = __webpack_require__(45625);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/data/list.js
/*
* Simple doubly linked list implementation derived from Cormen, et al.,
* "Introduction to Algorithms".
*/
class List {
constructor() {
var sentinel = {};
sentinel._next = sentinel._prev = sentinel;
this._sentinel = sentinel;
}
dequeue() {
var sentinel = this._sentinel;
var entry = sentinel._prev;
if (entry !== sentinel) {
unlink(entry);
return entry;
}
}
enqueue(entry) {
var sentinel = this._sentinel;
if (entry._prev && entry._next) {
unlink(entry);
}
entry._next = sentinel._next;
sentinel._next._prev = entry;
sentinel._next = entry;
entry._prev = sentinel;
}
toString() {
var strs = [];
var sentinel = this._sentinel;
var curr = sentinel._prev;
while (curr !== sentinel) {
strs.push(JSON.stringify(curr, filterOutLinks));
curr = curr._prev;
}
return '[' + strs.join(', ') + ']';
}
}
function unlink(entry) {
entry._prev._next = entry._next;
entry._next._prev = entry._prev;
delete entry._next;
delete entry._prev;
}
function filterOutLinks(k, v) {
if (k !== '_next' && k !== '_prev') {
return v;
}
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/greedy-fas.js
/*
* A greedy heuristic for finding a feedback arc set for a graph. A feedback
* arc set is a set of edges that can be removed to make a graph acyclic.
* The algorithm comes from: P. Eades, X. Lin, and W. F. Smyth, "A fast and
* effective heuristic for the feedback arc set problem." This implementation
* adjusts that from the paper to allow for weighted edges.
*/
var DEFAULT_WEIGHT_FN = constant/* default */.Z(1);
function greedyFAS(g, weightFn) {
if (g.nodeCount() <= 1) {
return [];
}
var state = buildState(g, weightFn || DEFAULT_WEIGHT_FN);
var results = doGreedyFAS(state.graph, state.buckets, state.zeroIdx);
// Expand multi-edges
return flatten/* default */.Z(
map/* default */.Z(results, function (e) {
return g.outEdges(e.v, e.w);
})
);
}
function doGreedyFAS(g, buckets, zeroIdx) {
var results = [];
var sources = buckets[buckets.length - 1];
var sinks = buckets[0];
var entry;
while (g.nodeCount()) {
while ((entry = sinks.dequeue())) {
removeNode(g, buckets, zeroIdx, entry);
}
while ((entry = sources.dequeue())) {
removeNode(g, buckets, zeroIdx, entry);
}
if (g.nodeCount()) {
for (var i = buckets.length - 2; i > 0; --i) {
entry = buckets[i].dequeue();
if (entry) {
results = results.concat(removeNode(g, buckets, zeroIdx, entry, true));
break;
}
}
}
}
return results;
}
function removeNode(g, buckets, zeroIdx, entry, collectPredecessors) {
var results = collectPredecessors ? [] : undefined;
forEach/* default */.Z(g.inEdges(entry.v), function (edge) {
var weight = g.edge(edge);
var uEntry = g.node(edge.v);
if (collectPredecessors) {
results.push({ v: edge.v, w: edge.w });
}
uEntry.out -= weight;
assignBucket(buckets, zeroIdx, uEntry);
});
forEach/* default */.Z(g.outEdges(entry.v), function (edge) {
var weight = g.edge(edge);
var w = edge.w;
var wEntry = g.node(w);
wEntry['in'] -= weight;
assignBucket(buckets, zeroIdx, wEntry);
});
g.removeNode(entry.v);
return results;
}
function buildState(g, weightFn) {
var fasGraph = new graphlib/* Graph */.k();
var maxIn = 0;
var maxOut = 0;
forEach/* default */.Z(g.nodes(), function (v) {
fasGraph.setNode(v, { v: v, in: 0, out: 0 });
});
// Aggregate weights on nodes, but also sum the weights across multi-edges
// into a single edge for the fasGraph.
forEach/* default */.Z(g.edges(), function (e) {
var prevWeight = fasGraph.edge(e.v, e.w) || 0;
var weight = weightFn(e);
var edgeWeight = prevWeight + weight;
fasGraph.setEdge(e.v, e.w, edgeWeight);
maxOut = Math.max(maxOut, (fasGraph.node(e.v).out += weight));
maxIn = Math.max(maxIn, (fasGraph.node(e.w)['in'] += weight));
});
var buckets = range/* default */.Z(maxOut + maxIn + 3).map(function () {
return new List();
});
var zeroIdx = maxIn + 1;
forEach/* default */.Z(fasGraph.nodes(), function (v) {
assignBucket(buckets, zeroIdx, fasGraph.node(v));
});
return { graph: fasGraph, buckets: buckets, zeroIdx: zeroIdx };
}
function assignBucket(buckets, zeroIdx, entry) {
if (!entry.out) {
buckets[0].enqueue(entry);
} else if (!entry['in']) {
buckets[buckets.length - 1].enqueue(entry);
} else {
buckets[entry.out - entry['in'] + zeroIdx].enqueue(entry);
}
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/acyclic.js
function run(g) {
var fas = g.graph().acyclicer === 'greedy' ? greedyFAS(g, weightFn(g)) : dfsFAS(g);
forEach/* default */.Z(fas, function (e) {
var label = g.edge(e);
g.removeEdge(e);
label.forwardName = e.name;
label.reversed = true;
g.setEdge(e.w, e.v, label, uniqueId/* default */.Z('rev'));
});
function weightFn(g) {
return function (e) {
return g.edge(e).weight;
};
}
}
function dfsFAS(g) {
var fas = [];
var stack = {};
var visited = {};
function dfs(v) {
if (has/* default */.Z(visited, v)) {
return;
}
visited[v] = true;
stack[v] = true;
forEach/* default */.Z(g.outEdges(v), function (e) {
if (has/* default */.Z(stack, e.w)) {
fas.push(e);
} else {
dfs(e.w);
}
});
delete stack[v];
}
forEach/* default */.Z(g.nodes(), dfs);
return fas;
}
function undo(g) {
forEach/* default */.Z(g.edges(), function (e) {
var label = g.edge(e);
if (label.reversed) {
g.removeEdge(e);
var forwardName = label.forwardName;
delete label.reversed;
delete label.forwardName;
g.setEdge(e.w, e.v, label, forwardName);
}
});
}
// EXTERNAL MODULE: ./node_modules/lodash-es/merge.js + 6 modules
var merge = __webpack_require__(59236);
// EXTERNAL MODULE: ./node_modules/lodash-es/pick.js + 4 modules
var pick = __webpack_require__(61666);
// EXTERNAL MODULE: ./node_modules/lodash-es/defaults.js
var defaults = __webpack_require__(3688);
// EXTERNAL MODULE: ./node_modules/lodash-es/isSymbol.js
var isSymbol = __webpack_require__(72714);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseExtremum.js
/**
* The base implementation of methods like `_.max` and `_.min` which accepts a
* `comparator` to determine the extremum value.
*
* @private
* @param {Array} array The array to iterate over.
* @param {Function} iteratee The iteratee invoked per iteration.
* @param {Function} comparator The comparator used to compare values.
* @returns {*} Returns the extremum value.
*/
function baseExtremum(array, iteratee, comparator) {
var index = -1,
length = array.length;
while (++index < length) {
var value = array[index],
current = iteratee(value);
if (current != null && (computed === undefined
? (current === current && !(0,isSymbol/* default */.Z)(current))
: comparator(current, computed)
)) {
var computed = current,
result = value;
}
}
return result;
}
/* harmony default export */ const _baseExtremum = (baseExtremum);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseGt.js
/**
* The base implementation of `_.gt` which doesn't coerce arguments.
*
* @private
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {boolean} Returns `true` if `value` is greater than `other`,
* else `false`.
*/
function baseGt(value, other) {
return value > other;
}
/* harmony default export */ const _baseGt = (baseGt);
// EXTERNAL MODULE: ./node_modules/lodash-es/identity.js
var identity = __webpack_require__(69203);
;// CONCATENATED MODULE: ./node_modules/lodash-es/max.js
/**
* Computes the maximum value of `array`. If `array` is empty or falsey,
* `undefined` is returned.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Math
* @param {Array} array The array to iterate over.
* @returns {*} Returns the maximum value.
* @example
*
* _.max([4, 2, 8, 6]);
* // => 8
*
* _.max([]);
* // => undefined
*/
function max(array) {
return (array && array.length)
? _baseExtremum(array, identity/* default */.Z, _baseGt)
: undefined;
}
/* harmony default export */ const lodash_es_max = (max);
;// CONCATENATED MODULE: ./node_modules/lodash-es/last.js
/**
* Gets the last element of `array`.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {Array} array The array to query.
* @returns {*} Returns the last element of `array`.
* @example
*
* _.last([1, 2, 3]);
* // => 3
*/
function last(array) {
var length = array == null ? 0 : array.length;
return length ? array[length - 1] : undefined;
}
/* harmony default export */ const lodash_es_last = (last);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseAssignValue.js
var _baseAssignValue = __webpack_require__(74752);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseForOwn.js
var _baseForOwn = __webpack_require__(2693);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseIteratee.js + 16 modules
var _baseIteratee = __webpack_require__(74765);
;// CONCATENATED MODULE: ./node_modules/lodash-es/mapValues.js
/**
* Creates an object with the same keys as `object` and values generated
* by running each own enumerable string keyed property of `object` thru
* `iteratee`. The iteratee is invoked with three arguments:
* (value, key, object).
*
* @static
* @memberOf _
* @since 2.4.0
* @category Object
* @param {Object} object The object to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @returns {Object} Returns the new mapped object.
* @see _.mapKeys
* @example
*
* var users = {
* 'fred': { 'user': 'fred', 'age': 40 },
* 'pebbles': { 'user': 'pebbles', 'age': 1 }
* };
*
* _.mapValues(users, function(o) { return o.age; });
* // => { 'fred': 40, 'pebbles': 1 } (iteration order is not guaranteed)
*
* // The `_.property` iteratee shorthand.
* _.mapValues(users, 'age');
* // => { 'fred': 40, 'pebbles': 1 } (iteration order is not guaranteed)
*/
function mapValues(object, iteratee) {
var result = {};
iteratee = (0,_baseIteratee/* default */.Z)(iteratee, 3);
(0,_baseForOwn/* default */.Z)(object, function(value, key, object) {
(0,_baseAssignValue/* default */.Z)(result, key, iteratee(value, key, object));
});
return result;
}
/* harmony default export */ const lodash_es_mapValues = (mapValues);
// EXTERNAL MODULE: ./node_modules/lodash-es/isUndefined.js
var isUndefined = __webpack_require__(49360);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseLt.js
/**
* The base implementation of `_.lt` which doesn't coerce arguments.
*
* @private
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {boolean} Returns `true` if `value` is less than `other`,
* else `false`.
*/
function baseLt(value, other) {
return value < other;
}
/* harmony default export */ const _baseLt = (baseLt);
;// CONCATENATED MODULE: ./node_modules/lodash-es/min.js
/**
* Computes the minimum value of `array`. If `array` is empty or falsey,
* `undefined` is returned.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Math
* @param {Array} array The array to iterate over.
* @returns {*} Returns the minimum value.
* @example
*
* _.min([4, 2, 8, 6]);
* // => 2
*
* _.min([]);
* // => undefined
*/
function min(array) {
return (array && array.length)
? _baseExtremum(array, identity/* default */.Z, _baseLt)
: undefined;
}
/* harmony default export */ const lodash_es_min = (min);
// EXTERNAL MODULE: ./node_modules/lodash-es/_root.js
var _root = __webpack_require__(66092);
;// CONCATENATED MODULE: ./node_modules/lodash-es/now.js
/**
* Gets the timestamp of the number of milliseconds that have elapsed since
* the Unix epoch (1 January 1970 00:00:00 UTC).
*
* @static
* @memberOf _
* @since 2.4.0
* @category Date
* @returns {number} Returns the timestamp.
* @example
*
* _.defer(function(stamp) {
* console.log(_.now() - stamp);
* }, _.now());
* // => Logs the number of milliseconds it took for the deferred invocation.
*/
var now = function() {
return _root/* default */.Z.Date.now();
};
/* harmony default export */ const lodash_es_now = (now);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/util.js
/*
* Adds a dummy node to the graph and return v.
*/
function addDummyNode(g, type, attrs, name) {
var v;
do {
v = uniqueId/* default */.Z(name);
} while (g.hasNode(v));
attrs.dummy = type;
g.setNode(v, attrs);
return v;
}
/*
* Returns a new graph with only simple edges. Handles aggregation of data
* associated with multi-edges.
*/
function simplify(g) {
var simplified = new graphlib/* Graph */.k().setGraph(g.graph());
forEach/* default */.Z(g.nodes(), function (v) {
simplified.setNode(v, g.node(v));
});
forEach/* default */.Z(g.edges(), function (e) {
var simpleLabel = simplified.edge(e.v, e.w) || { weight: 0, minlen: 1 };
var label = g.edge(e);
simplified.setEdge(e.v, e.w, {
weight: simpleLabel.weight + label.weight,
minlen: Math.max(simpleLabel.minlen, label.minlen),
});
});
return simplified;
}
function asNonCompoundGraph(g) {
var simplified = new graphlib/* Graph */.k({ multigraph: g.isMultigraph() }).setGraph(g.graph());
forEach/* default */.Z(g.nodes(), function (v) {
if (!g.children(v).length) {
simplified.setNode(v, g.node(v));
}
});
forEach/* default */.Z(g.edges(), function (e) {
simplified.setEdge(e, g.edge(e));
});
return simplified;
}
function successorWeights(g) {
var weightMap = _.map(g.nodes(), function (v) {
var sucs = {};
_.forEach(g.outEdges(v), function (e) {
sucs[e.w] = (sucs[e.w] || 0) + g.edge(e).weight;
});
return sucs;
});
return _.zipObject(g.nodes(), weightMap);
}
function predecessorWeights(g) {
var weightMap = _.map(g.nodes(), function (v) {
var preds = {};
_.forEach(g.inEdges(v), function (e) {
preds[e.v] = (preds[e.v] || 0) + g.edge(e).weight;
});
return preds;
});
return _.zipObject(g.nodes(), weightMap);
}
/*
* Finds where a line starting at point ({x, y}) would intersect a rectangle
* ({x, y, width, height}) if it were pointing at the rectangle's center.
*/
function intersectRect(rect, point) {
var x = rect.x;
var y = rect.y;
// Rectangle intersection algorithm from:
// http://math.stackexchange.com/questions/108113/find-edge-between-two-boxes
var dx = point.x - x;
var dy = point.y - y;
var w = rect.width / 2;
var h = rect.height / 2;
if (!dx && !dy) {
throw new Error('Not possible to find intersection inside of the rectangle');
}
var sx, sy;
if (Math.abs(dy) * w > Math.abs(dx) * h) {
// Intersection is top or bottom of rect.
if (dy < 0) {
h = -h;
}
sx = (h * dx) / dy;
sy = h;
} else {
// Intersection is left or right of rect.
if (dx < 0) {
w = -w;
}
sx = w;
sy = (w * dy) / dx;
}
return { x: x + sx, y: y + sy };
}
/*
* Given a DAG with each node assigned "rank" and "order" properties, this
* function will produce a matrix with the ids of each node.
*/
function buildLayerMatrix(g) {
var layering = map/* default */.Z(range/* default */.Z(util_maxRank(g) + 1), function () {
return [];
});
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
var rank = node.rank;
if (!isUndefined/* default */.Z(rank)) {
layering[rank][node.order] = v;
}
});
return layering;
}
/*
* Adjusts the ranks for all nodes in the graph such that all nodes v have
* rank(v) >= 0 and at least one node w has rank(w) = 0.
*/
function normalizeRanks(g) {
var min = lodash_es_min(
map/* default */.Z(g.nodes(), function (v) {
return g.node(v).rank;
})
);
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
if (has/* default */.Z(node, 'rank')) {
node.rank -= min;
}
});
}
function removeEmptyRanks(g) {
// Ranks may not start at 0, so we need to offset them
var offset = lodash_es_min(
map/* default */.Z(g.nodes(), function (v) {
return g.node(v).rank;
})
);
var layers = [];
forEach/* default */.Z(g.nodes(), function (v) {
var rank = g.node(v).rank - offset;
if (!layers[rank]) {
layers[rank] = [];
}
layers[rank].push(v);
});
var delta = 0;
var nodeRankFactor = g.graph().nodeRankFactor;
forEach/* default */.Z(layers, function (vs, i) {
if (isUndefined/* default */.Z(vs) && i % nodeRankFactor !== 0) {
--delta;
} else if (delta) {
forEach/* default */.Z(vs, function (v) {
g.node(v).rank += delta;
});
}
});
}
function addBorderNode(g, prefix, rank, order) {
var node = {
width: 0,
height: 0,
};
if (arguments.length >= 4) {
node.rank = rank;
node.order = order;
}
return addDummyNode(g, 'border', node, prefix);
}
function util_maxRank(g) {
return lodash_es_max(
map/* default */.Z(g.nodes(), function (v) {
var rank = g.node(v).rank;
if (!isUndefined/* default */.Z(rank)) {
return rank;
}
})
);
}
/*
* Partition a collection into two groups: `lhs` and `rhs`. If the supplied
* function returns true for an entry it goes into `lhs`. Otherwise it goes
* into `rhs.
*/
function partition(collection, fn) {
var result = { lhs: [], rhs: [] };
forEach/* default */.Z(collection, function (value) {
if (fn(value)) {
result.lhs.push(value);
} else {
result.rhs.push(value);
}
});
return result;
}
/*
* Returns a new function that wraps `fn` with a timer. The wrapper logs the
* time it takes to execute the function.
*/
function util_time(name, fn) {
var start = lodash_es_now();
try {
return fn();
} finally {
console.log(name + ' time: ' + (lodash_es_now() - start) + 'ms');
}
}
function notime(name, fn) {
return fn();
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/add-border-segments.js
function addBorderSegments(g) {
function dfs(v) {
var children = g.children(v);
var node = g.node(v);
if (children.length) {
forEach/* default */.Z(children, dfs);
}
if (has/* default */.Z(node, 'minRank')) {
node.borderLeft = [];
node.borderRight = [];
for (var rank = node.minRank, maxRank = node.maxRank + 1; rank < maxRank; ++rank) {
add_border_segments_addBorderNode(g, 'borderLeft', '_bl', v, node, rank);
add_border_segments_addBorderNode(g, 'borderRight', '_br', v, node, rank);
}
}
}
forEach/* default */.Z(g.children(), dfs);
}
function add_border_segments_addBorderNode(g, prop, prefix, sg, sgNode, rank) {
var label = { width: 0, height: 0, rank: rank, borderType: prop };
var prev = sgNode[prop][rank - 1];
var curr = addDummyNode(g, 'border', label, prefix);
sgNode[prop][rank] = curr;
g.setParent(curr, sg);
if (prev) {
g.setEdge(prev, curr, { weight: 1 });
}
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/coordinate-system.js
function adjust(g) {
var rankDir = g.graph().rankdir.toLowerCase();
if (rankDir === 'lr' || rankDir === 'rl') {
swapWidthHeight(g);
}
}
function coordinate_system_undo(g) {
var rankDir = g.graph().rankdir.toLowerCase();
if (rankDir === 'bt' || rankDir === 'rl') {
reverseY(g);
}
if (rankDir === 'lr' || rankDir === 'rl') {
swapXY(g);
swapWidthHeight(g);
}
}
function swapWidthHeight(g) {
forEach/* default */.Z(g.nodes(), function (v) {
swapWidthHeightOne(g.node(v));
});
forEach/* default */.Z(g.edges(), function (e) {
swapWidthHeightOne(g.edge(e));
});
}
function swapWidthHeightOne(attrs) {
var w = attrs.width;
attrs.width = attrs.height;
attrs.height = w;
}
function reverseY(g) {
forEach/* default */.Z(g.nodes(), function (v) {
reverseYOne(g.node(v));
});
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
forEach/* default */.Z(edge.points, reverseYOne);
if (has/* default */.Z(edge, 'y')) {
reverseYOne(edge);
}
});
}
function reverseYOne(attrs) {
attrs.y = -attrs.y;
}
function swapXY(g) {
forEach/* default */.Z(g.nodes(), function (v) {
swapXYOne(g.node(v));
});
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
forEach/* default */.Z(edge.points, swapXYOne);
if (has/* default */.Z(edge, 'x')) {
swapXYOne(edge);
}
});
}
function swapXYOne(attrs) {
var x = attrs.x;
attrs.x = attrs.y;
attrs.y = x;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/normalize.js
/*
* Breaks any long edges in the graph into short segments that span 1 layer
* each. This operation is undoable with the denormalize function.
*
* Pre-conditions:
*
* 1. The input graph is a DAG.
* 2. Each node in the graph has a "rank" property.
*
* Post-condition:
*
* 1. All edges in the graph have a length of 1.
* 2. Dummy nodes are added where edges have been split into segments.
* 3. The graph is augmented with a "dummyChains" attribute which contains
* the first dummy in each chain of dummy nodes produced.
*/
function normalize_run(g) {
g.graph().dummyChains = [];
forEach/* default */.Z(g.edges(), function (edge) {
normalizeEdge(g, edge);
});
}
function normalizeEdge(g, e) {
var v = e.v;
var vRank = g.node(v).rank;
var w = e.w;
var wRank = g.node(w).rank;
var name = e.name;
var edgeLabel = g.edge(e);
var labelRank = edgeLabel.labelRank;
if (wRank === vRank + 1) return;
g.removeEdge(e);
var dummy, attrs, i;
for (i = 0, ++vRank; vRank < wRank; ++i, ++vRank) {
edgeLabel.points = [];
attrs = {
width: 0,
height: 0,
edgeLabel: edgeLabel,
edgeObj: e,
rank: vRank,
};
dummy = addDummyNode(g, 'edge', attrs, '_d');
if (vRank === labelRank) {
attrs.width = edgeLabel.width;
attrs.height = edgeLabel.height;
// @ts-expect-error
attrs.dummy = 'edge-label';
// @ts-expect-error
attrs.labelpos = edgeLabel.labelpos;
}
g.setEdge(v, dummy, { weight: edgeLabel.weight }, name);
if (i === 0) {
g.graph().dummyChains.push(dummy);
}
v = dummy;
}
g.setEdge(v, w, { weight: edgeLabel.weight }, name);
}
function normalize_undo(g) {
forEach/* default */.Z(g.graph().dummyChains, function (v) {
var node = g.node(v);
var origLabel = node.edgeLabel;
var w;
g.setEdge(node.edgeObj, origLabel);
while (node.dummy) {
w = g.successors(v)[0];
g.removeNode(v);
origLabel.points.push({ x: node.x, y: node.y });
if (node.dummy === 'edge-label') {
origLabel.x = node.x;
origLabel.y = node.y;
origLabel.width = node.width;
origLabel.height = node.height;
}
v = w;
node = g.node(v);
}
});
}
;// CONCATENATED MODULE: ./node_modules/lodash-es/minBy.js
/**
* This method is like `_.min` except that it accepts `iteratee` which is
* invoked for each element in `array` to generate the criterion by which
* the value is ranked. The iteratee is invoked with one argument: (value).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Math
* @param {Array} array The array to iterate over.
* @param {Function} [iteratee=_.identity] The iteratee invoked per element.
* @returns {*} Returns the minimum value.
* @example
*
* var objects = [{ 'n': 1 }, { 'n': 2 }];
*
* _.minBy(objects, function(o) { return o.n; });
* // => { 'n': 1 }
*
* // The `_.property` iteratee shorthand.
* _.minBy(objects, 'n');
* // => { 'n': 1 }
*/
function minBy(array, iteratee) {
return (array && array.length)
? _baseExtremum(array, (0,_baseIteratee/* default */.Z)(iteratee, 2), _baseLt)
: undefined;
}
/* harmony default export */ const lodash_es_minBy = (minBy);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/rank/util.js
/*
* Initializes ranks for the input graph using the longest path algorithm. This
* algorithm scales well and is fast in practice, it yields rather poor
* solutions. Nodes are pushed to the lowest layer possible, leaving the bottom
* ranks wide and leaving edges longer than necessary. However, due to its
* speed, this algorithm is good for getting an initial ranking that can be fed
* into other algorithms.
*
* This algorithm does not normalize layers because it will be used by other
* algorithms in most cases. If using this algorithm directly, be sure to
* run normalize at the end.
*
* Pre-conditions:
*
* 1. Input graph is a DAG.
* 2. Input graph node labels can be assigned properties.
*
* Post-conditions:
*
* 1. Each node will be assign an (unnormalized) "rank" property.
*/
function longestPath(g) {
var visited = {};
function dfs(v) {
var label = g.node(v);
if (has/* default */.Z(visited, v)) {
return label.rank;
}
visited[v] = true;
var rank = lodash_es_min(
map/* default */.Z(g.outEdges(v), function (e) {
return dfs(e.w) - g.edge(e).minlen;
})
);
if (
rank === Number.POSITIVE_INFINITY || // return value of _.map([]) for Lodash 3
rank === undefined || // return value of _.map([]) for Lodash 4
rank === null
) {
// return value of _.map([null])
rank = 0;
}
return (label.rank = rank);
}
forEach/* default */.Z(g.sources(), dfs);
}
/*
* Returns the amount of slack for the given edge. The slack is defined as the
* difference between the length of the edge and its minimum length.
*/
function slack(g, e) {
return g.node(e.w).rank - g.node(e.v).rank - g.edge(e).minlen;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/rank/feasible-tree.js
/*
* Constructs a spanning tree with tight edges and adjusted the input node's
* ranks to achieve this. A tight edge is one that is has a length that matches
* its "minlen" attribute.
*
* The basic structure for this function is derived from Gansner, et al., "A
* Technique for Drawing Directed Graphs."
*
* Pre-conditions:
*
* 1. Graph must be a DAG.
* 2. Graph must be connected.
* 3. Graph must have at least one node.
* 5. Graph nodes must have been previously assigned a "rank" property that
* respects the "minlen" property of incident edges.
* 6. Graph edges must have a "minlen" property.
*
* Post-conditions:
*
* - Graph nodes will have their rank adjusted to ensure that all edges are
* tight.
*
* Returns a tree (undirected graph) that is constructed using only "tight"
* edges.
*/
function feasibleTree(g) {
var t = new graphlib/* Graph */.k({ directed: false });
// Choose arbitrary node from which to start our tree
var start = g.nodes()[0];
var size = g.nodeCount();
t.setNode(start, {});
var edge, delta;
while (tightTree(t, g) < size) {
edge = findMinSlackEdge(t, g);
delta = t.hasNode(edge.v) ? slack(g, edge) : -slack(g, edge);
shiftRanks(t, g, delta);
}
return t;
}
/*
* Finds a maximal tree of tight edges and returns the number of nodes in the
* tree.
*/
function tightTree(t, g) {
function dfs(v) {
forEach/* default */.Z(g.nodeEdges(v), function (e) {
var edgeV = e.v,
w = v === edgeV ? e.w : edgeV;
if (!t.hasNode(w) && !slack(g, e)) {
t.setNode(w, {});
t.setEdge(v, w, {});
dfs(w);
}
});
}
forEach/* default */.Z(t.nodes(), dfs);
return t.nodeCount();
}
/*
* Finds the edge with the smallest slack that is incident on tree and returns
* it.
*/
function findMinSlackEdge(t, g) {
return lodash_es_minBy(g.edges(), function (e) {
if (t.hasNode(e.v) !== t.hasNode(e.w)) {
return slack(g, e);
}
});
}
function shiftRanks(t, g, delta) {
forEach/* default */.Z(t.nodes(), function (v) {
g.node(v).rank += delta;
});
}
// EXTERNAL MODULE: ./node_modules/lodash-es/isArrayLike.js
var isArrayLike = __webpack_require__(50585);
// EXTERNAL MODULE: ./node_modules/lodash-es/keys.js
var keys = __webpack_require__(17179);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_createFind.js
/**
* Creates a `_.find` or `_.findLast` function.
*
* @private
* @param {Function} findIndexFunc The function to find the collection index.
* @returns {Function} Returns the new find function.
*/
function createFind(findIndexFunc) {
return function(collection, predicate, fromIndex) {
var iterable = Object(collection);
if (!(0,isArrayLike/* default */.Z)(collection)) {
var iteratee = (0,_baseIteratee/* default */.Z)(predicate, 3);
collection = (0,keys/* default */.Z)(collection);
predicate = function(key) { return iteratee(iterable[key], key, iterable); };
}
var index = findIndexFunc(collection, predicate, fromIndex);
return index > -1 ? iterable[iteratee ? collection[index] : index] : undefined;
};
}
/* harmony default export */ const _createFind = (createFind);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseFindIndex.js
var _baseFindIndex = __webpack_require__(21692);
// EXTERNAL MODULE: ./node_modules/lodash-es/toFinite.js + 3 modules
var toFinite = __webpack_require__(94099);
;// CONCATENATED MODULE: ./node_modules/lodash-es/toInteger.js
/**
* Converts `value` to an integer.
*
* **Note:** This method is loosely based on
* [`ToInteger`](http://www.ecma-international.org/ecma-262/7.0/#sec-tointeger).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to convert.
* @returns {number} Returns the converted integer.
* @example
*
* _.toInteger(3.2);
* // => 3
*
* _.toInteger(Number.MIN_VALUE);
* // => 0
*
* _.toInteger(Infinity);
* // => 1.7976931348623157e+308
*
* _.toInteger('3.2');
* // => 3
*/
function toInteger(value) {
var result = (0,toFinite/* default */.Z)(value),
remainder = result % 1;
return result === result ? (remainder ? result - remainder : result) : 0;
}
/* harmony default export */ const lodash_es_toInteger = (toInteger);
;// CONCATENATED MODULE: ./node_modules/lodash-es/findIndex.js
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeMax = Math.max;
/**
* This method is like `_.find` except that it returns the index of the first
* element `predicate` returns truthy for instead of the element itself.
*
* @static
* @memberOf _
* @since 1.1.0
* @category Array
* @param {Array} array The array to inspect.
* @param {Function} [predicate=_.identity] The function invoked per iteration.
* @param {number} [fromIndex=0] The index to search from.
* @returns {number} Returns the index of the found element, else `-1`.
* @example
*
* var users = [
* { 'user': 'barney', 'active': false },
* { 'user': 'fred', 'active': false },
* { 'user': 'pebbles', 'active': true }
* ];
*
* _.findIndex(users, function(o) { return o.user == 'barney'; });
* // => 0
*
* // The `_.matches` iteratee shorthand.
* _.findIndex(users, { 'user': 'fred', 'active': false });
* // => 1
*
* // The `_.matchesProperty` iteratee shorthand.
* _.findIndex(users, ['active', false]);
* // => 0
*
* // The `_.property` iteratee shorthand.
* _.findIndex(users, 'active');
* // => 2
*/
function findIndex(array, predicate, fromIndex) {
var length = array == null ? 0 : array.length;
if (!length) {
return -1;
}
var index = fromIndex == null ? 0 : lodash_es_toInteger(fromIndex);
if (index < 0) {
index = nativeMax(length + index, 0);
}
return (0,_baseFindIndex/* default */.Z)(array, (0,_baseIteratee/* default */.Z)(predicate, 3), index);
}
/* harmony default export */ const lodash_es_findIndex = (findIndex);
;// CONCATENATED MODULE: ./node_modules/lodash-es/find.js
/**
* Iterates over elements of `collection`, returning the first element
* `predicate` returns truthy for. The predicate is invoked with three
* arguments: (value, index|key, collection).
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object} collection The collection to inspect.
* @param {Function} [predicate=_.identity] The function invoked per iteration.
* @param {number} [fromIndex=0] The index to search from.
* @returns {*} Returns the matched element, else `undefined`.
* @example
*
* var users = [
* { 'user': 'barney', 'age': 36, 'active': true },
* { 'user': 'fred', 'age': 40, 'active': false },
* { 'user': 'pebbles', 'age': 1, 'active': true }
* ];
*
* _.find(users, function(o) { return o.age < 40; });
* // => object for 'barney'
*
* // The `_.matches` iteratee shorthand.
* _.find(users, { 'age': 1, 'active': true });
* // => object for 'pebbles'
*
* // The `_.matchesProperty` iteratee shorthand.
* _.find(users, ['active', false]);
* // => object for 'fred'
*
* // The `_.property` iteratee shorthand.
* _.find(users, 'active');
* // => object for 'barney'
*/
var find = _createFind(lodash_es_findIndex);
/* harmony default export */ const lodash_es_find = (find);
// EXTERNAL MODULE: ./node_modules/lodash-es/filter.js + 1 modules
var filter = __webpack_require__(13445);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/dijkstra.js
var DEFAULT_WEIGHT_FUNC = constant/* default */.Z(1);
function dijkstra_dijkstra(g, source, weightFn, edgeFn) {
return runDijkstra(
g,
String(source),
weightFn || DEFAULT_WEIGHT_FUNC,
edgeFn ||
function (v) {
return g.outEdges(v);
}
);
}
function runDijkstra(g, source, weightFn, edgeFn) {
var results = {};
var pq = new PriorityQueue();
var v, vEntry;
var updateNeighbors = function (edge) {
var w = edge.v !== v ? edge.v : edge.w;
var wEntry = results[w];
var weight = weightFn(edge);
var distance = vEntry.distance + weight;
if (weight < 0) {
throw new Error(
'dijkstra does not allow negative edge weights. ' +
'Bad edge: ' +
edge +
' Weight: ' +
weight
);
}
if (distance < wEntry.distance) {
wEntry.distance = distance;
wEntry.predecessor = v;
pq.decrease(w, distance);
}
};
g.nodes().forEach(function (v) {
var distance = v === source ? 0 : Number.POSITIVE_INFINITY;
results[v] = { distance: distance };
pq.add(v, distance);
});
while (pq.size() > 0) {
v = pq.removeMin();
vEntry = results[v];
if (vEntry.distance === Number.POSITIVE_INFINITY) {
break;
}
edgeFn(v).forEach(updateNeighbors);
}
return results;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/dijkstra-all.js
function dijkstraAll(g, weightFunc, edgeFunc) {
return _.transform(
g.nodes(),
function (acc, v) {
acc[v] = dijkstra(g, v, weightFunc, edgeFunc);
},
{}
);
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/floyd-warshall.js
var floyd_warshall_DEFAULT_WEIGHT_FUNC = constant/* default */.Z(1);
function floydWarshall(g, weightFn, edgeFn) {
return runFloydWarshall(
g,
weightFn || floyd_warshall_DEFAULT_WEIGHT_FUNC,
edgeFn ||
function (v) {
return g.outEdges(v);
}
);
}
function runFloydWarshall(g, weightFn, edgeFn) {
var results = {};
var nodes = g.nodes();
nodes.forEach(function (v) {
results[v] = {};
results[v][v] = { distance: 0 };
nodes.forEach(function (w) {
if (v !== w) {
results[v][w] = { distance: Number.POSITIVE_INFINITY };
}
});
edgeFn(v).forEach(function (edge) {
var w = edge.v === v ? edge.w : edge.v;
var d = weightFn(edge);
results[v][w] = { distance: d, predecessor: v };
});
});
nodes.forEach(function (k) {
var rowK = results[k];
nodes.forEach(function (i) {
var rowI = results[i];
nodes.forEach(function (j) {
var ik = rowI[k];
var kj = rowK[j];
var ij = rowI[j];
var altDistance = ik.distance + kj.distance;
if (altDistance < ij.distance) {
ij.distance = altDistance;
ij.predecessor = kj.predecessor;
}
});
});
});
return results;
}
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseKeys.js + 1 modules
var _baseKeys = __webpack_require__(39473);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getTag.js + 3 modules
var _getTag = __webpack_require__(83970);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseGetTag.js + 2 modules
var _baseGetTag = __webpack_require__(93589);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObjectLike.js
var isObjectLike = __webpack_require__(18533);
;// CONCATENATED MODULE: ./node_modules/lodash-es/isString.js
/** `Object#toString` result references. */
var stringTag = '[object String]';
/**
* Checks if `value` is classified as a `String` primitive or object.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a string, else `false`.
* @example
*
* _.isString('abc');
* // => true
*
* _.isString(1);
* // => false
*/
function isString(value) {
return typeof value == 'string' ||
(!(0,isArray/* default */.Z)(value) && (0,isObjectLike/* default */.Z)(value) && (0,_baseGetTag/* default */.Z)(value) == stringTag);
}
/* harmony default export */ const lodash_es_isString = (isString);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseProperty.js
var _baseProperty = __webpack_require__(54193);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_asciiSize.js
/**
* Gets the size of an ASCII `string`.
*
* @private
* @param {string} string The string inspect.
* @returns {number} Returns the string size.
*/
var asciiSize = (0,_baseProperty/* default */.Z)('length');
/* harmony default export */ const _asciiSize = (asciiSize);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_hasUnicode.js
/** Used to compose unicode character classes. */
var rsAstralRange = '\\ud800-\\udfff',
rsComboMarksRange = '\\u0300-\\u036f',
reComboHalfMarksRange = '\\ufe20-\\ufe2f',
rsComboSymbolsRange = '\\u20d0-\\u20ff',
rsComboRange = rsComboMarksRange + reComboHalfMarksRange + rsComboSymbolsRange,
rsVarRange = '\\ufe0e\\ufe0f';
/** Used to compose unicode capture groups. */
var rsZWJ = '\\u200d';
/** Used to detect strings with [zero-width joiners or code points from the astral planes](http://eev.ee/blog/2015/09/12/dark-corners-of-unicode/). */
var reHasUnicode = RegExp('[' + rsZWJ + rsAstralRange + rsComboRange + rsVarRange + ']');
/**
* Checks if `string` contains Unicode symbols.
*
* @private
* @param {string} string The string to inspect.
* @returns {boolean} Returns `true` if a symbol is found, else `false`.
*/
function hasUnicode(string) {
return reHasUnicode.test(string);
}
/* harmony default export */ const _hasUnicode = (hasUnicode);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_unicodeSize.js
/** Used to compose unicode character classes. */
var _unicodeSize_rsAstralRange = '\\ud800-\\udfff',
_unicodeSize_rsComboMarksRange = '\\u0300-\\u036f',
_unicodeSize_reComboHalfMarksRange = '\\ufe20-\\ufe2f',
_unicodeSize_rsComboSymbolsRange = '\\u20d0-\\u20ff',
_unicodeSize_rsComboRange = _unicodeSize_rsComboMarksRange + _unicodeSize_reComboHalfMarksRange + _unicodeSize_rsComboSymbolsRange,
_unicodeSize_rsVarRange = '\\ufe0e\\ufe0f';
/** Used to compose unicode capture groups. */
var rsAstral = '[' + _unicodeSize_rsAstralRange + ']',
rsCombo = '[' + _unicodeSize_rsComboRange + ']',
rsFitz = '\\ud83c[\\udffb-\\udfff]',
rsModifier = '(?:' + rsCombo + '|' + rsFitz + ')',
rsNonAstral = '[^' + _unicodeSize_rsAstralRange + ']',
rsRegional = '(?:\\ud83c[\\udde6-\\uddff]){2}',
rsSurrPair = '[\\ud800-\\udbff][\\udc00-\\udfff]',
_unicodeSize_rsZWJ = '\\u200d';
/** Used to compose unicode regexes. */
var reOptMod = rsModifier + '?',
rsOptVar = '[' + _unicodeSize_rsVarRange + ']?',
rsOptJoin = '(?:' + _unicodeSize_rsZWJ + '(?:' + [rsNonAstral, rsRegional, rsSurrPair].join('|') + ')' + rsOptVar + reOptMod + ')*',
rsSeq = rsOptVar + reOptMod + rsOptJoin,
rsSymbol = '(?:' + [rsNonAstral + rsCombo + '?', rsCombo, rsRegional, rsSurrPair, rsAstral].join('|') + ')';
/** Used to match [string symbols](https://mathiasbynens.be/notes/javascript-unicode). */
var reUnicode = RegExp(rsFitz + '(?=' + rsFitz + ')|' + rsSymbol + rsSeq, 'g');
/**
* Gets the size of a Unicode `string`.
*
* @private
* @param {string} string The string inspect.
* @returns {number} Returns the string size.
*/
function unicodeSize(string) {
var result = reUnicode.lastIndex = 0;
while (reUnicode.test(string)) {
++result;
}
return result;
}
/* harmony default export */ const _unicodeSize = (unicodeSize);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_stringSize.js
/**
* Gets the number of symbols in `string`.
*
* @private
* @param {string} string The string to inspect.
* @returns {number} Returns the string size.
*/
function stringSize(string) {
return _hasUnicode(string)
? _unicodeSize(string)
: _asciiSize(string);
}
/* harmony default export */ const _stringSize = (stringSize);
;// CONCATENATED MODULE: ./node_modules/lodash-es/size.js
/** `Object#toString` result references. */
var mapTag = '[object Map]',
setTag = '[object Set]';
/**
* Gets the size of `collection` by returning its length for array-like
* values or the number of own enumerable string keyed properties for objects.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object|string} collection The collection to inspect.
* @returns {number} Returns the collection size.
* @example
*
* _.size([1, 2, 3]);
* // => 3
*
* _.size({ 'a': 1, 'b': 2 });
* // => 2
*
* _.size('pebbles');
* // => 7
*/
function size(collection) {
if (collection == null) {
return 0;
}
if ((0,isArrayLike/* default */.Z)(collection)) {
return lodash_es_isString(collection) ? _stringSize(collection) : collection.length;
}
var tag = (0,_getTag/* default */.Z)(collection);
if (tag == mapTag || tag == setTag) {
return collection.size;
}
return (0,_baseKeys/* default */.Z)(collection).length;
}
/* harmony default export */ const lodash_es_size = (size);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/topsort.js
topsort_topsort.CycleException = topsort_CycleException;
function topsort_topsort(g) {
var visited = {};
var stack = {};
var results = [];
function visit(node) {
if (has/* default */.Z(stack, node)) {
throw new topsort_CycleException();
}
if (!has/* default */.Z(visited, node)) {
stack[node] = true;
visited[node] = true;
forEach/* default */.Z(g.predecessors(node), visit);
delete stack[node];
results.push(node);
}
}
forEach/* default */.Z(g.sinks(), visit);
if (lodash_es_size(visited) !== g.nodeCount()) {
throw new topsort_CycleException();
}
return results;
}
function topsort_CycleException() {}
topsort_CycleException.prototype = new Error(); // must be an instance of Error to pass testing
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/is-acyclic.js
function isAcyclic(g) {
try {
topsort(g);
} catch (e) {
if (e instanceof CycleException) {
return false;
}
throw e;
}
return true;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/dfs.js
/*
* A helper that preforms a pre- or post-order traversal on the input graph
* and returns the nodes in the order they were visited. If the graph is
* undirected then this algorithm will navigate using neighbors. If the graph
* is directed then this algorithm will navigate using successors.
*
* Order must be one of "pre" or "post".
*/
function dfs(g, vs, order) {
if (!isArray/* default */.Z(vs)) {
vs = [vs];
}
var navigation = (g.isDirected() ? g.successors : g.neighbors).bind(g);
var acc = [];
var visited = {};
forEach/* default */.Z(vs, function (v) {
if (!g.hasNode(v)) {
throw new Error('Graph does not have node: ' + v);
}
doDfs(g, v, order === 'post', visited, navigation, acc);
});
return acc;
}
function doDfs(g, v, postorder, visited, navigation, acc) {
if (!has/* default */.Z(visited, v)) {
visited[v] = true;
if (!postorder) {
acc.push(v);
}
forEach/* default */.Z(navigation(v), function (w) {
doDfs(g, w, postorder, visited, navigation, acc);
});
if (postorder) {
acc.push(v);
}
}
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/postorder.js
function postorder(g, vs) {
return dfs(g, vs, 'post');
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/preorder.js
function preorder(g, vs) {
return dfs(g, vs, 'pre');
}
// EXTERNAL MODULE: ./node_modules/dagre-d3-es/src/graphlib/graph.js + 9 modules
var graph = __webpack_require__(52544);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/prim.js
function prim(g, weightFunc) {
var result = new Graph();
var parents = {};
var pq = new PriorityQueue();
var v;
function updateNeighbors(edge) {
var w = edge.v === v ? edge.w : edge.v;
var pri = pq.priority(w);
if (pri !== undefined) {
var edgeWeight = weightFunc(edge);
if (edgeWeight < pri) {
parents[w] = v;
pq.decrease(w, edgeWeight);
}
}
}
if (g.nodeCount() === 0) {
return result;
}
_.each(g.nodes(), function (v) {
pq.add(v, Number.POSITIVE_INFINITY);
result.setNode(v);
});
// Start from an arbitrary node
pq.decrease(g.nodes()[0], 0);
var init = false;
while (pq.size() > 0) {
v = pq.removeMin();
if (_.has(parents, v)) {
result.setEdge(v, parents[v]);
} else if (init) {
throw new Error('Input graph is not connected: ' + g);
} else {
init = true;
}
g.nodeEdges(v).forEach(updateNeighbors);
}
return result;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/alg/index.js
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/rank/network-simplex.js
// Expose some internals for testing purposes
networkSimplex.initLowLimValues = initLowLimValues;
networkSimplex.initCutValues = initCutValues;
networkSimplex.calcCutValue = calcCutValue;
networkSimplex.leaveEdge = leaveEdge;
networkSimplex.enterEdge = enterEdge;
networkSimplex.exchangeEdges = exchangeEdges;
/*
* The network simplex algorithm assigns ranks to each node in the input graph
* and iteratively improves the ranking to reduce the length of edges.
*
* Preconditions:
*
* 1. The input graph must be a DAG.
* 2. All nodes in the graph must have an object value.
* 3. All edges in the graph must have "minlen" and "weight" attributes.
*
* Postconditions:
*
* 1. All nodes in the graph will have an assigned "rank" attribute that has
* been optimized by the network simplex algorithm. Ranks start at 0.
*
*
* A rough sketch of the algorithm is as follows:
*
* 1. Assign initial ranks to each node. We use the longest path algorithm,
* which assigns ranks to the lowest position possible. In general this
* leads to very wide bottom ranks and unnecessarily long edges.
* 2. Construct a feasible tight tree. A tight tree is one such that all
* edges in the tree have no slack (difference between length of edge
* and minlen for the edge). This by itself greatly improves the assigned
* rankings by shorting edges.
* 3. Iteratively find edges that have negative cut values. Generally a
* negative cut value indicates that the edge could be removed and a new
* tree edge could be added to produce a more compact graph.
*
* Much of the algorithms here are derived from Gansner, et al., "A Technique
* for Drawing Directed Graphs." The structure of the file roughly follows the
* structure of the overall algorithm.
*/
function networkSimplex(g) {
g = simplify(g);
longestPath(g);
var t = feasibleTree(g);
initLowLimValues(t);
initCutValues(t, g);
var e, f;
while ((e = leaveEdge(t))) {
f = enterEdge(t, g, e);
exchangeEdges(t, g, e, f);
}
}
/*
* Initializes cut values for all edges in the tree.
*/
function initCutValues(t, g) {
var vs = postorder(t, t.nodes());
vs = vs.slice(0, vs.length - 1);
forEach/* default */.Z(vs, function (v) {
assignCutValue(t, g, v);
});
}
function assignCutValue(t, g, child) {
var childLab = t.node(child);
var parent = childLab.parent;
t.edge(child, parent).cutvalue = calcCutValue(t, g, child);
}
/*
* Given the tight tree, its graph, and a child in the graph calculate and
* return the cut value for the edge between the child and its parent.
*/
function calcCutValue(t, g, child) {
var childLab = t.node(child);
var parent = childLab.parent;
// True if the child is on the tail end of the edge in the directed graph
var childIsTail = true;
// The graph's view of the tree edge we're inspecting
var graphEdge = g.edge(child, parent);
// The accumulated cut value for the edge between this node and its parent
var cutValue = 0;
if (!graphEdge) {
childIsTail = false;
graphEdge = g.edge(parent, child);
}
cutValue = graphEdge.weight;
forEach/* default */.Z(g.nodeEdges(child), function (e) {
var isOutEdge = e.v === child,
other = isOutEdge ? e.w : e.v;
if (other !== parent) {
var pointsToHead = isOutEdge === childIsTail,
otherWeight = g.edge(e).weight;
cutValue += pointsToHead ? otherWeight : -otherWeight;
if (isTreeEdge(t, child, other)) {
var otherCutValue = t.edge(child, other).cutvalue;
cutValue += pointsToHead ? -otherCutValue : otherCutValue;
}
}
});
return cutValue;
}
function initLowLimValues(tree, root) {
if (arguments.length < 2) {
root = tree.nodes()[0];
}
dfsAssignLowLim(tree, {}, 1, root);
}
function dfsAssignLowLim(tree, visited, nextLim, v, parent) {
var low = nextLim;
var label = tree.node(v);
visited[v] = true;
forEach/* default */.Z(tree.neighbors(v), function (w) {
if (!has/* default */.Z(visited, w)) {
nextLim = dfsAssignLowLim(tree, visited, nextLim, w, v);
}
});
label.low = low;
label.lim = nextLim++;
if (parent) {
label.parent = parent;
} else {
// TODO should be able to remove this when we incrementally update low lim
delete label.parent;
}
return nextLim;
}
function leaveEdge(tree) {
return lodash_es_find(tree.edges(), function (e) {
return tree.edge(e).cutvalue < 0;
});
}
function enterEdge(t, g, edge) {
var v = edge.v;
var w = edge.w;
// For the rest of this function we assume that v is the tail and w is the
// head, so if we don't have this edge in the graph we should flip it to
// match the correct orientation.
if (!g.hasEdge(v, w)) {
v = edge.w;
w = edge.v;
}
var vLabel = t.node(v);
var wLabel = t.node(w);
var tailLabel = vLabel;
var flip = false;
// If the root is in the tail of the edge then we need to flip the logic that
// checks for the head and tail nodes in the candidates function below.
if (vLabel.lim > wLabel.lim) {
tailLabel = wLabel;
flip = true;
}
var candidates = filter/* default */.Z(g.edges(), function (edge) {
return (
flip === isDescendant(t, t.node(edge.v), tailLabel) &&
flip !== isDescendant(t, t.node(edge.w), tailLabel)
);
});
return lodash_es_minBy(candidates, function (edge) {
return slack(g, edge);
});
}
function exchangeEdges(t, g, e, f) {
var v = e.v;
var w = e.w;
t.removeEdge(v, w);
t.setEdge(f.v, f.w, {});
initLowLimValues(t);
initCutValues(t, g);
updateRanks(t, g);
}
function updateRanks(t, g) {
var root = lodash_es_find(t.nodes(), function (v) {
return !g.node(v).parent;
});
var vs = preorder(t, root);
vs = vs.slice(1);
forEach/* default */.Z(vs, function (v) {
var parent = t.node(v).parent,
edge = g.edge(v, parent),
flipped = false;
if (!edge) {
edge = g.edge(parent, v);
flipped = true;
}
g.node(v).rank = g.node(parent).rank + (flipped ? edge.minlen : -edge.minlen);
});
}
/*
* Returns true if the edge is in the tree.
*/
function isTreeEdge(tree, u, v) {
return tree.hasEdge(u, v);
}
/*
* Returns true if the specified node is descendant of the root node per the
* assigned low and lim attributes in the tree.
*/
function isDescendant(tree, vLabel, rootLabel) {
return rootLabel.low <= vLabel.lim && vLabel.lim <= rootLabel.lim;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/rank/index.js
/*
* Assigns a rank to each node in the input graph that respects the "minlen"
* constraint specified on edges between nodes.
*
* This basic structure is derived from Gansner, et al., "A Technique for
* Drawing Directed Graphs."
*
* Pre-conditions:
*
* 1. Graph must be a connected DAG
* 2. Graph nodes must be objects
* 3. Graph edges must have "weight" and "minlen" attributes
*
* Post-conditions:
*
* 1. Graph nodes will have a "rank" attribute based on the results of the
* algorithm. Ranks can start at any index (including negative), we'll
* fix them up later.
*/
function rank(g) {
switch (g.graph().ranker) {
case 'network-simplex':
networkSimplexRanker(g);
break;
case 'tight-tree':
tightTreeRanker(g);
break;
case 'longest-path':
longestPathRanker(g);
break;
default:
networkSimplexRanker(g);
}
}
// A fast and simple ranker, but results are far from optimal.
var longestPathRanker = longestPath;
function tightTreeRanker(g) {
longestPath(g);
feasibleTree(g);
}
function networkSimplexRanker(g) {
networkSimplex(g);
}
// EXTERNAL MODULE: ./node_modules/lodash-es/values.js + 1 modules
var values = __webpack_require__(34148);
// EXTERNAL MODULE: ./node_modules/lodash-es/reduce.js + 2 modules
var reduce = __webpack_require__(92344);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/nesting-graph.js
/*
* A nesting graph creates dummy nodes for the tops and bottoms of subgraphs,
* adds appropriate edges to ensure that all cluster nodes are placed between
* these boundries, and ensures that the graph is connected.
*
* In addition we ensure, through the use of the minlen property, that nodes
* and subgraph border nodes to not end up on the same rank.
*
* Preconditions:
*
* 1. Input graph is a DAG
* 2. Nodes in the input graph has a minlen attribute
*
* Postconditions:
*
* 1. Input graph is connected.
* 2. Dummy nodes are added for the tops and bottoms of subgraphs.
* 3. The minlen attribute for nodes is adjusted to ensure nodes do not
* get placed on the same rank as subgraph border nodes.
*
* The nesting graph idea comes from Sander, "Layout of Compound Directed
* Graphs."
*/
function nesting_graph_run(g) {
var root = addDummyNode(g, 'root', {}, '_root');
var depths = treeDepths(g);
var height = lodash_es_max(values/* default */.Z(depths)) - 1; // Note: depths is an Object not an array
var nodeSep = 2 * height + 1;
g.graph().nestingRoot = root;
// Multiply minlen by nodeSep to align nodes on non-border ranks.
forEach/* default */.Z(g.edges(), function (e) {
g.edge(e).minlen *= nodeSep;
});
// Calculate a weight that is sufficient to keep subgraphs vertically compact
var weight = sumWeights(g) + 1;
// Create border nodes and link them up
forEach/* default */.Z(g.children(), function (child) {
nesting_graph_dfs(g, root, nodeSep, weight, height, depths, child);
});
// Save the multiplier for node layers for later removal of empty border
// layers.
g.graph().nodeRankFactor = nodeSep;
}
function nesting_graph_dfs(g, root, nodeSep, weight, height, depths, v) {
var children = g.children(v);
if (!children.length) {
if (v !== root) {
g.setEdge(root, v, { weight: 0, minlen: nodeSep });
}
return;
}
var top = addBorderNode(g, '_bt');
var bottom = addBorderNode(g, '_bb');
var label = g.node(v);
g.setParent(top, v);
label.borderTop = top;
g.setParent(bottom, v);
label.borderBottom = bottom;
forEach/* default */.Z(children, function (child) {
nesting_graph_dfs(g, root, nodeSep, weight, height, depths, child);
var childNode = g.node(child);
var childTop = childNode.borderTop ? childNode.borderTop : child;
var childBottom = childNode.borderBottom ? childNode.borderBottom : child;
var thisWeight = childNode.borderTop ? weight : 2 * weight;
var minlen = childTop !== childBottom ? 1 : height - depths[v] + 1;
g.setEdge(top, childTop, {
weight: thisWeight,
minlen: minlen,
nestingEdge: true,
});
g.setEdge(childBottom, bottom, {
weight: thisWeight,
minlen: minlen,
nestingEdge: true,
});
});
if (!g.parent(v)) {
g.setEdge(root, top, { weight: 0, minlen: height + depths[v] });
}
}
function treeDepths(g) {
var depths = {};
function dfs(v, depth) {
var children = g.children(v);
if (children && children.length) {
forEach/* default */.Z(children, function (child) {
dfs(child, depth + 1);
});
}
depths[v] = depth;
}
forEach/* default */.Z(g.children(), function (v) {
dfs(v, 1);
});
return depths;
}
function sumWeights(g) {
return reduce/* default */.Z(
g.edges(),
function (acc, e) {
return acc + g.edge(e).weight;
},
0
);
}
function cleanup(g) {
var graphLabel = g.graph();
g.removeNode(graphLabel.nestingRoot);
delete graphLabel.nestingRoot;
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
if (edge.nestingEdge) {
g.removeEdge(e);
}
});
}
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseClone.js + 15 modules
var _baseClone = __webpack_require__(48451);
;// CONCATENATED MODULE: ./node_modules/lodash-es/cloneDeep.js
/** Used to compose bitmasks for cloning. */
var CLONE_DEEP_FLAG = 1,
CLONE_SYMBOLS_FLAG = 4;
/**
* This method is like `_.clone` except that it recursively clones `value`.
*
* @static
* @memberOf _
* @since 1.0.0
* @category Lang
* @param {*} value The value to recursively clone.
* @returns {*} Returns the deep cloned value.
* @see _.clone
* @example
*
* var objects = [{ 'a': 1 }, { 'b': 2 }];
*
* var deep = _.cloneDeep(objects);
* console.log(deep[0] === objects[0]);
* // => false
*/
function cloneDeep(value) {
return (0,_baseClone/* default */.Z)(value, CLONE_DEEP_FLAG | CLONE_SYMBOLS_FLAG);
}
/* harmony default export */ const lodash_es_cloneDeep = (cloneDeep);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/add-subgraph-constraints.js
function addSubgraphConstraints(g, cg, vs) {
var prev = {},
rootPrev;
forEach/* default */.Z(vs, function (v) {
var child = g.parent(v),
parent,
prevChild;
while (child) {
parent = g.parent(child);
if (parent) {
prevChild = prev[parent];
prev[parent] = child;
} else {
prevChild = rootPrev;
rootPrev = child;
}
if (prevChild && prevChild !== child) {
cg.setEdge(prevChild, child);
return;
}
child = parent;
}
});
/*
function dfs(v) {
var children = v ? g.children(v) : g.children();
if (children.length) {
var min = Number.POSITIVE_INFINITY,
subgraphs = [];
_.each(children, function(child) {
var childMin = dfs(child);
if (g.children(child).length) {
subgraphs.push({ v: child, order: childMin });
}
min = Math.min(min, childMin);
});
_.reduce(_.sortBy(subgraphs, "order"), function(prev, curr) {
cg.setEdge(prev.v, curr.v);
return curr;
});
return min;
}
return g.node(v).order;
}
dfs(undefined);
*/
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/build-layer-graph.js
/*
* Constructs a graph that can be used to sort a layer of nodes. The graph will
* contain all base and subgraph nodes from the request layer in their original
* hierarchy and any edges that are incident on these nodes and are of the type
* requested by the "relationship" parameter.
*
* Nodes from the requested rank that do not have parents are assigned a root
* node in the output graph, which is set in the root graph attribute. This
* makes it easy to walk the hierarchy of movable nodes during ordering.
*
* Pre-conditions:
*
* 1. Input graph is a DAG
* 2. Base nodes in the input graph have a rank attribute
* 3. Subgraph nodes in the input graph has minRank and maxRank attributes
* 4. Edges have an assigned weight
*
* Post-conditions:
*
* 1. Output graph has all nodes in the movable rank with preserved
* hierarchy.
* 2. Root nodes in the movable layer are made children of the node
* indicated by the root attribute of the graph.
* 3. Non-movable nodes incident on movable nodes, selected by the
* relationship parameter, are included in the graph (without hierarchy).
* 4. Edges incident on movable nodes, selected by the relationship
* parameter, are added to the output graph.
* 5. The weights for copied edges are aggregated as need, since the output
* graph is not a multi-graph.
*/
function buildLayerGraph(g, rank, relationship) {
var root = createRootNode(g),
result = new graphlib/* Graph */.k({ compound: true })
.setGraph({ root: root })
.setDefaultNodeLabel(function (v) {
return g.node(v);
});
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v),
parent = g.parent(v);
if (node.rank === rank || (node.minRank <= rank && rank <= node.maxRank)) {
result.setNode(v);
result.setParent(v, parent || root);
// This assumes we have only short edges!
forEach/* default */.Z(g[relationship](v), function (e) {
var u = e.v === v ? e.w : e.v,
edge = result.edge(u, v),
weight = !isUndefined/* default */.Z(edge) ? edge.weight : 0;
result.setEdge(u, v, { weight: g.edge(e).weight + weight });
});
if (has/* default */.Z(node, 'minRank')) {
result.setNode(v, {
borderLeft: node.borderLeft[rank],
borderRight: node.borderRight[rank],
});
}
}
});
return result;
}
function createRootNode(g) {
var v;
while (g.hasNode((v = uniqueId/* default */.Z('_root'))));
return v;
}
// EXTERNAL MODULE: ./node_modules/lodash-es/_assignValue.js
var _assignValue = __webpack_require__(72954);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseZipObject.js
/**
* This base implementation of `_.zipObject` which assigns values using `assignFunc`.
*
* @private
* @param {Array} props The property identifiers.
* @param {Array} values The property values.
* @param {Function} assignFunc The function to assign values.
* @returns {Object} Returns the new object.
*/
function baseZipObject(props, values, assignFunc) {
var index = -1,
length = props.length,
valsLength = values.length,
result = {};
while (++index < length) {
var value = index < valsLength ? values[index] : undefined;
assignFunc(result, props[index], value);
}
return result;
}
/* harmony default export */ const _baseZipObject = (baseZipObject);
;// CONCATENATED MODULE: ./node_modules/lodash-es/zipObject.js
/**
* This method is like `_.fromPairs` except that it accepts two arrays,
* one of property identifiers and one of corresponding values.
*
* @static
* @memberOf _
* @since 0.4.0
* @category Array
* @param {Array} [props=[]] The property identifiers.
* @param {Array} [values=[]] The property values.
* @returns {Object} Returns the new object.
* @example
*
* _.zipObject(['a', 'b'], [1, 2]);
* // => { 'a': 1, 'b': 2 }
*/
function zipObject(props, values) {
return _baseZipObject(props || [], values || [], _assignValue/* default */.Z);
}
/* harmony default export */ const lodash_es_zipObject = (zipObject);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseFlatten.js + 1 modules
var _baseFlatten = __webpack_require__(10626);
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayMap.js
var _arrayMap = __webpack_require__(74073);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseGet.js
var _baseGet = __webpack_require__(13317);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseMap.js
var _baseMap = __webpack_require__(21018);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseSortBy.js
/**
* The base implementation of `_.sortBy` which uses `comparer` to define the
* sort order of `array` and replaces criteria objects with their corresponding
* values.
*
* @private
* @param {Array} array The array to sort.
* @param {Function} comparer The function to define sort order.
* @returns {Array} Returns `array`.
*/
function baseSortBy(array, comparer) {
var length = array.length;
array.sort(comparer);
while (length--) {
array[length] = array[length].value;
}
return array;
}
/* harmony default export */ const _baseSortBy = (baseSortBy);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseUnary.js
var _baseUnary = __webpack_require__(21162);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_compareAscending.js
/**
* Compares values to sort them in ascending order.
*
* @private
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {number} Returns the sort order indicator for `value`.
*/
function compareAscending(value, other) {
if (value !== other) {
var valIsDefined = value !== undefined,
valIsNull = value === null,
valIsReflexive = value === value,
valIsSymbol = (0,isSymbol/* default */.Z)(value);
var othIsDefined = other !== undefined,
othIsNull = other === null,
othIsReflexive = other === other,
othIsSymbol = (0,isSymbol/* default */.Z)(other);
if ((!othIsNull && !othIsSymbol && !valIsSymbol && value > other) ||
(valIsSymbol && othIsDefined && othIsReflexive && !othIsNull && !othIsSymbol) ||
(valIsNull && othIsDefined && othIsReflexive) ||
(!valIsDefined && othIsReflexive) ||
!valIsReflexive) {
return 1;
}
if ((!valIsNull && !valIsSymbol && !othIsSymbol && value < other) ||
(othIsSymbol && valIsDefined && valIsReflexive && !valIsNull && !valIsSymbol) ||
(othIsNull && valIsDefined && valIsReflexive) ||
(!othIsDefined && valIsReflexive) ||
!othIsReflexive) {
return -1;
}
}
return 0;
}
/* harmony default export */ const _compareAscending = (compareAscending);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_compareMultiple.js
/**
* Used by `_.orderBy` to compare multiple properties of a value to another
* and stable sort them.
*
* If `orders` is unspecified, all values are sorted in ascending order. Otherwise,
* specify an order of "desc" for descending or "asc" for ascending sort order
* of corresponding values.
*
* @private
* @param {Object} object The object to compare.
* @param {Object} other The other object to compare.
* @param {boolean[]|string[]} orders The order to sort by for each property.
* @returns {number} Returns the sort order indicator for `object`.
*/
function compareMultiple(object, other, orders) {
var index = -1,
objCriteria = object.criteria,
othCriteria = other.criteria,
length = objCriteria.length,
ordersLength = orders.length;
while (++index < length) {
var result = _compareAscending(objCriteria[index], othCriteria[index]);
if (result) {
if (index >= ordersLength) {
return result;
}
var order = orders[index];
return result * (order == 'desc' ? -1 : 1);
}
}
// Fixes an `Array#sort` bug in the JS engine embedded in Adobe applications
// that causes it, under certain circumstances, to provide the same value for
// `object` and `other`. See https://github.com/jashkenas/underscore/pull/1247
// for more details.
//
// This also ensures a stable sort in V8 and other engines.
// See https://bugs.chromium.org/p/v8/issues/detail?id=90 for more details.
return object.index - other.index;
}
/* harmony default export */ const _compareMultiple = (compareMultiple);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseOrderBy.js
/**
* The base implementation of `_.orderBy` without param guards.
*
* @private
* @param {Array|Object} collection The collection to iterate over.
* @param {Function[]|Object[]|string[]} iteratees The iteratees to sort by.
* @param {string[]} orders The sort orders of `iteratees`.
* @returns {Array} Returns the new sorted array.
*/
function baseOrderBy(collection, iteratees, orders) {
if (iteratees.length) {
iteratees = (0,_arrayMap/* default */.Z)(iteratees, function(iteratee) {
if ((0,isArray/* default */.Z)(iteratee)) {
return function(value) {
return (0,_baseGet/* default */.Z)(value, iteratee.length === 1 ? iteratee[0] : iteratee);
}
}
return iteratee;
});
} else {
iteratees = [identity/* default */.Z];
}
var index = -1;
iteratees = (0,_arrayMap/* default */.Z)(iteratees, (0,_baseUnary/* default */.Z)(_baseIteratee/* default */.Z));
var result = (0,_baseMap/* default */.Z)(collection, function(value, key, collection) {
var criteria = (0,_arrayMap/* default */.Z)(iteratees, function(iteratee) {
return iteratee(value);
});
return { 'criteria': criteria, 'index': ++index, 'value': value };
});
return _baseSortBy(result, function(object, other) {
return _compareMultiple(object, other, orders);
});
}
/* harmony default export */ const _baseOrderBy = (baseOrderBy);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseRest.js
var _baseRest = __webpack_require__(69581);
// EXTERNAL MODULE: ./node_modules/lodash-es/_isIterateeCall.js
var _isIterateeCall = __webpack_require__(50439);
;// CONCATENATED MODULE: ./node_modules/lodash-es/sortBy.js
/**
* Creates an array of elements, sorted in ascending order by the results of
* running each element in a collection thru each iteratee. This method
* performs a stable sort, that is, it preserves the original sort order of
* equal elements. The iteratees are invoked with one argument: (value).
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object} collection The collection to iterate over.
* @param {...(Function|Function[])} [iteratees=[_.identity]]
* The iteratees to sort by.
* @returns {Array} Returns the new sorted array.
* @example
*
* var users = [
* { 'user': 'fred', 'age': 48 },
* { 'user': 'barney', 'age': 36 },
* { 'user': 'fred', 'age': 30 },
* { 'user': 'barney', 'age': 34 }
* ];
*
* _.sortBy(users, [function(o) { return o.user; }]);
* // => objects for [['barney', 36], ['barney', 34], ['fred', 48], ['fred', 30]]
*
* _.sortBy(users, ['user', 'age']);
* // => objects for [['barney', 34], ['barney', 36], ['fred', 30], ['fred', 48]]
*/
var sortBy = (0,_baseRest/* default */.Z)(function(collection, iteratees) {
if (collection == null) {
return [];
}
var length = iteratees.length;
if (length > 1 && (0,_isIterateeCall/* default */.Z)(collection, iteratees[0], iteratees[1])) {
iteratees = [];
} else if (length > 2 && (0,_isIterateeCall/* default */.Z)(iteratees[0], iteratees[1], iteratees[2])) {
iteratees = [iteratees[0]];
}
return _baseOrderBy(collection, (0,_baseFlatten/* default */.Z)(iteratees, 1), []);
});
/* harmony default export */ const lodash_es_sortBy = (sortBy);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/cross-count.js
/*
* A function that takes a layering (an array of layers, each with an array of
* ordererd nodes) and a graph and returns a weighted crossing count.
*
* Pre-conditions:
*
* 1. Input graph must be simple (not a multigraph), directed, and include
* only simple edges.
* 2. Edges in the input graph must have assigned weights.
*
* Post-conditions:
*
* 1. The graph and layering matrix are left unchanged.
*
* This algorithm is derived from Barth, et al., "Bilayer Cross Counting."
*/
function crossCount(g, layering) {
var cc = 0;
for (var i = 1; i < layering.length; ++i) {
cc += twoLayerCrossCount(g, layering[i - 1], layering[i]);
}
return cc;
}
function twoLayerCrossCount(g, northLayer, southLayer) {
// Sort all of the edges between the north and south layers by their position
// in the north layer and then the south. Map these edges to the position of
// their head in the south layer.
var southPos = lodash_es_zipObject(
southLayer,
map/* default */.Z(southLayer, function (v, i) {
return i;
})
);
var southEntries = flatten/* default */.Z(
map/* default */.Z(northLayer, function (v) {
return lodash_es_sortBy(
map/* default */.Z(g.outEdges(v), function (e) {
return { pos: southPos[e.w], weight: g.edge(e).weight };
}),
'pos'
);
})
);
// Build the accumulator tree
var firstIndex = 1;
while (firstIndex < southLayer.length) firstIndex <<= 1;
var treeSize = 2 * firstIndex - 1;
firstIndex -= 1;
var tree = map/* default */.Z(new Array(treeSize), function () {
return 0;
});
// Calculate the weighted crossings
var cc = 0;
forEach/* default */.Z(
// @ts-expect-error
southEntries.forEach(function (entry) {
var index = entry.pos + firstIndex;
tree[index] += entry.weight;
var weightSum = 0;
// @ts-expect-error
while (index > 0) {
// @ts-expect-error
if (index % 2) {
weightSum += tree[index + 1];
}
// @ts-expect-error
index = (index - 1) >> 1;
tree[index] += entry.weight;
}
cc += entry.weight * weightSum;
})
);
return cc;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/init-order.js
/*
* Assigns an initial order value for each node by performing a DFS search
* starting from nodes in the first rank. Nodes are assigned an order in their
* rank as they are first visited.
*
* This approach comes from Gansner, et al., "A Technique for Drawing Directed
* Graphs."
*
* Returns a layering matrix with an array per layer and each layer sorted by
* the order of its nodes.
*/
function initOrder(g) {
var visited = {};
var simpleNodes = filter/* default */.Z(g.nodes(), function (v) {
return !g.children(v).length;
});
var maxRank = lodash_es_max(
map/* default */.Z(simpleNodes, function (v) {
return g.node(v).rank;
})
);
var layers = map/* default */.Z(range/* default */.Z(maxRank + 1), function () {
return [];
});
function dfs(v) {
if (has/* default */.Z(visited, v)) return;
visited[v] = true;
var node = g.node(v);
layers[node.rank].push(v);
forEach/* default */.Z(g.successors(v), dfs);
}
var orderedVs = lodash_es_sortBy(simpleNodes, function (v) {
return g.node(v).rank;
});
forEach/* default */.Z(orderedVs, dfs);
return layers;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/barycenter.js
function barycenter(g, movable) {
return map/* default */.Z(movable, function (v) {
var inV = g.inEdges(v);
if (!inV.length) {
return { v: v };
} else {
var result = reduce/* default */.Z(
inV,
function (acc, e) {
var edge = g.edge(e),
nodeU = g.node(e.v);
return {
sum: acc.sum + edge.weight * nodeU.order,
weight: acc.weight + edge.weight,
};
},
{ sum: 0, weight: 0 }
);
return {
v: v,
barycenter: result.sum / result.weight,
weight: result.weight,
};
}
});
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/resolve-conflicts.js
/*
* Given a list of entries of the form {v, barycenter, weight} and a
* constraint graph this function will resolve any conflicts between the
* constraint graph and the barycenters for the entries. If the barycenters for
* an entry would violate a constraint in the constraint graph then we coalesce
* the nodes in the conflict into a new node that respects the contraint and
* aggregates barycenter and weight information.
*
* This implementation is based on the description in Forster, "A Fast and
* Simple Hueristic for Constrained Two-Level Crossing Reduction," thought it
* differs in some specific details.
*
* Pre-conditions:
*
* 1. Each entry has the form {v, barycenter, weight}, or if the node has
* no barycenter, then {v}.
*
* Returns:
*
* A new list of entries of the form {vs, i, barycenter, weight}. The list
* `vs` may either be a singleton or it may be an aggregation of nodes
* ordered such that they do not violate constraints from the constraint
* graph. The property `i` is the lowest original index of any of the
* elements in `vs`.
*/
function resolveConflicts(entries, cg) {
var mappedEntries = {};
forEach/* default */.Z(entries, function (entry, i) {
var tmp = (mappedEntries[entry.v] = {
indegree: 0,
in: [],
out: [],
vs: [entry.v],
i: i,
});
if (!isUndefined/* default */.Z(entry.barycenter)) {
// @ts-expect-error
tmp.barycenter = entry.barycenter;
// @ts-expect-error
tmp.weight = entry.weight;
}
});
forEach/* default */.Z(cg.edges(), function (e) {
var entryV = mappedEntries[e.v];
var entryW = mappedEntries[e.w];
if (!isUndefined/* default */.Z(entryV) && !isUndefined/* default */.Z(entryW)) {
entryW.indegree++;
entryV.out.push(mappedEntries[e.w]);
}
});
var sourceSet = filter/* default */.Z(mappedEntries, function (entry) {
// @ts-expect-error
return !entry.indegree;
});
return doResolveConflicts(sourceSet);
}
function doResolveConflicts(sourceSet) {
var entries = [];
function handleIn(vEntry) {
return function (uEntry) {
if (uEntry.merged) {
return;
}
if (
isUndefined/* default */.Z(uEntry.barycenter) ||
isUndefined/* default */.Z(vEntry.barycenter) ||
uEntry.barycenter >= vEntry.barycenter
) {
mergeEntries(vEntry, uEntry);
}
};
}
function handleOut(vEntry) {
return function (wEntry) {
wEntry['in'].push(vEntry);
if (--wEntry.indegree === 0) {
sourceSet.push(wEntry);
}
};
}
while (sourceSet.length) {
var entry = sourceSet.pop();
entries.push(entry);
forEach/* default */.Z(entry['in'].reverse(), handleIn(entry));
forEach/* default */.Z(entry.out, handleOut(entry));
}
return map/* default */.Z(
filter/* default */.Z(entries, function (entry) {
return !entry.merged;
}),
function (entry) {
return pick/* default */.Z(entry, ['vs', 'i', 'barycenter', 'weight']);
}
);
}
function mergeEntries(target, source) {
var sum = 0;
var weight = 0;
if (target.weight) {
sum += target.barycenter * target.weight;
weight += target.weight;
}
if (source.weight) {
sum += source.barycenter * source.weight;
weight += source.weight;
}
target.vs = source.vs.concat(target.vs);
target.barycenter = sum / weight;
target.weight = weight;
target.i = Math.min(source.i, target.i);
source.merged = true;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/sort.js
function sort(entries, biasRight) {
var parts = partition(entries, function (entry) {
return has/* default */.Z(entry, 'barycenter');
});
var sortable = parts.lhs,
unsortable = lodash_es_sortBy(parts.rhs, function (entry) {
return -entry.i;
}),
vs = [],
sum = 0,
weight = 0,
vsIndex = 0;
sortable.sort(compareWithBias(!!biasRight));
vsIndex = consumeUnsortable(vs, unsortable, vsIndex);
forEach/* default */.Z(sortable, function (entry) {
vsIndex += entry.vs.length;
vs.push(entry.vs);
sum += entry.barycenter * entry.weight;
weight += entry.weight;
vsIndex = consumeUnsortable(vs, unsortable, vsIndex);
});
var result = { vs: flatten/* default */.Z(vs) };
if (weight) {
result.barycenter = sum / weight;
result.weight = weight;
}
return result;
}
function consumeUnsortable(vs, unsortable, index) {
var last;
while (unsortable.length && (last = lodash_es_last(unsortable)).i <= index) {
unsortable.pop();
vs.push(last.vs);
index++;
}
return index;
}
function compareWithBias(bias) {
return function (entryV, entryW) {
if (entryV.barycenter < entryW.barycenter) {
return -1;
} else if (entryV.barycenter > entryW.barycenter) {
return 1;
}
return !bias ? entryV.i - entryW.i : entryW.i - entryV.i;
};
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/sort-subgraph.js
function sortSubgraph(g, v, cg, biasRight) {
var movable = g.children(v);
var node = g.node(v);
var bl = node ? node.borderLeft : undefined;
var br = node ? node.borderRight : undefined;
var subgraphs = {};
if (bl) {
movable = filter/* default */.Z(movable, function (w) {
return w !== bl && w !== br;
});
}
var barycenters = barycenter(g, movable);
forEach/* default */.Z(barycenters, function (entry) {
if (g.children(entry.v).length) {
var subgraphResult = sortSubgraph(g, entry.v, cg, biasRight);
subgraphs[entry.v] = subgraphResult;
if (has/* default */.Z(subgraphResult, 'barycenter')) {
mergeBarycenters(entry, subgraphResult);
}
}
});
var entries = resolveConflicts(barycenters, cg);
expandSubgraphs(entries, subgraphs);
var result = sort(entries, biasRight);
if (bl) {
result.vs = flatten/* default */.Z([bl, result.vs, br]);
if (g.predecessors(bl).length) {
var blPred = g.node(g.predecessors(bl)[0]),
brPred = g.node(g.predecessors(br)[0]);
if (!has/* default */.Z(result, 'barycenter')) {
result.barycenter = 0;
result.weight = 0;
}
result.barycenter =
(result.barycenter * result.weight + blPred.order + brPred.order) / (result.weight + 2);
result.weight += 2;
}
}
return result;
}
function expandSubgraphs(entries, subgraphs) {
forEach/* default */.Z(entries, function (entry) {
entry.vs = flatten/* default */.Z(
entry.vs.map(function (v) {
if (subgraphs[v]) {
return subgraphs[v].vs;
}
return v;
})
);
});
}
function mergeBarycenters(target, other) {
if (!isUndefined/* default */.Z(target.barycenter)) {
target.barycenter =
(target.barycenter * target.weight + other.barycenter * other.weight) /
(target.weight + other.weight);
target.weight += other.weight;
} else {
target.barycenter = other.barycenter;
target.weight = other.weight;
}
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/order/index.js
/*
* Applies heuristics to minimize edge crossings in the graph and sets the best
* order solution as an order attribute on each node.
*
* Pre-conditions:
*
* 1. Graph must be DAG
* 2. Graph nodes must be objects with a "rank" attribute
* 3. Graph edges must have the "weight" attribute
*
* Post-conditions:
*
* 1. Graph nodes will have an "order" attribute based on the results of the
* algorithm.
*/
function order(g) {
var maxRank = util_maxRank(g),
downLayerGraphs = buildLayerGraphs(g, range/* default */.Z(1, maxRank + 1), 'inEdges'),
upLayerGraphs = buildLayerGraphs(g, range/* default */.Z(maxRank - 1, -1, -1), 'outEdges');
var layering = initOrder(g);
assignOrder(g, layering);
var bestCC = Number.POSITIVE_INFINITY,
best;
for (var i = 0, lastBest = 0; lastBest < 4; ++i, ++lastBest) {
sweepLayerGraphs(i % 2 ? downLayerGraphs : upLayerGraphs, i % 4 >= 2);
layering = buildLayerMatrix(g);
var cc = crossCount(g, layering);
if (cc < bestCC) {
lastBest = 0;
best = lodash_es_cloneDeep(layering);
bestCC = cc;
}
}
assignOrder(g, best);
}
function buildLayerGraphs(g, ranks, relationship) {
return map/* default */.Z(ranks, function (rank) {
return buildLayerGraph(g, rank, relationship);
});
}
function sweepLayerGraphs(layerGraphs, biasRight) {
var cg = new graphlib/* Graph */.k();
forEach/* default */.Z(layerGraphs, function (lg) {
var root = lg.graph().root;
var sorted = sortSubgraph(lg, root, cg, biasRight);
forEach/* default */.Z(sorted.vs, function (v, i) {
lg.node(v).order = i;
});
addSubgraphConstraints(lg, cg, sorted.vs);
});
}
function assignOrder(g, layering) {
forEach/* default */.Z(layering, function (layer) {
forEach/* default */.Z(layer, function (v, i) {
g.node(v).order = i;
});
});
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/parent-dummy-chains.js
function parentDummyChains(g) {
var postorderNums = parent_dummy_chains_postorder(g);
forEach/* default */.Z(g.graph().dummyChains, function (v) {
var node = g.node(v);
var edgeObj = node.edgeObj;
var pathData = findPath(g, postorderNums, edgeObj.v, edgeObj.w);
var path = pathData.path;
var lca = pathData.lca;
var pathIdx = 0;
var pathV = path[pathIdx];
var ascending = true;
while (v !== edgeObj.w) {
node = g.node(v);
if (ascending) {
while ((pathV = path[pathIdx]) !== lca && g.node(pathV).maxRank < node.rank) {
pathIdx++;
}
if (pathV === lca) {
ascending = false;
}
}
if (!ascending) {
while (
pathIdx < path.length - 1 &&
g.node((pathV = path[pathIdx + 1])).minRank <= node.rank
) {
pathIdx++;
}
pathV = path[pathIdx];
}
g.setParent(v, pathV);
v = g.successors(v)[0];
}
});
}
// Find a path from v to w through the lowest common ancestor (LCA). Return the
// full path and the LCA.
function findPath(g, postorderNums, v, w) {
var vPath = [];
var wPath = [];
var low = Math.min(postorderNums[v].low, postorderNums[w].low);
var lim = Math.max(postorderNums[v].lim, postorderNums[w].lim);
var parent;
var lca;
// Traverse up from v to find the LCA
parent = v;
do {
parent = g.parent(parent);
vPath.push(parent);
} while (parent && (postorderNums[parent].low > low || lim > postorderNums[parent].lim));
lca = parent;
// Traverse from w to LCA
parent = w;
while ((parent = g.parent(parent)) !== lca) {
wPath.push(parent);
}
return { path: vPath.concat(wPath.reverse()), lca: lca };
}
function parent_dummy_chains_postorder(g) {
var result = {};
var lim = 0;
function dfs(v) {
var low = lim;
forEach/* default */.Z(g.children(v), dfs);
result[v] = { low: low, lim: lim++ };
}
forEach/* default */.Z(g.children(), dfs);
return result;
}
// EXTERNAL MODULE: ./node_modules/lodash-es/_castFunction.js
var _castFunction = __webpack_require__(68882);
;// CONCATENATED MODULE: ./node_modules/lodash-es/forOwn.js
/**
* Iterates over own enumerable string keyed properties of an object and
* invokes `iteratee` for each property. The iteratee is invoked with three
* arguments: (value, key, object). Iteratee functions may exit iteration
* early by explicitly returning `false`.
*
* @static
* @memberOf _
* @since 0.3.0
* @category Object
* @param {Object} object The object to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @returns {Object} Returns `object`.
* @see _.forOwnRight
* @example
*
* function Foo() {
* this.a = 1;
* this.b = 2;
* }
*
* Foo.prototype.c = 3;
*
* _.forOwn(new Foo, function(value, key) {
* console.log(key);
* });
* // => Logs 'a' then 'b' (iteration order is not guaranteed).
*/
function forOwn(object, iteratee) {
return object && (0,_baseForOwn/* default */.Z)(object, (0,_castFunction/* default */.Z)(iteratee));
}
/* harmony default export */ const lodash_es_forOwn = (forOwn);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseFor.js + 1 modules
var _baseFor = __webpack_require__(61395);
// EXTERNAL MODULE: ./node_modules/lodash-es/keysIn.js + 2 modules
var keysIn = __webpack_require__(32957);
;// CONCATENATED MODULE: ./node_modules/lodash-es/forIn.js
/**
* Iterates over own and inherited enumerable string keyed properties of an
* object and invokes `iteratee` for each property. The iteratee is invoked
* with three arguments: (value, key, object). Iteratee functions may exit
* iteration early by explicitly returning `false`.
*
* @static
* @memberOf _
* @since 0.3.0
* @category Object
* @param {Object} object The object to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @returns {Object} Returns `object`.
* @see _.forInRight
* @example
*
* function Foo() {
* this.a = 1;
* this.b = 2;
* }
*
* Foo.prototype.c = 3;
*
* _.forIn(new Foo, function(value, key) {
* console.log(key);
* });
* // => Logs 'a', 'b', then 'c' (iteration order is not guaranteed).
*/
function forIn(object, iteratee) {
return object == null
? object
: (0,_baseFor/* default */.Z)(object, (0,_castFunction/* default */.Z)(iteratee), keysIn/* default */.Z);
}
/* harmony default export */ const lodash_es_forIn = (forIn);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/position/bk.js
/*
* This module provides coordinate assignment based on Brandes and Köpf, "Fast
* and Simple Horizontal Coordinate Assignment."
*/
/*
* Marks all edges in the graph with a type-1 conflict with the "type1Conflict"
* property. A type-1 conflict is one where a non-inner segment crosses an
* inner segment. An inner segment is an edge with both incident nodes marked
* with the "dummy" property.
*
* This algorithm scans layer by layer, starting with the second, for type-1
* conflicts between the current layer and the previous layer. For each layer
* it scans the nodes from left to right until it reaches one that is incident
* on an inner segment. It then scans predecessors to determine if they have
* edges that cross that inner segment. At the end a final scan is done for all
* nodes on the current rank to see if they cross the last visited inner
* segment.
*
* This algorithm (safely) assumes that a dummy node will only be incident on a
* single node in the layers being scanned.
*/
function findType1Conflicts(g, layering) {
var conflicts = {};
function visitLayer(prevLayer, layer) {
var // last visited node in the previous layer that is incident on an inner
// segment.
k0 = 0,
// Tracks the last node in this layer scanned for crossings with a type-1
// segment.
scanPos = 0,
prevLayerLength = prevLayer.length,
lastNode = lodash_es_last(layer);
forEach/* default */.Z(layer, function (v, i) {
var w = findOtherInnerSegmentNode(g, v),
k1 = w ? g.node(w).order : prevLayerLength;
if (w || v === lastNode) {
forEach/* default */.Z(layer.slice(scanPos, i + 1), function (scanNode) {
forEach/* default */.Z(g.predecessors(scanNode), function (u) {
var uLabel = g.node(u),
uPos = uLabel.order;
if ((uPos < k0 || k1 < uPos) && !(uLabel.dummy && g.node(scanNode).dummy)) {
addConflict(conflicts, u, scanNode);
}
});
});
// @ts-expect-error
scanPos = i + 1;
k0 = k1;
}
});
return layer;
}
reduce/* default */.Z(layering, visitLayer);
return conflicts;
}
function findType2Conflicts(g, layering) {
var conflicts = {};
function scan(south, southPos, southEnd, prevNorthBorder, nextNorthBorder) {
var v;
forEach/* default */.Z(range/* default */.Z(southPos, southEnd), function (i) {
v = south[i];
if (g.node(v).dummy) {
forEach/* default */.Z(g.predecessors(v), function (u) {
var uNode = g.node(u);
if (uNode.dummy && (uNode.order < prevNorthBorder || uNode.order > nextNorthBorder)) {
addConflict(conflicts, u, v);
}
});
}
});
}
function visitLayer(north, south) {
var prevNorthPos = -1,
nextNorthPos,
southPos = 0;
forEach/* default */.Z(south, function (v, southLookahead) {
if (g.node(v).dummy === 'border') {
var predecessors = g.predecessors(v);
if (predecessors.length) {
nextNorthPos = g.node(predecessors[0]).order;
scan(south, southPos, southLookahead, prevNorthPos, nextNorthPos);
// @ts-expect-error
southPos = southLookahead;
prevNorthPos = nextNorthPos;
}
}
scan(south, southPos, south.length, nextNorthPos, north.length);
});
return south;
}
reduce/* default */.Z(layering, visitLayer);
return conflicts;
}
function findOtherInnerSegmentNode(g, v) {
if (g.node(v).dummy) {
return lodash_es_find(g.predecessors(v), function (u) {
return g.node(u).dummy;
});
}
}
function addConflict(conflicts, v, w) {
if (v > w) {
var tmp = v;
v = w;
w = tmp;
}
var conflictsV = conflicts[v];
if (!conflictsV) {
conflicts[v] = conflictsV = {};
}
conflictsV[w] = true;
}
function hasConflict(conflicts, v, w) {
if (v > w) {
var tmp = v;
v = w;
w = tmp;
}
return has/* default */.Z(conflicts[v], w);
}
/*
* Try to align nodes into vertical "blocks" where possible. This algorithm
* attempts to align a node with one of its median neighbors. If the edge
* connecting a neighbor is a type-1 conflict then we ignore that possibility.
* If a previous node has already formed a block with a node after the node
* we're trying to form a block with, we also ignore that possibility - our
* blocks would be split in that scenario.
*/
function verticalAlignment(g, layering, conflicts, neighborFn) {
var root = {},
align = {},
pos = {};
// We cache the position here based on the layering because the graph and
// layering may be out of sync. The layering matrix is manipulated to
// generate different extreme alignments.
forEach/* default */.Z(layering, function (layer) {
forEach/* default */.Z(layer, function (v, order) {
root[v] = v;
align[v] = v;
pos[v] = order;
});
});
forEach/* default */.Z(layering, function (layer) {
var prevIdx = -1;
forEach/* default */.Z(layer, function (v) {
var ws = neighborFn(v);
if (ws.length) {
ws = lodash_es_sortBy(ws, function (w) {
return pos[w];
});
var mp = (ws.length - 1) / 2;
for (var i = Math.floor(mp), il = Math.ceil(mp); i <= il; ++i) {
var w = ws[i];
if (align[v] === v && prevIdx < pos[w] && !hasConflict(conflicts, v, w)) {
align[w] = v;
align[v] = root[v] = root[w];
prevIdx = pos[w];
}
}
}
});
});
return { root: root, align: align };
}
function horizontalCompaction(g, layering, root, align, reverseSep) {
// This portion of the algorithm differs from BK due to a number of problems.
// Instead of their algorithm we construct a new block graph and do two
// sweeps. The first sweep places blocks with the smallest possible
// coordinates. The second sweep removes unused space by moving blocks to the
// greatest coordinates without violating separation.
var xs = {},
blockG = buildBlockGraph(g, layering, root, reverseSep),
borderType = reverseSep ? 'borderLeft' : 'borderRight';
function iterate(setXsFunc, nextNodesFunc) {
var stack = blockG.nodes();
var elem = stack.pop();
var visited = {};
while (elem) {
if (visited[elem]) {
setXsFunc(elem);
} else {
visited[elem] = true;
stack.push(elem);
stack = stack.concat(nextNodesFunc(elem));
}
elem = stack.pop();
}
}
// First pass, assign smallest coordinates
function pass1(elem) {
xs[elem] = blockG.inEdges(elem).reduce(function (acc, e) {
return Math.max(acc, xs[e.v] + blockG.edge(e));
}, 0);
}
// Second pass, assign greatest coordinates
function pass2(elem) {
var min = blockG.outEdges(elem).reduce(function (acc, e) {
return Math.min(acc, xs[e.w] - blockG.edge(e));
}, Number.POSITIVE_INFINITY);
var node = g.node(elem);
if (min !== Number.POSITIVE_INFINITY && node.borderType !== borderType) {
xs[elem] = Math.max(xs[elem], min);
}
}
iterate(pass1, blockG.predecessors.bind(blockG));
iterate(pass2, blockG.successors.bind(blockG));
// Assign x coordinates to all nodes
forEach/* default */.Z(align, function (v) {
xs[v] = xs[root[v]];
});
return xs;
}
function buildBlockGraph(g, layering, root, reverseSep) {
var blockGraph = new graphlib/* Graph */.k(),
graphLabel = g.graph(),
sepFn = sep(graphLabel.nodesep, graphLabel.edgesep, reverseSep);
forEach/* default */.Z(layering, function (layer) {
var u;
forEach/* default */.Z(layer, function (v) {
var vRoot = root[v];
blockGraph.setNode(vRoot);
if (u) {
var uRoot = root[u],
prevMax = blockGraph.edge(uRoot, vRoot);
blockGraph.setEdge(uRoot, vRoot, Math.max(sepFn(g, v, u), prevMax || 0));
}
u = v;
});
});
return blockGraph;
}
/*
* Returns the alignment that has the smallest width of the given alignments.
*/
function findSmallestWidthAlignment(g, xss) {
return lodash_es_minBy(values/* default */.Z(xss), function (xs) {
var max = Number.NEGATIVE_INFINITY;
var min = Number.POSITIVE_INFINITY;
lodash_es_forIn(xs, function (x, v) {
var halfWidth = width(g, v) / 2;
max = Math.max(x + halfWidth, max);
min = Math.min(x - halfWidth, min);
});
return max - min;
});
}
/*
* Align the coordinates of each of the layout alignments such that
* left-biased alignments have their minimum coordinate at the same point as
* the minimum coordinate of the smallest width alignment and right-biased
* alignments have their maximum coordinate at the same point as the maximum
* coordinate of the smallest width alignment.
*/
function alignCoordinates(xss, alignTo) {
var alignToVals = values/* default */.Z(alignTo),
alignToMin = lodash_es_min(alignToVals),
alignToMax = lodash_es_max(alignToVals);
forEach/* default */.Z(['u', 'd'], function (vert) {
forEach/* default */.Z(['l', 'r'], function (horiz) {
var alignment = vert + horiz,
xs = xss[alignment],
delta;
if (xs === alignTo) return;
var xsVals = values/* default */.Z(xs);
delta = horiz === 'l' ? alignToMin - lodash_es_min(xsVals) : alignToMax - lodash_es_max(xsVals);
if (delta) {
xss[alignment] = lodash_es_mapValues(xs, function (x) {
return x + delta;
});
}
});
});
}
function balance(xss, align) {
return lodash_es_mapValues(xss.ul, function (ignore, v) {
if (align) {
return xss[align.toLowerCase()][v];
} else {
var xs = lodash_es_sortBy(map/* default */.Z(xss, v));
return (xs[1] + xs[2]) / 2;
}
});
}
function positionX(g) {
var layering = buildLayerMatrix(g);
var conflicts = merge/* default */.Z(findType1Conflicts(g, layering), findType2Conflicts(g, layering));
var xss = {};
var adjustedLayering;
forEach/* default */.Z(['u', 'd'], function (vert) {
adjustedLayering = vert === 'u' ? layering : values/* default */.Z(layering).reverse();
forEach/* default */.Z(['l', 'r'], function (horiz) {
if (horiz === 'r') {
adjustedLayering = map/* default */.Z(adjustedLayering, function (inner) {
return values/* default */.Z(inner).reverse();
});
}
var neighborFn = (vert === 'u' ? g.predecessors : g.successors).bind(g);
var align = verticalAlignment(g, adjustedLayering, conflicts, neighborFn);
var xs = horizontalCompaction(g, adjustedLayering, align.root, align.align, horiz === 'r');
if (horiz === 'r') {
xs = lodash_es_mapValues(xs, function (x) {
return -x;
});
}
xss[vert + horiz] = xs;
});
});
var smallestWidth = findSmallestWidthAlignment(g, xss);
alignCoordinates(xss, smallestWidth);
return balance(xss, g.graph().align);
}
function sep(nodeSep, edgeSep, reverseSep) {
return function (g, v, w) {
var vLabel = g.node(v);
var wLabel = g.node(w);
var sum = 0;
var delta;
sum += vLabel.width / 2;
if (has/* default */.Z(vLabel, 'labelpos')) {
switch (vLabel.labelpos.toLowerCase()) {
case 'l':
delta = -vLabel.width / 2;
break;
case 'r':
delta = vLabel.width / 2;
break;
}
}
if (delta) {
sum += reverseSep ? delta : -delta;
}
delta = 0;
sum += (vLabel.dummy ? edgeSep : nodeSep) / 2;
sum += (wLabel.dummy ? edgeSep : nodeSep) / 2;
sum += wLabel.width / 2;
if (has/* default */.Z(wLabel, 'labelpos')) {
switch (wLabel.labelpos.toLowerCase()) {
case 'l':
delta = wLabel.width / 2;
break;
case 'r':
delta = -wLabel.width / 2;
break;
}
}
if (delta) {
sum += reverseSep ? delta : -delta;
}
delta = 0;
return sum;
};
}
function width(g, v) {
return g.node(v).width;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/position/index.js
function position(g) {
g = asNonCompoundGraph(g);
positionY(g);
lodash_es_forOwn(positionX(g), function (x, v) {
g.node(v).x = x;
});
}
function positionY(g) {
var layering = buildLayerMatrix(g);
var rankSep = g.graph().ranksep;
var prevY = 0;
forEach/* default */.Z(layering, function (layer) {
var maxHeight = lodash_es_max(
map/* default */.Z(layer, function (v) {
return g.node(v).height;
})
);
forEach/* default */.Z(layer, function (v) {
g.node(v).y = prevY + maxHeight / 2;
});
prevY += maxHeight + rankSep;
});
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/layout.js
function layout(g, opts) {
var time = opts && opts.debugTiming ? util_time : notime;
time('layout', function () {
var layoutGraph = time(' buildLayoutGraph', function () {
return buildLayoutGraph(g);
});
time(' runLayout', function () {
runLayout(layoutGraph, time);
});
time(' updateInputGraph', function () {
updateInputGraph(g, layoutGraph);
});
});
}
function runLayout(g, time) {
time(' makeSpaceForEdgeLabels', function () {
makeSpaceForEdgeLabels(g);
});
time(' removeSelfEdges', function () {
removeSelfEdges(g);
});
time(' acyclic', function () {
run(g);
});
time(' nestingGraph.run', function () {
nesting_graph_run(g);
});
time(' rank', function () {
rank(asNonCompoundGraph(g));
});
time(' injectEdgeLabelProxies', function () {
injectEdgeLabelProxies(g);
});
time(' removeEmptyRanks', function () {
removeEmptyRanks(g);
});
time(' nestingGraph.cleanup', function () {
cleanup(g);
});
time(' normalizeRanks', function () {
normalizeRanks(g);
});
time(' assignRankMinMax', function () {
assignRankMinMax(g);
});
time(' removeEdgeLabelProxies', function () {
removeEdgeLabelProxies(g);
});
time(' normalize.run', function () {
normalize_run(g);
});
time(' parentDummyChains', function () {
parentDummyChains(g);
});
time(' addBorderSegments', function () {
addBorderSegments(g);
});
time(' order', function () {
order(g);
});
time(' insertSelfEdges', function () {
insertSelfEdges(g);
});
time(' adjustCoordinateSystem', function () {
adjust(g);
});
time(' position', function () {
position(g);
});
time(' positionSelfEdges', function () {
positionSelfEdges(g);
});
time(' removeBorderNodes', function () {
removeBorderNodes(g);
});
time(' normalize.undo', function () {
normalize_undo(g);
});
time(' fixupEdgeLabelCoords', function () {
fixupEdgeLabelCoords(g);
});
time(' undoCoordinateSystem', function () {
coordinate_system_undo(g);
});
time(' translateGraph', function () {
translateGraph(g);
});
time(' assignNodeIntersects', function () {
assignNodeIntersects(g);
});
time(' reversePoints', function () {
reversePointsForReversedEdges(g);
});
time(' acyclic.undo', function () {
undo(g);
});
}
/*
* Copies final layout information from the layout graph back to the input
* graph. This process only copies whitelisted attributes from the layout graph
* to the input graph, so it serves as a good place to determine what
* attributes can influence layout.
*/
function updateInputGraph(inputGraph, layoutGraph) {
forEach/* default */.Z(inputGraph.nodes(), function (v) {
var inputLabel = inputGraph.node(v);
var layoutLabel = layoutGraph.node(v);
if (inputLabel) {
inputLabel.x = layoutLabel.x;
inputLabel.y = layoutLabel.y;
if (layoutGraph.children(v).length) {
inputLabel.width = layoutLabel.width;
inputLabel.height = layoutLabel.height;
}
}
});
forEach/* default */.Z(inputGraph.edges(), function (e) {
var inputLabel = inputGraph.edge(e);
var layoutLabel = layoutGraph.edge(e);
inputLabel.points = layoutLabel.points;
if (has/* default */.Z(layoutLabel, 'x')) {
inputLabel.x = layoutLabel.x;
inputLabel.y = layoutLabel.y;
}
});
inputGraph.graph().width = layoutGraph.graph().width;
inputGraph.graph().height = layoutGraph.graph().height;
}
var graphNumAttrs = ['nodesep', 'edgesep', 'ranksep', 'marginx', 'marginy'];
var graphDefaults = { ranksep: 50, edgesep: 20, nodesep: 50, rankdir: 'tb' };
var graphAttrs = ['acyclicer', 'ranker', 'rankdir', 'align'];
var nodeNumAttrs = ['width', 'height'];
var nodeDefaults = { width: 0, height: 0 };
var edgeNumAttrs = ['minlen', 'weight', 'width', 'height', 'labeloffset'];
var edgeDefaults = {
minlen: 1,
weight: 1,
width: 0,
height: 0,
labeloffset: 10,
labelpos: 'r',
};
var edgeAttrs = ['labelpos'];
/*
* Constructs a new graph from the input graph, which can be used for layout.
* This process copies only whitelisted attributes from the input graph to the
* layout graph. Thus this function serves as a good place to determine what
* attributes can influence layout.
*/
function buildLayoutGraph(inputGraph) {
var g = new graphlib/* Graph */.k({ multigraph: true, compound: true });
var graph = canonicalize(inputGraph.graph());
g.setGraph(
merge/* default */.Z({}, graphDefaults, selectNumberAttrs(graph, graphNumAttrs), pick/* default */.Z(graph, graphAttrs))
);
forEach/* default */.Z(inputGraph.nodes(), function (v) {
var node = canonicalize(inputGraph.node(v));
g.setNode(v, defaults/* default */.Z(selectNumberAttrs(node, nodeNumAttrs), nodeDefaults));
g.setParent(v, inputGraph.parent(v));
});
forEach/* default */.Z(inputGraph.edges(), function (e) {
var edge = canonicalize(inputGraph.edge(e));
g.setEdge(
e,
merge/* default */.Z({}, edgeDefaults, selectNumberAttrs(edge, edgeNumAttrs), pick/* default */.Z(edge, edgeAttrs))
);
});
return g;
}
/*
* This idea comes from the Gansner paper: to account for edge labels in our
* layout we split each rank in half by doubling minlen and halving ranksep.
* Then we can place labels at these mid-points between nodes.
*
* We also add some minimal padding to the width to push the label for the edge
* away from the edge itself a bit.
*/
function makeSpaceForEdgeLabels(g) {
var graph = g.graph();
graph.ranksep /= 2;
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
edge.minlen *= 2;
if (edge.labelpos.toLowerCase() !== 'c') {
if (graph.rankdir === 'TB' || graph.rankdir === 'BT') {
edge.width += edge.labeloffset;
} else {
edge.height += edge.labeloffset;
}
}
});
}
/*
* Creates temporary dummy nodes that capture the rank in which each edge's
* label is going to, if it has one of non-zero width and height. We do this
* so that we can safely remove empty ranks while preserving balance for the
* label's position.
*/
function injectEdgeLabelProxies(g) {
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
if (edge.width && edge.height) {
var v = g.node(e.v);
var w = g.node(e.w);
var label = { rank: (w.rank - v.rank) / 2 + v.rank, e: e };
addDummyNode(g, 'edge-proxy', label, '_ep');
}
});
}
function assignRankMinMax(g) {
var maxRank = 0;
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
if (node.borderTop) {
node.minRank = g.node(node.borderTop).rank;
node.maxRank = g.node(node.borderBottom).rank;
// @ts-expect-error
maxRank = lodash_es_max(maxRank, node.maxRank);
}
});
g.graph().maxRank = maxRank;
}
function removeEdgeLabelProxies(g) {
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
if (node.dummy === 'edge-proxy') {
g.edge(node.e).labelRank = node.rank;
g.removeNode(v);
}
});
}
function translateGraph(g) {
var minX = Number.POSITIVE_INFINITY;
var maxX = 0;
var minY = Number.POSITIVE_INFINITY;
var maxY = 0;
var graphLabel = g.graph();
var marginX = graphLabel.marginx || 0;
var marginY = graphLabel.marginy || 0;
function getExtremes(attrs) {
var x = attrs.x;
var y = attrs.y;
var w = attrs.width;
var h = attrs.height;
minX = Math.min(minX, x - w / 2);
maxX = Math.max(maxX, x + w / 2);
minY = Math.min(minY, y - h / 2);
maxY = Math.max(maxY, y + h / 2);
}
forEach/* default */.Z(g.nodes(), function (v) {
getExtremes(g.node(v));
});
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
if (has/* default */.Z(edge, 'x')) {
getExtremes(edge);
}
});
minX -= marginX;
minY -= marginY;
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
node.x -= minX;
node.y -= minY;
});
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
forEach/* default */.Z(edge.points, function (p) {
p.x -= minX;
p.y -= minY;
});
if (has/* default */.Z(edge, 'x')) {
edge.x -= minX;
}
if (has/* default */.Z(edge, 'y')) {
edge.y -= minY;
}
});
graphLabel.width = maxX - minX + marginX;
graphLabel.height = maxY - minY + marginY;
}
function assignNodeIntersects(g) {
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
var nodeV = g.node(e.v);
var nodeW = g.node(e.w);
var p1, p2;
if (!edge.points) {
edge.points = [];
p1 = nodeW;
p2 = nodeV;
} else {
p1 = edge.points[0];
p2 = edge.points[edge.points.length - 1];
}
edge.points.unshift(intersectRect(nodeV, p1));
edge.points.push(intersectRect(nodeW, p2));
});
}
function fixupEdgeLabelCoords(g) {
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
if (has/* default */.Z(edge, 'x')) {
if (edge.labelpos === 'l' || edge.labelpos === 'r') {
edge.width -= edge.labeloffset;
}
switch (edge.labelpos) {
case 'l':
edge.x -= edge.width / 2 + edge.labeloffset;
break;
case 'r':
edge.x += edge.width / 2 + edge.labeloffset;
break;
}
}
});
}
function reversePointsForReversedEdges(g) {
forEach/* default */.Z(g.edges(), function (e) {
var edge = g.edge(e);
if (edge.reversed) {
edge.points.reverse();
}
});
}
function removeBorderNodes(g) {
forEach/* default */.Z(g.nodes(), function (v) {
if (g.children(v).length) {
var node = g.node(v);
var t = g.node(node.borderTop);
var b = g.node(node.borderBottom);
var l = g.node(lodash_es_last(node.borderLeft));
var r = g.node(lodash_es_last(node.borderRight));
node.width = Math.abs(r.x - l.x);
node.height = Math.abs(b.y - t.y);
node.x = l.x + node.width / 2;
node.y = t.y + node.height / 2;
}
});
forEach/* default */.Z(g.nodes(), function (v) {
if (g.node(v).dummy === 'border') {
g.removeNode(v);
}
});
}
function removeSelfEdges(g) {
forEach/* default */.Z(g.edges(), function (e) {
if (e.v === e.w) {
var node = g.node(e.v);
if (!node.selfEdges) {
node.selfEdges = [];
}
node.selfEdges.push({ e: e, label: g.edge(e) });
g.removeEdge(e);
}
});
}
function insertSelfEdges(g) {
var layers = buildLayerMatrix(g);
forEach/* default */.Z(layers, function (layer) {
var orderShift = 0;
forEach/* default */.Z(layer, function (v, i) {
var node = g.node(v);
node.order = i + orderShift;
forEach/* default */.Z(node.selfEdges, function (selfEdge) {
addDummyNode(
g,
'selfedge',
{
width: selfEdge.label.width,
height: selfEdge.label.height,
rank: node.rank,
order: i + ++orderShift,
e: selfEdge.e,
label: selfEdge.label,
},
'_se'
);
});
delete node.selfEdges;
});
});
}
function positionSelfEdges(g) {
forEach/* default */.Z(g.nodes(), function (v) {
var node = g.node(v);
if (node.dummy === 'selfedge') {
var selfNode = g.node(node.e.v);
var x = selfNode.x + selfNode.width / 2;
var y = selfNode.y;
var dx = node.x - x;
var dy = selfNode.height / 2;
g.setEdge(node.e, node.label);
g.removeNode(v);
node.label.points = [
{ x: x + (2 * dx) / 3, y: y - dy },
{ x: x + (5 * dx) / 6, y: y - dy },
{ x: x + dx, y: y },
{ x: x + (5 * dx) / 6, y: y + dy },
{ x: x + (2 * dx) / 3, y: y + dy },
];
node.label.x = node.x;
node.label.y = node.y;
}
});
}
function selectNumberAttrs(obj, attrs) {
return lodash_es_mapValues(pick/* default */.Z(obj, attrs), Number);
}
function canonicalize(attrs) {
var newAttrs = {};
forEach/* default */.Z(attrs, function (v, k) {
newAttrs[k.toLowerCase()] = v;
});
return newAttrs;
}
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/dagre/index.js
/***/ }),
/***/ 52544:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
k: () => (/* binding */ Graph)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/has.js + 1 modules
var has = __webpack_require__(17452);
// EXTERNAL MODULE: ./node_modules/lodash-es/constant.js
var constant = __webpack_require__(62002);
// EXTERNAL MODULE: ./node_modules/lodash-es/isFunction.js
var isFunction = __webpack_require__(73234);
// EXTERNAL MODULE: ./node_modules/lodash-es/keys.js
var keys = __webpack_require__(17179);
// EXTERNAL MODULE: ./node_modules/lodash-es/filter.js + 1 modules
var filter = __webpack_require__(13445);
// EXTERNAL MODULE: ./node_modules/lodash-es/isEmpty.js
var isEmpty = __webpack_require__(79697);
// EXTERNAL MODULE: ./node_modules/lodash-es/forEach.js
var forEach = __webpack_require__(70870);
// EXTERNAL MODULE: ./node_modules/lodash-es/isUndefined.js
var isUndefined = __webpack_require__(49360);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseFlatten.js + 1 modules
var _baseFlatten = __webpack_require__(10626);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseRest.js
var _baseRest = __webpack_require__(69581);
// EXTERNAL MODULE: ./node_modules/lodash-es/_SetCache.js + 2 modules
var _SetCache = __webpack_require__(63001);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseFindIndex.js
var _baseFindIndex = __webpack_require__(21692);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsNaN.js
/**
* The base implementation of `_.isNaN` without support for number objects.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is `NaN`, else `false`.
*/
function baseIsNaN(value) {
return value !== value;
}
/* harmony default export */ const _baseIsNaN = (baseIsNaN);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_strictIndexOf.js
/**
* A specialized version of `_.indexOf` which performs strict equality
* comparisons of values, i.e. `===`.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} value The value to search for.
* @param {number} fromIndex The index to search from.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function strictIndexOf(array, value, fromIndex) {
var index = fromIndex - 1,
length = array.length;
while (++index < length) {
if (array[index] === value) {
return index;
}
}
return -1;
}
/* harmony default export */ const _strictIndexOf = (strictIndexOf);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIndexOf.js
/**
* The base implementation of `_.indexOf` without `fromIndex` bounds checks.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} value The value to search for.
* @param {number} fromIndex The index to search from.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseIndexOf(array, value, fromIndex) {
return value === value
? _strictIndexOf(array, value, fromIndex)
: (0,_baseFindIndex/* default */.Z)(array, _baseIsNaN, fromIndex);
}
/* harmony default export */ const _baseIndexOf = (baseIndexOf);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_arrayIncludes.js
/**
* A specialized version of `_.includes` for arrays without support for
* specifying an index to search from.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludes(array, value) {
var length = array == null ? 0 : array.length;
return !!length && _baseIndexOf(array, value, 0) > -1;
}
/* harmony default export */ const _arrayIncludes = (arrayIncludes);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_arrayIncludesWith.js
/**
* This function is like `arrayIncludes` except that it accepts a comparator.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @param {Function} comparator The comparator invoked per element.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludesWith(array, value, comparator) {
var index = -1,
length = array == null ? 0 : array.length;
while (++index < length) {
if (comparator(value, array[index])) {
return true;
}
}
return false;
}
/* harmony default export */ const _arrayIncludesWith = (arrayIncludesWith);
// EXTERNAL MODULE: ./node_modules/lodash-es/_cacheHas.js
var _cacheHas = __webpack_require__(59548);
// EXTERNAL MODULE: ./node_modules/lodash-es/_Set.js
var _Set = __webpack_require__(93203);
;// CONCATENATED MODULE: ./node_modules/lodash-es/noop.js
/**
* This method returns `undefined`.
*
* @static
* @memberOf _
* @since 2.3.0
* @category Util
* @example
*
* _.times(2, _.noop);
* // => [undefined, undefined]
*/
function noop() {
// No operation performed.
}
/* harmony default export */ const lodash_es_noop = (noop);
// EXTERNAL MODULE: ./node_modules/lodash-es/_setToArray.js
var _setToArray = __webpack_require__(6545);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_createSet.js
/** Used as references for various `Number` constants. */
var INFINITY = 1 / 0;
/**
* Creates a set object of `values`.
*
* @private
* @param {Array} values The values to add to the set.
* @returns {Object} Returns the new set.
*/
var createSet = !(_Set/* default */.Z && (1 / (0,_setToArray/* default */.Z)(new _Set/* default */.Z([,-0]))[1]) == INFINITY) ? lodash_es_noop : function(values) {
return new _Set/* default */.Z(values);
};
/* harmony default export */ const _createSet = (createSet);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseUniq.js
/** Used as the size to enable large array optimizations. */
var LARGE_ARRAY_SIZE = 200;
/**
* The base implementation of `_.uniqBy` without support for iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Function} [iteratee] The iteratee invoked per element.
* @param {Function} [comparator] The comparator invoked per element.
* @returns {Array} Returns the new duplicate free array.
*/
function baseUniq(array, iteratee, comparator) {
var index = -1,
includes = _arrayIncludes,
length = array.length,
isCommon = true,
result = [],
seen = result;
if (comparator) {
isCommon = false;
includes = _arrayIncludesWith;
}
else if (length >= LARGE_ARRAY_SIZE) {
var set = iteratee ? null : _createSet(array);
if (set) {
return (0,_setToArray/* default */.Z)(set);
}
isCommon = false;
includes = _cacheHas/* default */.Z;
seen = new _SetCache/* default */.Z;
}
else {
seen = iteratee ? [] : result;
}
outer:
while (++index < length) {
var value = array[index],
computed = iteratee ? iteratee(value) : value;
value = (comparator || value !== 0) ? value : 0;
if (isCommon && computed === computed) {
var seenIndex = seen.length;
while (seenIndex--) {
if (seen[seenIndex] === computed) {
continue outer;
}
}
if (iteratee) {
seen.push(computed);
}
result.push(value);
}
else if (!includes(seen, computed, comparator)) {
if (seen !== result) {
seen.push(computed);
}
result.push(value);
}
}
return result;
}
/* harmony default export */ const _baseUniq = (baseUniq);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArrayLikeObject.js
var isArrayLikeObject = __webpack_require__(836);
;// CONCATENATED MODULE: ./node_modules/lodash-es/union.js
/**
* Creates an array of unique values, in order, from all given arrays using
* [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* for equality comparisons.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {...Array} [arrays] The arrays to inspect.
* @returns {Array} Returns the new array of combined values.
* @example
*
* _.union([2], [1, 2]);
* // => [2, 1]
*/
var union = (0,_baseRest/* default */.Z)(function(arrays) {
return _baseUniq((0,_baseFlatten/* default */.Z)(arrays, 1, isArrayLikeObject/* default */.Z, true));
});
/* harmony default export */ const lodash_es_union = (union);
// EXTERNAL MODULE: ./node_modules/lodash-es/values.js + 1 modules
var values = __webpack_require__(34148);
// EXTERNAL MODULE: ./node_modules/lodash-es/reduce.js + 2 modules
var reduce = __webpack_require__(92344);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/graph.js
var DEFAULT_EDGE_NAME = '\x00';
var GRAPH_NODE = '\x00';
var EDGE_KEY_DELIM = '\x01';
// Implementation notes:
//
// * Node id query functions should return string ids for the nodes
// * Edge id query functions should return an "edgeObj", edge object, that is
// composed of enough information to uniquely identify an edge: {v, w, name}.
// * Internally we use an "edgeId", a stringified form of the edgeObj, to
// reference edges. This is because we need a performant way to look these
// edges up and, object properties, which have string keys, are the closest
// we're going to get to a performant hashtable in JavaScript.
// Implementation notes:
//
// * Node id query functions should return string ids for the nodes
// * Edge id query functions should return an "edgeObj", edge object, that is
// composed of enough information to uniquely identify an edge: {v, w, name}.
// * Internally we use an "edgeId", a stringified form of the edgeObj, to
// reference edges. This is because we need a performant way to look these
// edges up and, object properties, which have string keys, are the closest
// we're going to get to a performant hashtable in JavaScript.
class Graph {
constructor(opts = {}) {
this._isDirected = has/* default */.Z(opts, 'directed') ? opts.directed : true;
this._isMultigraph = has/* default */.Z(opts, 'multigraph') ? opts.multigraph : false;
this._isCompound = has/* default */.Z(opts, 'compound') ? opts.compound : false;
// Label for the graph itself
this._label = undefined;
// Defaults to be set when creating a new node
this._defaultNodeLabelFn = constant/* default */.Z(undefined);
// Defaults to be set when creating a new edge
this._defaultEdgeLabelFn = constant/* default */.Z(undefined);
// v -> label
this._nodes = {};
if (this._isCompound) {
// v -> parent
this._parent = {};
// v -> children
this._children = {};
this._children[GRAPH_NODE] = {};
}
// v -> edgeObj
this._in = {};
// u -> v -> Number
this._preds = {};
// v -> edgeObj
this._out = {};
// v -> w -> Number
this._sucs = {};
// e -> edgeObj
this._edgeObjs = {};
// e -> label
this._edgeLabels = {};
}
/* === Graph functions ========= */
isDirected() {
return this._isDirected;
}
isMultigraph() {
return this._isMultigraph;
}
isCompound() {
return this._isCompound;
}
setGraph(label) {
this._label = label;
return this;
}
graph() {
return this._label;
}
/* === Node functions ========== */
setDefaultNodeLabel(newDefault) {
if (!isFunction/* default */.Z(newDefault)) {
newDefault = constant/* default */.Z(newDefault);
}
this._defaultNodeLabelFn = newDefault;
return this;
}
nodeCount() {
return this._nodeCount;
}
nodes() {
return keys/* default */.Z(this._nodes);
}
sources() {
var self = this;
return filter/* default */.Z(this.nodes(), function (v) {
return isEmpty/* default */.Z(self._in[v]);
});
}
sinks() {
var self = this;
return filter/* default */.Z(this.nodes(), function (v) {
return isEmpty/* default */.Z(self._out[v]);
});
}
setNodes(vs, value) {
var args = arguments;
var self = this;
forEach/* default */.Z(vs, function (v) {
if (args.length > 1) {
self.setNode(v, value);
} else {
self.setNode(v);
}
});
return this;
}
setNode(v, value) {
if (has/* default */.Z(this._nodes, v)) {
if (arguments.length > 1) {
this._nodes[v] = value;
}
return this;
}
// @ts-expect-error
this._nodes[v] = arguments.length > 1 ? value : this._defaultNodeLabelFn(v);
if (this._isCompound) {
this._parent[v] = GRAPH_NODE;
this._children[v] = {};
this._children[GRAPH_NODE][v] = true;
}
this._in[v] = {};
this._preds[v] = {};
this._out[v] = {};
this._sucs[v] = {};
++this._nodeCount;
return this;
}
node(v) {
return this._nodes[v];
}
hasNode(v) {
return has/* default */.Z(this._nodes, v);
}
removeNode(v) {
var self = this;
if (has/* default */.Z(this._nodes, v)) {
var removeEdge = function (e) {
self.removeEdge(self._edgeObjs[e]);
};
delete this._nodes[v];
if (this._isCompound) {
this._removeFromParentsChildList(v);
delete this._parent[v];
forEach/* default */.Z(this.children(v), function (child) {
self.setParent(child);
});
delete this._children[v];
}
forEach/* default */.Z(keys/* default */.Z(this._in[v]), removeEdge);
delete this._in[v];
delete this._preds[v];
forEach/* default */.Z(keys/* default */.Z(this._out[v]), removeEdge);
delete this._out[v];
delete this._sucs[v];
--this._nodeCount;
}
return this;
}
setParent(v, parent) {
if (!this._isCompound) {
throw new Error('Cannot set parent in a non-compound graph');
}
if (isUndefined/* default */.Z(parent)) {
parent = GRAPH_NODE;
} else {
// Coerce parent to string
parent += '';
for (var ancestor = parent; !isUndefined/* default */.Z(ancestor); ancestor = this.parent(ancestor)) {
if (ancestor === v) {
throw new Error('Setting ' + parent + ' as parent of ' + v + ' would create a cycle');
}
}
this.setNode(parent);
}
this.setNode(v);
this._removeFromParentsChildList(v);
this._parent[v] = parent;
this._children[parent][v] = true;
return this;
}
_removeFromParentsChildList(v) {
delete this._children[this._parent[v]][v];
}
parent(v) {
if (this._isCompound) {
var parent = this._parent[v];
if (parent !== GRAPH_NODE) {
return parent;
}
}
}
children(v) {
if (isUndefined/* default */.Z(v)) {
v = GRAPH_NODE;
}
if (this._isCompound) {
var children = this._children[v];
if (children) {
return keys/* default */.Z(children);
}
} else if (v === GRAPH_NODE) {
return this.nodes();
} else if (this.hasNode(v)) {
return [];
}
}
predecessors(v) {
var predsV = this._preds[v];
if (predsV) {
return keys/* default */.Z(predsV);
}
}
successors(v) {
var sucsV = this._sucs[v];
if (sucsV) {
return keys/* default */.Z(sucsV);
}
}
neighbors(v) {
var preds = this.predecessors(v);
if (preds) {
return lodash_es_union(preds, this.successors(v));
}
}
isLeaf(v) {
var neighbors;
if (this.isDirected()) {
neighbors = this.successors(v);
} else {
neighbors = this.neighbors(v);
}
return neighbors.length === 0;
}
filterNodes(filter) {
// @ts-expect-error
var copy = new this.constructor({
directed: this._isDirected,
multigraph: this._isMultigraph,
compound: this._isCompound,
});
copy.setGraph(this.graph());
var self = this;
forEach/* default */.Z(this._nodes, function (value, v) {
if (filter(v)) {
copy.setNode(v, value);
}
});
forEach/* default */.Z(this._edgeObjs, function (e) {
// @ts-expect-error
if (copy.hasNode(e.v) && copy.hasNode(e.w)) {
copy.setEdge(e, self.edge(e));
}
});
var parents = {};
function findParent(v) {
var parent = self.parent(v);
if (parent === undefined || copy.hasNode(parent)) {
parents[v] = parent;
return parent;
} else if (parent in parents) {
return parents[parent];
} else {
return findParent(parent);
}
}
if (this._isCompound) {
forEach/* default */.Z(copy.nodes(), function (v) {
copy.setParent(v, findParent(v));
});
}
return copy;
}
/* === Edge functions ========== */
setDefaultEdgeLabel(newDefault) {
if (!isFunction/* default */.Z(newDefault)) {
newDefault = constant/* default */.Z(newDefault);
}
this._defaultEdgeLabelFn = newDefault;
return this;
}
edgeCount() {
return this._edgeCount;
}
edges() {
return values/* default */.Z(this._edgeObjs);
}
setPath(vs, value) {
var self = this;
var args = arguments;
reduce/* default */.Z(vs, function (v, w) {
if (args.length > 1) {
self.setEdge(v, w, value);
} else {
self.setEdge(v, w);
}
return w;
});
return this;
}
/*
* setEdge(v, w, [value, [name]])
* setEdge({ v, w, [name] }, [value])
*/
setEdge() {
var v, w, name, value;
var valueSpecified = false;
var arg0 = arguments[0];
if (typeof arg0 === 'object' && arg0 !== null && 'v' in arg0) {
v = arg0.v;
w = arg0.w;
name = arg0.name;
if (arguments.length === 2) {
value = arguments[1];
valueSpecified = true;
}
} else {
v = arg0;
w = arguments[1];
name = arguments[3];
if (arguments.length > 2) {
value = arguments[2];
valueSpecified = true;
}
}
v = '' + v;
w = '' + w;
if (!isUndefined/* default */.Z(name)) {
name = '' + name;
}
var e = edgeArgsToId(this._isDirected, v, w, name);
if (has/* default */.Z(this._edgeLabels, e)) {
if (valueSpecified) {
this._edgeLabels[e] = value;
}
return this;
}
if (!isUndefined/* default */.Z(name) && !this._isMultigraph) {
throw new Error('Cannot set a named edge when isMultigraph = false');
}
// It didn't exist, so we need to create it.
// First ensure the nodes exist.
this.setNode(v);
this.setNode(w);
// @ts-expect-error
this._edgeLabels[e] = valueSpecified ? value : this._defaultEdgeLabelFn(v, w, name);
var edgeObj = edgeArgsToObj(this._isDirected, v, w, name);
// Ensure we add undirected edges in a consistent way.
v = edgeObj.v;
w = edgeObj.w;
Object.freeze(edgeObj);
this._edgeObjs[e] = edgeObj;
incrementOrInitEntry(this._preds[w], v);
incrementOrInitEntry(this._sucs[v], w);
this._in[w][e] = edgeObj;
this._out[v][e] = edgeObj;
this._edgeCount++;
return this;
}
edge(v, w, name) {
var e =
arguments.length === 1
? edgeObjToId(this._isDirected, arguments[0])
: edgeArgsToId(this._isDirected, v, w, name);
return this._edgeLabels[e];
}
hasEdge(v, w, name) {
var e =
arguments.length === 1
? edgeObjToId(this._isDirected, arguments[0])
: edgeArgsToId(this._isDirected, v, w, name);
return has/* default */.Z(this._edgeLabels, e);
}
removeEdge(v, w, name) {
var e =
arguments.length === 1
? edgeObjToId(this._isDirected, arguments[0])
: edgeArgsToId(this._isDirected, v, w, name);
var edge = this._edgeObjs[e];
if (edge) {
v = edge.v;
w = edge.w;
delete this._edgeLabels[e];
delete this._edgeObjs[e];
decrementOrRemoveEntry(this._preds[w], v);
decrementOrRemoveEntry(this._sucs[v], w);
delete this._in[w][e];
delete this._out[v][e];
this._edgeCount--;
}
return this;
}
inEdges(v, u) {
var inV = this._in[v];
if (inV) {
var edges = values/* default */.Z(inV);
if (!u) {
return edges;
}
return filter/* default */.Z(edges, function (edge) {
return edge.v === u;
});
}
}
outEdges(v, w) {
var outV = this._out[v];
if (outV) {
var edges = values/* default */.Z(outV);
if (!w) {
return edges;
}
return filter/* default */.Z(edges, function (edge) {
return edge.w === w;
});
}
}
nodeEdges(v, w) {
var inEdges = this.inEdges(v, w);
if (inEdges) {
return inEdges.concat(this.outEdges(v, w));
}
}
}
/* Number of nodes in the graph. Should only be changed by the implementation. */
Graph.prototype._nodeCount = 0;
/* Number of edges in the graph. Should only be changed by the implementation. */
Graph.prototype._edgeCount = 0;
function incrementOrInitEntry(map, k) {
if (map[k]) {
map[k]++;
} else {
map[k] = 1;
}
}
function decrementOrRemoveEntry(map, k) {
if (!--map[k]) {
delete map[k];
}
}
function edgeArgsToId(isDirected, v_, w_, name) {
var v = '' + v_;
var w = '' + w_;
if (!isDirected && v > w) {
var tmp = v;
v = w;
w = tmp;
}
return v + EDGE_KEY_DELIM + w + EDGE_KEY_DELIM + (isUndefined/* default */.Z(name) ? DEFAULT_EDGE_NAME : name);
}
function edgeArgsToObj(isDirected, v_, w_, name) {
var v = '' + v_;
var w = '' + w_;
if (!isDirected && v > w) {
var tmp = v;
v = w;
w = tmp;
}
var edgeObj = { v: v, w: w };
if (name) {
edgeObj.name = name;
}
return edgeObj;
}
function edgeObjToId(isDirected, edgeObj) {
return edgeArgsToId(isDirected, edgeObj.v, edgeObj.w, edgeObj.name);
}
/***/ }),
/***/ 45625:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ k: () => (/* reexport safe */ _graph_js__WEBPACK_IMPORTED_MODULE_0__.k)
/* harmony export */ });
/* unused harmony export version */
/* harmony import */ var _graph_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(52544);
// Includes only the "core" of graphlib
const version = '2.1.9-pre';
/***/ }),
/***/ 39354:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
c: () => (/* binding */ write)
});
// UNUSED EXPORTS: read
// EXTERNAL MODULE: ./node_modules/lodash-es/isUndefined.js
var isUndefined = __webpack_require__(49360);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseClone.js + 15 modules
var _baseClone = __webpack_require__(48451);
;// CONCATENATED MODULE: ./node_modules/lodash-es/clone.js
/** Used to compose bitmasks for cloning. */
var CLONE_SYMBOLS_FLAG = 4;
/**
* Creates a shallow clone of `value`.
*
* **Note:** This method is loosely based on the
* [structured clone algorithm](https://mdn.io/Structured_clone_algorithm)
* and supports cloning arrays, array buffers, booleans, date objects, maps,
* numbers, `Object` objects, regexes, sets, strings, symbols, and typed
* arrays. The own enumerable properties of `arguments` objects are cloned
* as plain objects. An empty object is returned for uncloneable values such
* as error objects, functions, DOM nodes, and WeakMaps.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to clone.
* @returns {*} Returns the cloned value.
* @see _.cloneDeep
* @example
*
* var objects = [{ 'a': 1 }, { 'b': 2 }];
*
* var shallow = _.clone(objects);
* console.log(shallow[0] === objects[0]);
* // => true
*/
function clone(value) {
return (0,_baseClone/* default */.Z)(value, CLONE_SYMBOLS_FLAG);
}
/* harmony default export */ const lodash_es_clone = (clone);
// EXTERNAL MODULE: ./node_modules/lodash-es/map.js
var map = __webpack_require__(43836);
// EXTERNAL MODULE: ./node_modules/dagre-d3-es/src/graphlib/graph.js + 9 modules
var graph = __webpack_require__(52544);
;// CONCATENATED MODULE: ./node_modules/dagre-d3-es/src/graphlib/json.js
function write(g) {
var json = {
options: {
directed: g.isDirected(),
multigraph: g.isMultigraph(),
compound: g.isCompound(),
},
nodes: writeNodes(g),
edges: writeEdges(g),
};
if (!isUndefined/* default */.Z(g.graph())) {
json.value = lodash_es_clone(g.graph());
}
return json;
}
function writeNodes(g) {
return map/* default */.Z(g.nodes(), function (v) {
var nodeValue = g.node(v);
var parent = g.parent(v);
var node = { v: v };
if (!isUndefined/* default */.Z(nodeValue)) {
node.value = nodeValue;
}
if (!isUndefined/* default */.Z(parent)) {
node.parent = parent;
}
return node;
});
}
function writeEdges(g) {
return map/* default */.Z(g.edges(), function (e) {
var edgeValue = g.edge(e);
var edge = { v: e.v, w: e.w };
if (!isUndefined/* default */.Z(e.name)) {
edge.name = e.name;
}
if (!isUndefined/* default */.Z(edgeValue)) {
edge.value = edgeValue;
}
return edge;
});
}
function read(json) {
var g = new Graph(json.options).setGraph(json.value);
_.each(json.nodes, function (entry) {
g.setNode(entry.v, entry.value);
if (entry.parent) {
g.setParent(entry.v, entry.parent);
}
});
_.each(json.edges, function (entry) {
g.setEdge({ v: entry.v, w: entry.w, name: entry.name }, entry.value);
});
return g;
}
/***/ }),
/***/ 63001:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _SetCache)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_MapCache.js + 14 modules
var _MapCache = __webpack_require__(37834);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_setCacheAdd.js
/** Used to stand-in for `undefined` hash values. */
var HASH_UNDEFINED = '__lodash_hash_undefined__';
/**
* Adds `value` to the array cache.
*
* @private
* @name add
* @memberOf SetCache
* @alias push
* @param {*} value The value to cache.
* @returns {Object} Returns the cache instance.
*/
function setCacheAdd(value) {
this.__data__.set(value, HASH_UNDEFINED);
return this;
}
/* harmony default export */ const _setCacheAdd = (setCacheAdd);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_setCacheHas.js
/**
* Checks if `value` is in the array cache.
*
* @private
* @name has
* @memberOf SetCache
* @param {*} value The value to search for.
* @returns {number} Returns `true` if `value` is found, else `false`.
*/
function setCacheHas(value) {
return this.__data__.has(value);
}
/* harmony default export */ const _setCacheHas = (setCacheHas);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_SetCache.js
/**
*
* Creates an array cache object to store unique values.
*
* @private
* @constructor
* @param {Array} [values] The values to cache.
*/
function SetCache(values) {
var index = -1,
length = values == null ? 0 : values.length;
this.__data__ = new _MapCache/* default */.Z;
while (++index < length) {
this.add(values[index]);
}
}
// Add methods to `SetCache`.
SetCache.prototype.add = SetCache.prototype.push = _setCacheAdd;
SetCache.prototype.has = _setCacheHas;
/* harmony default export */ const _SetCache = (SetCache);
/***/ }),
/***/ 76579:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* A specialized version of `_.forEach` for arrays without support for
* iteratee shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array} Returns `array`.
*/
function arrayEach(array, iteratee) {
var index = -1,
length = array == null ? 0 : array.length;
while (++index < length) {
if (iteratee(array[index], index, array) === false) {
break;
}
}
return array;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (arrayEach);
/***/ }),
/***/ 68774:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* A specialized version of `_.filter` for arrays without support for
* iteratee shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} predicate The function invoked per iteration.
* @returns {Array} Returns the new filtered array.
*/
function arrayFilter(array, predicate) {
var index = -1,
length = array == null ? 0 : array.length,
resIndex = 0,
result = [];
while (++index < length) {
var value = array[index];
if (predicate(value, index, array)) {
result[resIndex++] = value;
}
}
return result;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (arrayFilter);
/***/ }),
/***/ 74073:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* A specialized version of `_.map` for arrays without support for iteratee
* shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array} Returns the new mapped array.
*/
function arrayMap(array, iteratee) {
var index = -1,
length = array == null ? 0 : array.length,
result = Array(length);
while (++index < length) {
result[index] = iteratee(array[index], index, array);
}
return result;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (arrayMap);
/***/ }),
/***/ 58694:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* Appends the elements of `values` to `array`.
*
* @private
* @param {Array} array The array to modify.
* @param {Array} values The values to append.
* @returns {Array} Returns `array`.
*/
function arrayPush(array, values) {
var index = -1,
length = values.length,
offset = array.length;
while (++index < length) {
array[offset + index] = values[index];
}
return array;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (arrayPush);
/***/ }),
/***/ 48451:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _baseClone)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_Stack.js + 5 modules
var _Stack = __webpack_require__(31667);
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayEach.js
var _arrayEach = __webpack_require__(76579);
// EXTERNAL MODULE: ./node_modules/lodash-es/_assignValue.js
var _assignValue = __webpack_require__(72954);
// EXTERNAL MODULE: ./node_modules/lodash-es/_copyObject.js
var _copyObject = __webpack_require__(31899);
// EXTERNAL MODULE: ./node_modules/lodash-es/keys.js
var keys = __webpack_require__(17179);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseAssign.js
/**
* The base implementation of `_.assign` without support for multiple sources
* or `customizer` functions.
*
* @private
* @param {Object} object The destination object.
* @param {Object} source The source object.
* @returns {Object} Returns `object`.
*/
function baseAssign(object, source) {
return object && (0,_copyObject/* default */.Z)(source, (0,keys/* default */.Z)(source), object);
}
/* harmony default export */ const _baseAssign = (baseAssign);
// EXTERNAL MODULE: ./node_modules/lodash-es/keysIn.js + 2 modules
var keysIn = __webpack_require__(32957);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseAssignIn.js
/**
* The base implementation of `_.assignIn` without support for multiple sources
* or `customizer` functions.
*
* @private
* @param {Object} object The destination object.
* @param {Object} source The source object.
* @returns {Object} Returns `object`.
*/
function baseAssignIn(object, source) {
return object && (0,_copyObject/* default */.Z)(source, (0,keysIn/* default */.Z)(source), object);
}
/* harmony default export */ const _baseAssignIn = (baseAssignIn);
// EXTERNAL MODULE: ./node_modules/lodash-es/_cloneBuffer.js
var _cloneBuffer = __webpack_require__(91050);
// EXTERNAL MODULE: ./node_modules/lodash-es/_copyArray.js
var _copyArray = __webpack_require__(87215);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getSymbols.js
var _getSymbols = __webpack_require__(95695);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_copySymbols.js
/**
* Copies own symbols of `source` to `object`.
*
* @private
* @param {Object} source The object to copy symbols from.
* @param {Object} [object={}] The object to copy symbols to.
* @returns {Object} Returns `object`.
*/
function copySymbols(source, object) {
return (0,_copyObject/* default */.Z)(source, (0,_getSymbols/* default */.Z)(source), object);
}
/* harmony default export */ const _copySymbols = (copySymbols);
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayPush.js
var _arrayPush = __webpack_require__(58694);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getPrototype.js
var _getPrototype = __webpack_require__(12513);
// EXTERNAL MODULE: ./node_modules/lodash-es/stubArray.js
var stubArray = __webpack_require__(60532);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_getSymbolsIn.js
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeGetSymbols = Object.getOwnPropertySymbols;
/**
* Creates an array of the own and inherited enumerable symbols of `object`.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of symbols.
*/
var getSymbolsIn = !nativeGetSymbols ? stubArray/* default */.Z : function(object) {
var result = [];
while (object) {
(0,_arrayPush/* default */.Z)(result, (0,_getSymbols/* default */.Z)(object));
object = (0,_getPrototype/* default */.Z)(object);
}
return result;
};
/* harmony default export */ const _getSymbolsIn = (getSymbolsIn);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_copySymbolsIn.js
/**
* Copies own and inherited symbols of `source` to `object`.
*
* @private
* @param {Object} source The object to copy symbols from.
* @param {Object} [object={}] The object to copy symbols to.
* @returns {Object} Returns `object`.
*/
function copySymbolsIn(source, object) {
return (0,_copyObject/* default */.Z)(source, _getSymbolsIn(source), object);
}
/* harmony default export */ const _copySymbolsIn = (copySymbolsIn);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getAllKeys.js
var _getAllKeys = __webpack_require__(1808);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseGetAllKeys.js
var _baseGetAllKeys = __webpack_require__(63327);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_getAllKeysIn.js
/**
* Creates an array of own and inherited enumerable property names and
* symbols of `object`.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names and symbols.
*/
function getAllKeysIn(object) {
return (0,_baseGetAllKeys/* default */.Z)(object, keysIn/* default */.Z, _getSymbolsIn);
}
/* harmony default export */ const _getAllKeysIn = (getAllKeysIn);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getTag.js + 3 modules
var _getTag = __webpack_require__(83970);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_initCloneArray.js
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var _initCloneArray_hasOwnProperty = objectProto.hasOwnProperty;
/**
* Initializes an array clone.
*
* @private
* @param {Array} array The array to clone.
* @returns {Array} Returns the initialized clone.
*/
function initCloneArray(array) {
var length = array.length,
result = new array.constructor(length);
// Add properties assigned by `RegExp#exec`.
if (length && typeof array[0] == 'string' && _initCloneArray_hasOwnProperty.call(array, 'index')) {
result.index = array.index;
result.input = array.input;
}
return result;
}
/* harmony default export */ const _initCloneArray = (initCloneArray);
// EXTERNAL MODULE: ./node_modules/lodash-es/_cloneArrayBuffer.js
var _cloneArrayBuffer = __webpack_require__(41884);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_cloneDataView.js
/**
* Creates a clone of `dataView`.
*
* @private
* @param {Object} dataView The data view to clone.
* @param {boolean} [isDeep] Specify a deep clone.
* @returns {Object} Returns the cloned data view.
*/
function cloneDataView(dataView, isDeep) {
var buffer = isDeep ? (0,_cloneArrayBuffer/* default */.Z)(dataView.buffer) : dataView.buffer;
return new dataView.constructor(buffer, dataView.byteOffset, dataView.byteLength);
}
/* harmony default export */ const _cloneDataView = (cloneDataView);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_cloneRegExp.js
/** Used to match `RegExp` flags from their coerced string values. */
var reFlags = /\w*$/;
/**
* Creates a clone of `regexp`.
*
* @private
* @param {Object} regexp The regexp to clone.
* @returns {Object} Returns the cloned regexp.
*/
function cloneRegExp(regexp) {
var result = new regexp.constructor(regexp.source, reFlags.exec(regexp));
result.lastIndex = regexp.lastIndex;
return result;
}
/* harmony default export */ const _cloneRegExp = (cloneRegExp);
// EXTERNAL MODULE: ./node_modules/lodash-es/_Symbol.js
var _Symbol = __webpack_require__(17685);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_cloneSymbol.js
/** Used to convert symbols to primitives and strings. */
var symbolProto = _Symbol/* default */.Z ? _Symbol/* default */.Z.prototype : undefined,
symbolValueOf = symbolProto ? symbolProto.valueOf : undefined;
/**
* Creates a clone of the `symbol` object.
*
* @private
* @param {Object} symbol The symbol object to clone.
* @returns {Object} Returns the cloned symbol object.
*/
function cloneSymbol(symbol) {
return symbolValueOf ? Object(symbolValueOf.call(symbol)) : {};
}
/* harmony default export */ const _cloneSymbol = (cloneSymbol);
// EXTERNAL MODULE: ./node_modules/lodash-es/_cloneTypedArray.js
var _cloneTypedArray = __webpack_require__(12701);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_initCloneByTag.js
/** `Object#toString` result references. */
var boolTag = '[object Boolean]',
dateTag = '[object Date]',
mapTag = '[object Map]',
numberTag = '[object Number]',
regexpTag = '[object RegExp]',
setTag = '[object Set]',
stringTag = '[object String]',
symbolTag = '[object Symbol]';
var arrayBufferTag = '[object ArrayBuffer]',
dataViewTag = '[object DataView]',
float32Tag = '[object Float32Array]',
float64Tag = '[object Float64Array]',
int8Tag = '[object Int8Array]',
int16Tag = '[object Int16Array]',
int32Tag = '[object Int32Array]',
uint8Tag = '[object Uint8Array]',
uint8ClampedTag = '[object Uint8ClampedArray]',
uint16Tag = '[object Uint16Array]',
uint32Tag = '[object Uint32Array]';
/**
* Initializes an object clone based on its `toStringTag`.
*
* **Note:** This function only supports cloning values with tags of
* `Boolean`, `Date`, `Error`, `Map`, `Number`, `RegExp`, `Set`, or `String`.
*
* @private
* @param {Object} object The object to clone.
* @param {string} tag The `toStringTag` of the object to clone.
* @param {boolean} [isDeep] Specify a deep clone.
* @returns {Object} Returns the initialized clone.
*/
function initCloneByTag(object, tag, isDeep) {
var Ctor = object.constructor;
switch (tag) {
case arrayBufferTag:
return (0,_cloneArrayBuffer/* default */.Z)(object);
case boolTag:
case dateTag:
return new Ctor(+object);
case dataViewTag:
return _cloneDataView(object, isDeep);
case float32Tag: case float64Tag:
case int8Tag: case int16Tag: case int32Tag:
case uint8Tag: case uint8ClampedTag: case uint16Tag: case uint32Tag:
return (0,_cloneTypedArray/* default */.Z)(object, isDeep);
case mapTag:
return new Ctor;
case numberTag:
case stringTag:
return new Ctor(object);
case regexpTag:
return _cloneRegExp(object);
case setTag:
return new Ctor;
case symbolTag:
return _cloneSymbol(object);
}
}
/* harmony default export */ const _initCloneByTag = (initCloneByTag);
// EXTERNAL MODULE: ./node_modules/lodash-es/_initCloneObject.js + 1 modules
var _initCloneObject = __webpack_require__(73658);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
// EXTERNAL MODULE: ./node_modules/lodash-es/isBuffer.js + 1 modules
var isBuffer = __webpack_require__(77008);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObjectLike.js
var isObjectLike = __webpack_require__(18533);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsMap.js
/** `Object#toString` result references. */
var _baseIsMap_mapTag = '[object Map]';
/**
* The base implementation of `_.isMap` without Node.js optimizations.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a map, else `false`.
*/
function baseIsMap(value) {
return (0,isObjectLike/* default */.Z)(value) && (0,_getTag/* default */.Z)(value) == _baseIsMap_mapTag;
}
/* harmony default export */ const _baseIsMap = (baseIsMap);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseUnary.js
var _baseUnary = __webpack_require__(21162);
// EXTERNAL MODULE: ./node_modules/lodash-es/_nodeUtil.js
var _nodeUtil = __webpack_require__(98351);
;// CONCATENATED MODULE: ./node_modules/lodash-es/isMap.js
/* Node.js helper references. */
var nodeIsMap = _nodeUtil/* default */.Z && _nodeUtil/* default */.Z.isMap;
/**
* Checks if `value` is classified as a `Map` object.
*
* @static
* @memberOf _
* @since 4.3.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a map, else `false`.
* @example
*
* _.isMap(new Map);
* // => true
*
* _.isMap(new WeakMap);
* // => false
*/
var isMap = nodeIsMap ? (0,_baseUnary/* default */.Z)(nodeIsMap) : _baseIsMap;
/* harmony default export */ const lodash_es_isMap = (isMap);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObject.js
var isObject = __webpack_require__(77226);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsSet.js
/** `Object#toString` result references. */
var _baseIsSet_setTag = '[object Set]';
/**
* The base implementation of `_.isSet` without Node.js optimizations.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a set, else `false`.
*/
function baseIsSet(value) {
return (0,isObjectLike/* default */.Z)(value) && (0,_getTag/* default */.Z)(value) == _baseIsSet_setTag;
}
/* harmony default export */ const _baseIsSet = (baseIsSet);
;// CONCATENATED MODULE: ./node_modules/lodash-es/isSet.js
/* Node.js helper references. */
var nodeIsSet = _nodeUtil/* default */.Z && _nodeUtil/* default */.Z.isSet;
/**
* Checks if `value` is classified as a `Set` object.
*
* @static
* @memberOf _
* @since 4.3.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a set, else `false`.
* @example
*
* _.isSet(new Set);
* // => true
*
* _.isSet(new WeakSet);
* // => false
*/
var isSet = nodeIsSet ? (0,_baseUnary/* default */.Z)(nodeIsSet) : _baseIsSet;
/* harmony default export */ const lodash_es_isSet = (isSet);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseClone.js
/** Used to compose bitmasks for cloning. */
var CLONE_DEEP_FLAG = 1,
CLONE_FLAT_FLAG = 2,
CLONE_SYMBOLS_FLAG = 4;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
arrayTag = '[object Array]',
_baseClone_boolTag = '[object Boolean]',
_baseClone_dateTag = '[object Date]',
errorTag = '[object Error]',
funcTag = '[object Function]',
genTag = '[object GeneratorFunction]',
_baseClone_mapTag = '[object Map]',
_baseClone_numberTag = '[object Number]',
objectTag = '[object Object]',
_baseClone_regexpTag = '[object RegExp]',
_baseClone_setTag = '[object Set]',
_baseClone_stringTag = '[object String]',
_baseClone_symbolTag = '[object Symbol]',
weakMapTag = '[object WeakMap]';
var _baseClone_arrayBufferTag = '[object ArrayBuffer]',
_baseClone_dataViewTag = '[object DataView]',
_baseClone_float32Tag = '[object Float32Array]',
_baseClone_float64Tag = '[object Float64Array]',
_baseClone_int8Tag = '[object Int8Array]',
_baseClone_int16Tag = '[object Int16Array]',
_baseClone_int32Tag = '[object Int32Array]',
_baseClone_uint8Tag = '[object Uint8Array]',
_baseClone_uint8ClampedTag = '[object Uint8ClampedArray]',
_baseClone_uint16Tag = '[object Uint16Array]',
_baseClone_uint32Tag = '[object Uint32Array]';
/** Used to identify `toStringTag` values supported by `_.clone`. */
var cloneableTags = {};
cloneableTags[argsTag] = cloneableTags[arrayTag] =
cloneableTags[_baseClone_arrayBufferTag] = cloneableTags[_baseClone_dataViewTag] =
cloneableTags[_baseClone_boolTag] = cloneableTags[_baseClone_dateTag] =
cloneableTags[_baseClone_float32Tag] = cloneableTags[_baseClone_float64Tag] =
cloneableTags[_baseClone_int8Tag] = cloneableTags[_baseClone_int16Tag] =
cloneableTags[_baseClone_int32Tag] = cloneableTags[_baseClone_mapTag] =
cloneableTags[_baseClone_numberTag] = cloneableTags[objectTag] =
cloneableTags[_baseClone_regexpTag] = cloneableTags[_baseClone_setTag] =
cloneableTags[_baseClone_stringTag] = cloneableTags[_baseClone_symbolTag] =
cloneableTags[_baseClone_uint8Tag] = cloneableTags[_baseClone_uint8ClampedTag] =
cloneableTags[_baseClone_uint16Tag] = cloneableTags[_baseClone_uint32Tag] = true;
cloneableTags[errorTag] = cloneableTags[funcTag] =
cloneableTags[weakMapTag] = false;
/**
* The base implementation of `_.clone` and `_.cloneDeep` which tracks
* traversed objects.
*
* @private
* @param {*} value The value to clone.
* @param {boolean} bitmask The bitmask flags.
* 1 - Deep clone
* 2 - Flatten inherited properties
* 4 - Clone symbols
* @param {Function} [customizer] The function to customize cloning.
* @param {string} [key] The key of `value`.
* @param {Object} [object] The parent object of `value`.
* @param {Object} [stack] Tracks traversed objects and their clone counterparts.
* @returns {*} Returns the cloned value.
*/
function baseClone(value, bitmask, customizer, key, object, stack) {
var result,
isDeep = bitmask & CLONE_DEEP_FLAG,
isFlat = bitmask & CLONE_FLAT_FLAG,
isFull = bitmask & CLONE_SYMBOLS_FLAG;
if (customizer) {
result = object ? customizer(value, key, object, stack) : customizer(value);
}
if (result !== undefined) {
return result;
}
if (!(0,isObject/* default */.Z)(value)) {
return value;
}
var isArr = (0,isArray/* default */.Z)(value);
if (isArr) {
result = _initCloneArray(value);
if (!isDeep) {
return (0,_copyArray/* default */.Z)(value, result);
}
} else {
var tag = (0,_getTag/* default */.Z)(value),
isFunc = tag == funcTag || tag == genTag;
if ((0,isBuffer/* default */.Z)(value)) {
return (0,_cloneBuffer/* default */.Z)(value, isDeep);
}
if (tag == objectTag || tag == argsTag || (isFunc && !object)) {
result = (isFlat || isFunc) ? {} : (0,_initCloneObject/* default */.Z)(value);
if (!isDeep) {
return isFlat
? _copySymbolsIn(value, _baseAssignIn(result, value))
: _copySymbols(value, _baseAssign(result, value));
}
} else {
if (!cloneableTags[tag]) {
return object ? value : {};
}
result = _initCloneByTag(value, tag, isDeep);
}
}
// Check for circular references and return its corresponding clone.
stack || (stack = new _Stack/* default */.Z);
var stacked = stack.get(value);
if (stacked) {
return stacked;
}
stack.set(value, result);
if (lodash_es_isSet(value)) {
value.forEach(function(subValue) {
result.add(baseClone(subValue, bitmask, customizer, subValue, value, stack));
});
} else if (lodash_es_isMap(value)) {
value.forEach(function(subValue, key) {
result.set(key, baseClone(subValue, bitmask, customizer, key, value, stack));
});
}
var keysFunc = isFull
? (isFlat ? _getAllKeysIn : _getAllKeys/* default */.Z)
: (isFlat ? keysIn/* default */.Z : keys/* default */.Z);
var props = isArr ? undefined : keysFunc(value);
(0,_arrayEach/* default */.Z)(props || value, function(subValue, key) {
if (props) {
key = subValue;
subValue = value[key];
}
// Recursively populate clone (susceptible to call stack limits).
(0,_assignValue/* default */.Z)(result, key, baseClone(subValue, bitmask, customizer, key, value, stack));
});
return result;
}
/* harmony default export */ const _baseClone = (baseClone);
/***/ }),
/***/ 49811:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _baseEach)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseForOwn.js
var _baseForOwn = __webpack_require__(2693);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArrayLike.js
var isArrayLike = __webpack_require__(50585);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_createBaseEach.js
/**
* Creates a `baseEach` or `baseEachRight` function.
*
* @private
* @param {Function} eachFunc The function to iterate over a collection.
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {Function} Returns the new base function.
*/
function createBaseEach(eachFunc, fromRight) {
return function(collection, iteratee) {
if (collection == null) {
return collection;
}
if (!(0,isArrayLike/* default */.Z)(collection)) {
return eachFunc(collection, iteratee);
}
var length = collection.length,
index = fromRight ? length : -1,
iterable = Object(collection);
while ((fromRight ? index-- : ++index < length)) {
if (iteratee(iterable[index], index, iterable) === false) {
break;
}
}
return collection;
};
}
/* harmony default export */ const _createBaseEach = (createBaseEach);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseEach.js
/**
* The base implementation of `_.forEach` without support for iteratee shorthands.
*
* @private
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array|Object} Returns `collection`.
*/
var baseEach = _createBaseEach(_baseForOwn/* default */.Z);
/* harmony default export */ const _baseEach = (baseEach);
/***/ }),
/***/ 21692:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* The base implementation of `_.findIndex` and `_.findLastIndex` without
* support for iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Function} predicate The function invoked per iteration.
* @param {number} fromIndex The index to search from.
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseFindIndex(array, predicate, fromIndex, fromRight) {
var length = array.length,
index = fromIndex + (fromRight ? 1 : -1);
while ((fromRight ? index-- : ++index < length)) {
if (predicate(array[index], index, array)) {
return index;
}
}
return -1;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseFindIndex);
/***/ }),
/***/ 10626:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _baseFlatten)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayPush.js
var _arrayPush = __webpack_require__(58694);
// EXTERNAL MODULE: ./node_modules/lodash-es/_Symbol.js
var _Symbol = __webpack_require__(17685);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArguments.js + 1 modules
var isArguments = __webpack_require__(29169);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_isFlattenable.js
/** Built-in value references. */
var spreadableSymbol = _Symbol/* default */.Z ? _Symbol/* default */.Z.isConcatSpreadable : undefined;
/**
* Checks if `value` is a flattenable `arguments` object or array.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is flattenable, else `false`.
*/
function isFlattenable(value) {
return (0,isArray/* default */.Z)(value) || (0,isArguments/* default */.Z)(value) ||
!!(spreadableSymbol && value && value[spreadableSymbol]);
}
/* harmony default export */ const _isFlattenable = (isFlattenable);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseFlatten.js
/**
* The base implementation of `_.flatten` with support for restricting flattening.
*
* @private
* @param {Array} array The array to flatten.
* @param {number} depth The maximum recursion depth.
* @param {boolean} [predicate=isFlattenable] The function invoked per iteration.
* @param {boolean} [isStrict] Restrict to values that pass `predicate` checks.
* @param {Array} [result=[]] The initial result value.
* @returns {Array} Returns the new flattened array.
*/
function baseFlatten(array, depth, predicate, isStrict, result) {
var index = -1,
length = array.length;
predicate || (predicate = _isFlattenable);
result || (result = []);
while (++index < length) {
var value = array[index];
if (depth > 0 && predicate(value)) {
if (depth > 1) {
// Recursively flatten arrays (susceptible to call stack limits).
baseFlatten(value, depth - 1, predicate, isStrict, result);
} else {
(0,_arrayPush/* default */.Z)(result, value);
}
} else if (!isStrict) {
result[result.length] = value;
}
}
return result;
}
/* harmony default export */ const _baseFlatten = (baseFlatten);
/***/ }),
/***/ 2693:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseFor_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(61395);
/* harmony import */ var _keys_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(17179);
/**
* The base implementation of `_.forOwn` without support for iteratee shorthands.
*
* @private
* @param {Object} object The object to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Object} Returns `object`.
*/
function baseForOwn(object, iteratee) {
return object && (0,_baseFor_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(object, iteratee, _keys_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z);
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseForOwn);
/***/ }),
/***/ 13317:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _castPath_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(22823);
/* harmony import */ var _toKey_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(62281);
/**
* The base implementation of `_.get` without support for default values.
*
* @private
* @param {Object} object The object to query.
* @param {Array|string} path The path of the property to get.
* @returns {*} Returns the resolved value.
*/
function baseGet(object, path) {
path = (0,_castPath_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(path, object);
var index = 0,
length = path.length;
while (object != null && index < length) {
object = object[(0,_toKey_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(path[index++])];
}
return (index && index == length) ? object : undefined;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseGet);
/***/ }),
/***/ 63327:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _arrayPush_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(58694);
/* harmony import */ var _isArray_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(27771);
/**
* The base implementation of `getAllKeys` and `getAllKeysIn` which uses
* `keysFunc` and `symbolsFunc` to get the enumerable property names and
* symbols of `object`.
*
* @private
* @param {Object} object The object to query.
* @param {Function} keysFunc The function to get the keys of `object`.
* @param {Function} symbolsFunc The function to get the symbols of `object`.
* @returns {Array} Returns the array of property names and symbols.
*/
function baseGetAllKeys(object, keysFunc, symbolsFunc) {
var result = keysFunc(object);
return (0,_isArray_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(object) ? result : (0,_arrayPush_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(result, symbolsFunc(object));
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseGetAllKeys);
/***/ }),
/***/ 74765:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _baseIteratee)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_Stack.js + 5 modules
var _Stack = __webpack_require__(31667);
// EXTERNAL MODULE: ./node_modules/lodash-es/_SetCache.js + 2 modules
var _SetCache = __webpack_require__(63001);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_arraySome.js
/**
* A specialized version of `_.some` for arrays without support for iteratee
* shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} predicate The function invoked per iteration.
* @returns {boolean} Returns `true` if any element passes the predicate check,
* else `false`.
*/
function arraySome(array, predicate) {
var index = -1,
length = array == null ? 0 : array.length;
while (++index < length) {
if (predicate(array[index], index, array)) {
return true;
}
}
return false;
}
/* harmony default export */ const _arraySome = (arraySome);
// EXTERNAL MODULE: ./node_modules/lodash-es/_cacheHas.js
var _cacheHas = __webpack_require__(59548);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_equalArrays.js
/** Used to compose bitmasks for value comparisons. */
var COMPARE_PARTIAL_FLAG = 1,
COMPARE_UNORDERED_FLAG = 2;
/**
* A specialized version of `baseIsEqualDeep` for arrays with support for
* partial deep comparisons.
*
* @private
* @param {Array} array The array to compare.
* @param {Array} other The other array to compare.
* @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details.
* @param {Function} customizer The function to customize comparisons.
* @param {Function} equalFunc The function to determine equivalents of values.
* @param {Object} stack Tracks traversed `array` and `other` objects.
* @returns {boolean} Returns `true` if the arrays are equivalent, else `false`.
*/
function equalArrays(array, other, bitmask, customizer, equalFunc, stack) {
var isPartial = bitmask & COMPARE_PARTIAL_FLAG,
arrLength = array.length,
othLength = other.length;
if (arrLength != othLength && !(isPartial && othLength > arrLength)) {
return false;
}
// Check that cyclic values are equal.
var arrStacked = stack.get(array);
var othStacked = stack.get(other);
if (arrStacked && othStacked) {
return arrStacked == other && othStacked == array;
}
var index = -1,
result = true,
seen = (bitmask & COMPARE_UNORDERED_FLAG) ? new _SetCache/* default */.Z : undefined;
stack.set(array, other);
stack.set(other, array);
// Ignore non-index properties.
while (++index < arrLength) {
var arrValue = array[index],
othValue = other[index];
if (customizer) {
var compared = isPartial
? customizer(othValue, arrValue, index, other, array, stack)
: customizer(arrValue, othValue, index, array, other, stack);
}
if (compared !== undefined) {
if (compared) {
continue;
}
result = false;
break;
}
// Recursively compare arrays (susceptible to call stack limits).
if (seen) {
if (!_arraySome(other, function(othValue, othIndex) {
if (!(0,_cacheHas/* default */.Z)(seen, othIndex) &&
(arrValue === othValue || equalFunc(arrValue, othValue, bitmask, customizer, stack))) {
return seen.push(othIndex);
}
})) {
result = false;
break;
}
} else if (!(
arrValue === othValue ||
equalFunc(arrValue, othValue, bitmask, customizer, stack)
)) {
result = false;
break;
}
}
stack['delete'](array);
stack['delete'](other);
return result;
}
/* harmony default export */ const _equalArrays = (equalArrays);
// EXTERNAL MODULE: ./node_modules/lodash-es/_Symbol.js
var _Symbol = __webpack_require__(17685);
// EXTERNAL MODULE: ./node_modules/lodash-es/_Uint8Array.js
var _Uint8Array = __webpack_require__(84073);
// EXTERNAL MODULE: ./node_modules/lodash-es/eq.js
var eq = __webpack_require__(79651);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_mapToArray.js
/**
* Converts `map` to its key-value pairs.
*
* @private
* @param {Object} map The map to convert.
* @returns {Array} Returns the key-value pairs.
*/
function mapToArray(map) {
var index = -1,
result = Array(map.size);
map.forEach(function(value, key) {
result[++index] = [key, value];
});
return result;
}
/* harmony default export */ const _mapToArray = (mapToArray);
// EXTERNAL MODULE: ./node_modules/lodash-es/_setToArray.js
var _setToArray = __webpack_require__(6545);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_equalByTag.js
/** Used to compose bitmasks for value comparisons. */
var _equalByTag_COMPARE_PARTIAL_FLAG = 1,
_equalByTag_COMPARE_UNORDERED_FLAG = 2;
/** `Object#toString` result references. */
var boolTag = '[object Boolean]',
dateTag = '[object Date]',
errorTag = '[object Error]',
mapTag = '[object Map]',
numberTag = '[object Number]',
regexpTag = '[object RegExp]',
setTag = '[object Set]',
stringTag = '[object String]',
symbolTag = '[object Symbol]';
var arrayBufferTag = '[object ArrayBuffer]',
dataViewTag = '[object DataView]';
/** Used to convert symbols to primitives and strings. */
var symbolProto = _Symbol/* default */.Z ? _Symbol/* default */.Z.prototype : undefined,
symbolValueOf = symbolProto ? symbolProto.valueOf : undefined;
/**
* A specialized version of `baseIsEqualDeep` for comparing objects of
* the same `toStringTag`.
*
* **Note:** This function only supports comparing values with tags of
* `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`.
*
* @private
* @param {Object} object The object to compare.
* @param {Object} other The other object to compare.
* @param {string} tag The `toStringTag` of the objects to compare.
* @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details.
* @param {Function} customizer The function to customize comparisons.
* @param {Function} equalFunc The function to determine equivalents of values.
* @param {Object} stack Tracks traversed `object` and `other` objects.
* @returns {boolean} Returns `true` if the objects are equivalent, else `false`.
*/
function equalByTag(object, other, tag, bitmask, customizer, equalFunc, stack) {
switch (tag) {
case dataViewTag:
if ((object.byteLength != other.byteLength) ||
(object.byteOffset != other.byteOffset)) {
return false;
}
object = object.buffer;
other = other.buffer;
case arrayBufferTag:
if ((object.byteLength != other.byteLength) ||
!equalFunc(new _Uint8Array/* default */.Z(object), new _Uint8Array/* default */.Z(other))) {
return false;
}
return true;
case boolTag:
case dateTag:
case numberTag:
// Coerce booleans to `1` or `0` and dates to milliseconds.
// Invalid dates are coerced to `NaN`.
return (0,eq/* default */.Z)(+object, +other);
case errorTag:
return object.name == other.name && object.message == other.message;
case regexpTag:
case stringTag:
// Coerce regexes to strings and treat strings, primitives and objects,
// as equal. See http://www.ecma-international.org/ecma-262/7.0/#sec-regexp.prototype.tostring
// for more details.
return object == (other + '');
case mapTag:
var convert = _mapToArray;
case setTag:
var isPartial = bitmask & _equalByTag_COMPARE_PARTIAL_FLAG;
convert || (convert = _setToArray/* default */.Z);
if (object.size != other.size && !isPartial) {
return false;
}
// Assume cyclic values are equal.
var stacked = stack.get(object);
if (stacked) {
return stacked == other;
}
bitmask |= _equalByTag_COMPARE_UNORDERED_FLAG;
// Recursively compare objects (susceptible to call stack limits).
stack.set(object, other);
var result = _equalArrays(convert(object), convert(other), bitmask, customizer, equalFunc, stack);
stack['delete'](object);
return result;
case symbolTag:
if (symbolValueOf) {
return symbolValueOf.call(object) == symbolValueOf.call(other);
}
}
return false;
}
/* harmony default export */ const _equalByTag = (equalByTag);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getAllKeys.js
var _getAllKeys = __webpack_require__(1808);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_equalObjects.js
/** Used to compose bitmasks for value comparisons. */
var _equalObjects_COMPARE_PARTIAL_FLAG = 1;
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var _equalObjects_hasOwnProperty = objectProto.hasOwnProperty;
/**
* A specialized version of `baseIsEqualDeep` for objects with support for
* partial deep comparisons.
*
* @private
* @param {Object} object The object to compare.
* @param {Object} other The other object to compare.
* @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details.
* @param {Function} customizer The function to customize comparisons.
* @param {Function} equalFunc The function to determine equivalents of values.
* @param {Object} stack Tracks traversed `object` and `other` objects.
* @returns {boolean} Returns `true` if the objects are equivalent, else `false`.
*/
function equalObjects(object, other, bitmask, customizer, equalFunc, stack) {
var isPartial = bitmask & _equalObjects_COMPARE_PARTIAL_FLAG,
objProps = (0,_getAllKeys/* default */.Z)(object),
objLength = objProps.length,
othProps = (0,_getAllKeys/* default */.Z)(other),
othLength = othProps.length;
if (objLength != othLength && !isPartial) {
return false;
}
var index = objLength;
while (index--) {
var key = objProps[index];
if (!(isPartial ? key in other : _equalObjects_hasOwnProperty.call(other, key))) {
return false;
}
}
// Check that cyclic values are equal.
var objStacked = stack.get(object);
var othStacked = stack.get(other);
if (objStacked && othStacked) {
return objStacked == other && othStacked == object;
}
var result = true;
stack.set(object, other);
stack.set(other, object);
var skipCtor = isPartial;
while (++index < objLength) {
key = objProps[index];
var objValue = object[key],
othValue = other[key];
if (customizer) {
var compared = isPartial
? customizer(othValue, objValue, key, other, object, stack)
: customizer(objValue, othValue, key, object, other, stack);
}
// Recursively compare objects (susceptible to call stack limits).
if (!(compared === undefined
? (objValue === othValue || equalFunc(objValue, othValue, bitmask, customizer, stack))
: compared
)) {
result = false;
break;
}
skipCtor || (skipCtor = key == 'constructor');
}
if (result && !skipCtor) {
var objCtor = object.constructor,
othCtor = other.constructor;
// Non `Object` object instances with different constructors are not equal.
if (objCtor != othCtor &&
('constructor' in object && 'constructor' in other) &&
!(typeof objCtor == 'function' && objCtor instanceof objCtor &&
typeof othCtor == 'function' && othCtor instanceof othCtor)) {
result = false;
}
}
stack['delete'](object);
stack['delete'](other);
return result;
}
/* harmony default export */ const _equalObjects = (equalObjects);
// EXTERNAL MODULE: ./node_modules/lodash-es/_getTag.js + 3 modules
var _getTag = __webpack_require__(83970);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
// EXTERNAL MODULE: ./node_modules/lodash-es/isBuffer.js + 1 modules
var isBuffer = __webpack_require__(77008);
// EXTERNAL MODULE: ./node_modules/lodash-es/isTypedArray.js + 1 modules
var isTypedArray = __webpack_require__(18843);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsEqualDeep.js
/** Used to compose bitmasks for value comparisons. */
var _baseIsEqualDeep_COMPARE_PARTIAL_FLAG = 1;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
arrayTag = '[object Array]',
objectTag = '[object Object]';
/** Used for built-in method references. */
var _baseIsEqualDeep_objectProto = Object.prototype;
/** Used to check objects for own properties. */
var _baseIsEqualDeep_hasOwnProperty = _baseIsEqualDeep_objectProto.hasOwnProperty;
/**
* A specialized version of `baseIsEqual` for arrays and objects which performs
* deep comparisons and tracks traversed objects enabling objects with circular
* references to be compared.
*
* @private
* @param {Object} object The object to compare.
* @param {Object} other The other object to compare.
* @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details.
* @param {Function} customizer The function to customize comparisons.
* @param {Function} equalFunc The function to determine equivalents of values.
* @param {Object} [stack] Tracks traversed `object` and `other` objects.
* @returns {boolean} Returns `true` if the objects are equivalent, else `false`.
*/
function baseIsEqualDeep(object, other, bitmask, customizer, equalFunc, stack) {
var objIsArr = (0,isArray/* default */.Z)(object),
othIsArr = (0,isArray/* default */.Z)(other),
objTag = objIsArr ? arrayTag : (0,_getTag/* default */.Z)(object),
othTag = othIsArr ? arrayTag : (0,_getTag/* default */.Z)(other);
objTag = objTag == argsTag ? objectTag : objTag;
othTag = othTag == argsTag ? objectTag : othTag;
var objIsObj = objTag == objectTag,
othIsObj = othTag == objectTag,
isSameTag = objTag == othTag;
if (isSameTag && (0,isBuffer/* default */.Z)(object)) {
if (!(0,isBuffer/* default */.Z)(other)) {
return false;
}
objIsArr = true;
objIsObj = false;
}
if (isSameTag && !objIsObj) {
stack || (stack = new _Stack/* default */.Z);
return (objIsArr || (0,isTypedArray/* default */.Z)(object))
? _equalArrays(object, other, bitmask, customizer, equalFunc, stack)
: _equalByTag(object, other, objTag, bitmask, customizer, equalFunc, stack);
}
if (!(bitmask & _baseIsEqualDeep_COMPARE_PARTIAL_FLAG)) {
var objIsWrapped = objIsObj && _baseIsEqualDeep_hasOwnProperty.call(object, '__wrapped__'),
othIsWrapped = othIsObj && _baseIsEqualDeep_hasOwnProperty.call(other, '__wrapped__');
if (objIsWrapped || othIsWrapped) {
var objUnwrapped = objIsWrapped ? object.value() : object,
othUnwrapped = othIsWrapped ? other.value() : other;
stack || (stack = new _Stack/* default */.Z);
return equalFunc(objUnwrapped, othUnwrapped, bitmask, customizer, stack);
}
}
if (!isSameTag) {
return false;
}
stack || (stack = new _Stack/* default */.Z);
return _equalObjects(object, other, bitmask, customizer, equalFunc, stack);
}
/* harmony default export */ const _baseIsEqualDeep = (baseIsEqualDeep);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObjectLike.js
var isObjectLike = __webpack_require__(18533);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsEqual.js
/**
* The base implementation of `_.isEqual` which supports partial comparisons
* and tracks traversed objects.
*
* @private
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @param {boolean} bitmask The bitmask flags.
* 1 - Unordered comparison
* 2 - Partial comparison
* @param {Function} [customizer] The function to customize comparisons.
* @param {Object} [stack] Tracks traversed `value` and `other` objects.
* @returns {boolean} Returns `true` if the values are equivalent, else `false`.
*/
function baseIsEqual(value, other, bitmask, customizer, stack) {
if (value === other) {
return true;
}
if (value == null || other == null || (!(0,isObjectLike/* default */.Z)(value) && !(0,isObjectLike/* default */.Z)(other))) {
return value !== value && other !== other;
}
return _baseIsEqualDeep(value, other, bitmask, customizer, baseIsEqual, stack);
}
/* harmony default export */ const _baseIsEqual = (baseIsEqual);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIsMatch.js
/** Used to compose bitmasks for value comparisons. */
var _baseIsMatch_COMPARE_PARTIAL_FLAG = 1,
_baseIsMatch_COMPARE_UNORDERED_FLAG = 2;
/**
* The base implementation of `_.isMatch` without support for iteratee shorthands.
*
* @private
* @param {Object} object The object to inspect.
* @param {Object} source The object of property values to match.
* @param {Array} matchData The property names, values, and compare flags to match.
* @param {Function} [customizer] The function to customize comparisons.
* @returns {boolean} Returns `true` if `object` is a match, else `false`.
*/
function baseIsMatch(object, source, matchData, customizer) {
var index = matchData.length,
length = index,
noCustomizer = !customizer;
if (object == null) {
return !length;
}
object = Object(object);
while (index--) {
var data = matchData[index];
if ((noCustomizer && data[2])
? data[1] !== object[data[0]]
: !(data[0] in object)
) {
return false;
}
}
while (++index < length) {
data = matchData[index];
var key = data[0],
objValue = object[key],
srcValue = data[1];
if (noCustomizer && data[2]) {
if (objValue === undefined && !(key in object)) {
return false;
}
} else {
var stack = new _Stack/* default */.Z;
if (customizer) {
var result = customizer(objValue, srcValue, key, object, source, stack);
}
if (!(result === undefined
? _baseIsEqual(srcValue, objValue, _baseIsMatch_COMPARE_PARTIAL_FLAG | _baseIsMatch_COMPARE_UNORDERED_FLAG, customizer, stack)
: result
)) {
return false;
}
}
}
return true;
}
/* harmony default export */ const _baseIsMatch = (baseIsMatch);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObject.js
var isObject = __webpack_require__(77226);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_isStrictComparable.js
/**
* Checks if `value` is suitable for strict equality comparisons, i.e. `===`.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` if suitable for strict
* equality comparisons, else `false`.
*/
function isStrictComparable(value) {
return value === value && !(0,isObject/* default */.Z)(value);
}
/* harmony default export */ const _isStrictComparable = (isStrictComparable);
// EXTERNAL MODULE: ./node_modules/lodash-es/keys.js
var keys = __webpack_require__(17179);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_getMatchData.js
/**
* Gets the property names, values, and compare flags of `object`.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the match data of `object`.
*/
function getMatchData(object) {
var result = (0,keys/* default */.Z)(object),
length = result.length;
while (length--) {
var key = result[length],
value = object[key];
result[length] = [key, value, _isStrictComparable(value)];
}
return result;
}
/* harmony default export */ const _getMatchData = (getMatchData);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_matchesStrictComparable.js
/**
* A specialized version of `matchesProperty` for source values suitable
* for strict equality comparisons, i.e. `===`.
*
* @private
* @param {string} key The key of the property to get.
* @param {*} srcValue The value to match.
* @returns {Function} Returns the new spec function.
*/
function matchesStrictComparable(key, srcValue) {
return function(object) {
if (object == null) {
return false;
}
return object[key] === srcValue &&
(srcValue !== undefined || (key in Object(object)));
};
}
/* harmony default export */ const _matchesStrictComparable = (matchesStrictComparable);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseMatches.js
/**
* The base implementation of `_.matches` which doesn't clone `source`.
*
* @private
* @param {Object} source The object of property values to match.
* @returns {Function} Returns the new spec function.
*/
function baseMatches(source) {
var matchData = _getMatchData(source);
if (matchData.length == 1 && matchData[0][2]) {
return _matchesStrictComparable(matchData[0][0], matchData[0][1]);
}
return function(object) {
return object === source || _baseIsMatch(object, source, matchData);
};
}
/* harmony default export */ const _baseMatches = (baseMatches);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseGet.js
var _baseGet = __webpack_require__(13317);
;// CONCATENATED MODULE: ./node_modules/lodash-es/get.js
/**
* Gets the value at `path` of `object`. If the resolved value is
* `undefined`, the `defaultValue` is returned in its place.
*
* @static
* @memberOf _
* @since 3.7.0
* @category Object
* @param {Object} object The object to query.
* @param {Array|string} path The path of the property to get.
* @param {*} [defaultValue] The value returned for `undefined` resolved values.
* @returns {*} Returns the resolved value.
* @example
*
* var object = { 'a': [{ 'b': { 'c': 3 } }] };
*
* _.get(object, 'a[0].b.c');
* // => 3
*
* _.get(object, ['a', '0', 'b', 'c']);
* // => 3
*
* _.get(object, 'a.b.c', 'default');
* // => 'default'
*/
function get(object, path, defaultValue) {
var result = object == null ? undefined : (0,_baseGet/* default */.Z)(object, path);
return result === undefined ? defaultValue : result;
}
/* harmony default export */ const lodash_es_get = (get);
// EXTERNAL MODULE: ./node_modules/lodash-es/hasIn.js + 1 modules
var hasIn = __webpack_require__(75487);
// EXTERNAL MODULE: ./node_modules/lodash-es/_isKey.js
var _isKey = __webpack_require__(99365);
// EXTERNAL MODULE: ./node_modules/lodash-es/_toKey.js
var _toKey = __webpack_require__(62281);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseMatchesProperty.js
/** Used to compose bitmasks for value comparisons. */
var _baseMatchesProperty_COMPARE_PARTIAL_FLAG = 1,
_baseMatchesProperty_COMPARE_UNORDERED_FLAG = 2;
/**
* The base implementation of `_.matchesProperty` which doesn't clone `srcValue`.
*
* @private
* @param {string} path The path of the property to get.
* @param {*} srcValue The value to match.
* @returns {Function} Returns the new spec function.
*/
function baseMatchesProperty(path, srcValue) {
if ((0,_isKey/* default */.Z)(path) && _isStrictComparable(srcValue)) {
return _matchesStrictComparable((0,_toKey/* default */.Z)(path), srcValue);
}
return function(object) {
var objValue = lodash_es_get(object, path);
return (objValue === undefined && objValue === srcValue)
? (0,hasIn/* default */.Z)(object, path)
: _baseIsEqual(srcValue, objValue, _baseMatchesProperty_COMPARE_PARTIAL_FLAG | _baseMatchesProperty_COMPARE_UNORDERED_FLAG);
};
}
/* harmony default export */ const _baseMatchesProperty = (baseMatchesProperty);
// EXTERNAL MODULE: ./node_modules/lodash-es/identity.js
var identity = __webpack_require__(69203);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseProperty.js
var _baseProperty = __webpack_require__(54193);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_basePropertyDeep.js
/**
* A specialized version of `baseProperty` which supports deep paths.
*
* @private
* @param {Array|string} path The path of the property to get.
* @returns {Function} Returns the new accessor function.
*/
function basePropertyDeep(path) {
return function(object) {
return (0,_baseGet/* default */.Z)(object, path);
};
}
/* harmony default export */ const _basePropertyDeep = (basePropertyDeep);
;// CONCATENATED MODULE: ./node_modules/lodash-es/property.js
/**
* Creates a function that returns the value at `path` of a given object.
*
* @static
* @memberOf _
* @since 2.4.0
* @category Util
* @param {Array|string} path The path of the property to get.
* @returns {Function} Returns the new accessor function.
* @example
*
* var objects = [
* { 'a': { 'b': 2 } },
* { 'a': { 'b': 1 } }
* ];
*
* _.map(objects, _.property('a.b'));
* // => [2, 1]
*
* _.map(_.sortBy(objects, _.property(['a', 'b'])), 'a.b');
* // => [1, 2]
*/
function property(path) {
return (0,_isKey/* default */.Z)(path) ? (0,_baseProperty/* default */.Z)((0,_toKey/* default */.Z)(path)) : _basePropertyDeep(path);
}
/* harmony default export */ const lodash_es_property = (property);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseIteratee.js
/**
* The base implementation of `_.iteratee`.
*
* @private
* @param {*} [value=_.identity] The value to convert to an iteratee.
* @returns {Function} Returns the iteratee.
*/
function baseIteratee(value) {
// Don't store the `typeof` result in a variable to avoid a JIT bug in Safari 9.
// See https://bugs.webkit.org/show_bug.cgi?id=156034 for more details.
if (typeof value == 'function') {
return value;
}
if (value == null) {
return identity/* default */.Z;
}
if (typeof value == 'object') {
return (0,isArray/* default */.Z)(value)
? _baseMatchesProperty(value[0], value[1])
: _baseMatches(value);
}
return lodash_es_property(value);
}
/* harmony default export */ const _baseIteratee = (baseIteratee);
/***/ }),
/***/ 21018:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseEach_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(49811);
/* harmony import */ var _isArrayLike_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(50585);
/**
* The base implementation of `_.map` without support for iteratee shorthands.
*
* @private
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array} Returns the new mapped array.
*/
function baseMap(collection, iteratee) {
var index = -1,
result = (0,_isArrayLike_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(collection) ? Array(collection.length) : [];
(0,_baseEach_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(collection, function(value, key, collection) {
result[++index] = iteratee(value, key, collection);
});
return result;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseMap);
/***/ }),
/***/ 54193:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* The base implementation of `_.property` without support for deep paths.
*
* @private
* @param {string} key The key of the property to get.
* @returns {Function} Returns the new accessor function.
*/
function baseProperty(key) {
return function(object) {
return object == null ? undefined : object[key];
};
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (baseProperty);
/***/ }),
/***/ 59548:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* Checks if a `cache` value for `key` exists.
*
* @private
* @param {Object} cache The cache to query.
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function cacheHas(cache, key) {
return cache.has(key);
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (cacheHas);
/***/ }),
/***/ 68882:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _identity_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(69203);
/**
* Casts `value` to `identity` if it's not a function.
*
* @private
* @param {*} value The value to inspect.
* @returns {Function} Returns cast function.
*/
function castFunction(value) {
return typeof value == 'function' ? value : _identity_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (castFunction);
/***/ }),
/***/ 22823:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ _castPath)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
// EXTERNAL MODULE: ./node_modules/lodash-es/_isKey.js
var _isKey = __webpack_require__(99365);
// EXTERNAL MODULE: ./node_modules/lodash-es/memoize.js
var memoize = __webpack_require__(42454);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_memoizeCapped.js
/** Used as the maximum memoize cache size. */
var MAX_MEMOIZE_SIZE = 500;
/**
* A specialized version of `_.memoize` which clears the memoized function's
* cache when it exceeds `MAX_MEMOIZE_SIZE`.
*
* @private
* @param {Function} func The function to have its output memoized.
* @returns {Function} Returns the new memoized function.
*/
function memoizeCapped(func) {
var result = (0,memoize/* default */.Z)(func, function(key) {
if (cache.size === MAX_MEMOIZE_SIZE) {
cache.clear();
}
return key;
});
var cache = result.cache;
return result;
}
/* harmony default export */ const _memoizeCapped = (memoizeCapped);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_stringToPath.js
/** Used to match property names within property paths. */
var rePropName = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]|(?=(?:\.|\[\])(?:\.|\[\]|$))/g;
/** Used to match backslashes in property paths. */
var reEscapeChar = /\\(\\)?/g;
/**
* Converts `string` to a property path array.
*
* @private
* @param {string} string The string to convert.
* @returns {Array} Returns the property path array.
*/
var stringToPath = _memoizeCapped(function(string) {
var result = [];
if (string.charCodeAt(0) === 46 /* . */) {
result.push('');
}
string.replace(rePropName, function(match, number, quote, subString) {
result.push(quote ? subString.replace(reEscapeChar, '$1') : (number || match));
});
return result;
});
/* harmony default export */ const _stringToPath = (stringToPath);
// EXTERNAL MODULE: ./node_modules/lodash-es/toString.js + 1 modules
var lodash_es_toString = __webpack_require__(50751);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_castPath.js
/**
* Casts `value` to a path array if it's not one.
*
* @private
* @param {*} value The value to inspect.
* @param {Object} [object] The object to query keys on.
* @returns {Array} Returns the cast property path array.
*/
function castPath(value, object) {
if ((0,isArray/* default */.Z)(value)) {
return value;
}
return (0,_isKey/* default */.Z)(value, object) ? [value] : _stringToPath((0,lodash_es_toString/* default */.Z)(value));
}
/* harmony default export */ const _castPath = (castPath);
/***/ }),
/***/ 1808:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseGetAllKeys_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(63327);
/* harmony import */ var _getSymbols_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(95695);
/* harmony import */ var _keys_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(17179);
/**
* Creates an array of own enumerable property names and symbols of `object`.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names and symbols.
*/
function getAllKeys(object) {
return (0,_baseGetAllKeys_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(object, _keys_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z, _getSymbols_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z);
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (getAllKeys);
/***/ }),
/***/ 95695:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _arrayFilter_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(68774);
/* harmony import */ var _stubArray_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(60532);
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Built-in value references. */
var propertyIsEnumerable = objectProto.propertyIsEnumerable;
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeGetSymbols = Object.getOwnPropertySymbols;
/**
* Creates an array of the own enumerable symbols of `object`.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of symbols.
*/
var getSymbols = !nativeGetSymbols ? _stubArray_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z : function(object) {
if (object == null) {
return [];
}
object = Object(object);
return (0,_arrayFilter_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(nativeGetSymbols(object), function(symbol) {
return propertyIsEnumerable.call(object, symbol);
});
};
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (getSymbols);
/***/ }),
/***/ 16174:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _castPath_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(22823);
/* harmony import */ var _isArguments_js__WEBPACK_IMPORTED_MODULE_5__ = __webpack_require__(29169);
/* harmony import */ var _isArray_js__WEBPACK_IMPORTED_MODULE_4__ = __webpack_require__(27771);
/* harmony import */ var _isIndex_js__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(56009);
/* harmony import */ var _isLength_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(1656);
/* harmony import */ var _toKey_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(62281);
/**
* Checks if `path` exists on `object`.
*
* @private
* @param {Object} object The object to query.
* @param {Array|string} path The path to check.
* @param {Function} hasFunc The function to check properties.
* @returns {boolean} Returns `true` if `path` exists, else `false`.
*/
function hasPath(object, path, hasFunc) {
path = (0,_castPath_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(path, object);
var index = -1,
length = path.length,
result = false;
while (++index < length) {
var key = (0,_toKey_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(path[index]);
if (!(result = object != null && hasFunc(object, key))) {
break;
}
object = object[key];
}
if (result || ++index != length) {
return result;
}
length = object == null ? 0 : object.length;
return !!length && (0,_isLength_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z)(length) && (0,_isIndex_js__WEBPACK_IMPORTED_MODULE_3__/* ["default"] */ .Z)(key, length) &&
((0,_isArray_js__WEBPACK_IMPORTED_MODULE_4__/* ["default"] */ .Z)(object) || (0,_isArguments_js__WEBPACK_IMPORTED_MODULE_5__/* ["default"] */ .Z)(object));
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (hasPath);
/***/ }),
/***/ 99365:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _isArray_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(27771);
/* harmony import */ var _isSymbol_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(72714);
/** Used to match property names within property paths. */
var reIsDeepProp = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/,
reIsPlainProp = /^\w*$/;
/**
* Checks if `value` is a property name and not a property path.
*
* @private
* @param {*} value The value to check.
* @param {Object} [object] The object to query keys on.
* @returns {boolean} Returns `true` if `value` is a property name, else `false`.
*/
function isKey(value, object) {
if ((0,_isArray_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(value)) {
return false;
}
var type = typeof value;
if (type == 'number' || type == 'symbol' || type == 'boolean' ||
value == null || (0,_isSymbol_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(value)) {
return true;
}
return reIsPlainProp.test(value) || !reIsDeepProp.test(value) ||
(object != null && value in Object(object));
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (isKey);
/***/ }),
/***/ 6545:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* Converts `set` to an array of its values.
*
* @private
* @param {Object} set The set to convert.
* @returns {Array} Returns the values.
*/
function setToArray(set) {
var index = -1,
result = Array(set.size);
set.forEach(function(value) {
result[++index] = value;
});
return result;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (setToArray);
/***/ }),
/***/ 62281:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _isSymbol_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(72714);
/** Used as references for various `Number` constants. */
var INFINITY = 1 / 0;
/**
* Converts `value` to a string key if it's not a string or symbol.
*
* @private
* @param {*} value The value to inspect.
* @returns {string|symbol} Returns the key.
*/
function toKey(value) {
if (typeof value == 'string' || (0,_isSymbol_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(value)) {
return value;
}
var result = (value + '');
return (result == '0' && (1 / value) == -INFINITY) ? '-0' : result;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (toKey);
/***/ }),
/***/ 3688:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseRest_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(69581);
/* harmony import */ var _eq_js__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(79651);
/* harmony import */ var _isIterateeCall_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(50439);
/* harmony import */ var _keysIn_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(32957);
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/**
* Assigns own and inherited enumerable string keyed properties of source
* objects to the destination object for all destination properties that
* resolve to `undefined`. Source objects are applied from left to right.
* Once a property is set, additional values of the same property are ignored.
*
* **Note:** This method mutates `object`.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The destination object.
* @param {...Object} [sources] The source objects.
* @returns {Object} Returns `object`.
* @see _.defaultsDeep
* @example
*
* _.defaults({ 'a': 1 }, { 'b': 2 }, { 'a': 3 });
* // => { 'a': 1, 'b': 2 }
*/
var defaults = (0,_baseRest_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(function(object, sources) {
object = Object(object);
var index = -1;
var length = sources.length;
var guard = length > 2 ? sources[2] : undefined;
if (guard && (0,_isIterateeCall_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(sources[0], sources[1], guard)) {
length = 1;
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while (++index < length) {
var source = sources[index];
var props = (0,_keysIn_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z)(source);
var propsIndex = -1;
var propsLength = props.length;
while (++propsIndex < propsLength) {
var key = props[propsIndex];
var value = object[key];
if (value === undefined ||
((0,_eq_js__WEBPACK_IMPORTED_MODULE_3__/* ["default"] */ .Z)(value, objectProto[key]) && !hasOwnProperty.call(object, key))) {
object[key] = source[key];
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/***/ 13445:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_filter)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayFilter.js
var _arrayFilter = __webpack_require__(68774);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseEach.js + 1 modules
var _baseEach = __webpack_require__(49811);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseFilter.js
/**
* The base implementation of `_.filter` without support for iteratee shorthands.
*
* @private
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} predicate The function invoked per iteration.
* @returns {Array} Returns the new filtered array.
*/
function baseFilter(collection, predicate) {
var result = [];
(0,_baseEach/* default */.Z)(collection, function(value, index, collection) {
if (predicate(value, index, collection)) {
result.push(value);
}
});
return result;
}
/* harmony default export */ const _baseFilter = (baseFilter);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseIteratee.js + 16 modules
var _baseIteratee = __webpack_require__(74765);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
;// CONCATENATED MODULE: ./node_modules/lodash-es/filter.js
/**
* Iterates over elements of `collection`, returning an array of all elements
* `predicate` returns truthy for. The predicate is invoked with three
* arguments: (value, index|key, collection).
*
* **Note:** Unlike `_.remove`, this method returns a new array.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} [predicate=_.identity] The function invoked per iteration.
* @returns {Array} Returns the new filtered array.
* @see _.reject
* @example
*
* var users = [
* { 'user': 'barney', 'age': 36, 'active': true },
* { 'user': 'fred', 'age': 40, 'active': false }
* ];
*
* _.filter(users, function(o) { return !o.active; });
* // => objects for ['fred']
*
* // The `_.matches` iteratee shorthand.
* _.filter(users, { 'age': 36, 'active': true });
* // => objects for ['barney']
*
* // The `_.matchesProperty` iteratee shorthand.
* _.filter(users, ['active', false]);
* // => objects for ['fred']
*
* // The `_.property` iteratee shorthand.
* _.filter(users, 'active');
* // => objects for ['barney']
*
* // Combining several predicates using `_.overEvery` or `_.overSome`.
* _.filter(users, _.overSome([{ 'age': 36 }, ['age', 40]]));
* // => objects for ['fred', 'barney']
*/
function filter(collection, predicate) {
var func = (0,isArray/* default */.Z)(collection) ? _arrayFilter/* default */.Z : _baseFilter;
return func(collection, (0,_baseIteratee/* default */.Z)(predicate, 3));
}
/* harmony default export */ const lodash_es_filter = (filter);
/***/ }),
/***/ 27961:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseFlatten_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(10626);
/**
* Flattens `array` a single level deep.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {Array} array The array to flatten.
* @returns {Array} Returns the new flattened array.
* @example
*
* _.flatten([1, [2, [3, [4]], 5]]);
* // => [1, 2, [3, [4]], 5]
*/
function flatten(array) {
var length = array == null ? 0 : array.length;
return length ? (0,_baseFlatten_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(array, 1) : [];
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (flatten);
/***/ }),
/***/ 70870:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _arrayEach_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(76579);
/* harmony import */ var _baseEach_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(49811);
/* harmony import */ var _castFunction_js__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(68882);
/* harmony import */ var _isArray_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(27771);
/**
* Iterates over elements of `collection` and invokes `iteratee` for each element.
* The iteratee is invoked with three arguments: (value, index|key, collection).
* Iteratee functions may exit iteration early by explicitly returning `false`.
*
* **Note:** As with other "Collections" methods, objects with a "length"
* property are iterated like arrays. To avoid this behavior use `_.forIn`
* or `_.forOwn` for object iteration.
*
* @static
* @memberOf _
* @since 0.1.0
* @alias each
* @category Collection
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @returns {Array|Object} Returns `collection`.
* @see _.forEachRight
* @example
*
* _.forEach([1, 2], function(value) {
* console.log(value);
* });
* // => Logs `1` then `2`.
*
* _.forEach({ 'a': 1, 'b': 2 }, function(value, key) {
* console.log(key);
* });
* // => Logs 'a' then 'b' (iteration order is not guaranteed).
*/
function forEach(collection, iteratee) {
var func = (0,_isArray_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(collection) ? _arrayEach_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z : _baseEach_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z;
return func(collection, (0,_castFunction_js__WEBPACK_IMPORTED_MODULE_3__/* ["default"] */ .Z)(iteratee));
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (forEach);
/***/ }),
/***/ 17452:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_has)
});
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseHas.js
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var _baseHas_hasOwnProperty = objectProto.hasOwnProperty;
/**
* The base implementation of `_.has` without support for deep paths.
*
* @private
* @param {Object} [object] The object to query.
* @param {Array|string} key The key to check.
* @returns {boolean} Returns `true` if `key` exists, else `false`.
*/
function baseHas(object, key) {
return object != null && _baseHas_hasOwnProperty.call(object, key);
}
/* harmony default export */ const _baseHas = (baseHas);
// EXTERNAL MODULE: ./node_modules/lodash-es/_hasPath.js
var _hasPath = __webpack_require__(16174);
;// CONCATENATED MODULE: ./node_modules/lodash-es/has.js
/**
* Checks if `path` is a direct property of `object`.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The object to query.
* @param {Array|string} path The path to check.
* @returns {boolean} Returns `true` if `path` exists, else `false`.
* @example
*
* var object = { 'a': { 'b': 2 } };
* var other = _.create({ 'a': _.create({ 'b': 2 }) });
*
* _.has(object, 'a');
* // => true
*
* _.has(object, 'a.b');
* // => true
*
* _.has(object, ['a', 'b']);
* // => true
*
* _.has(other, 'a');
* // => false
*/
function has(object, path) {
return object != null && (0,_hasPath/* default */.Z)(object, path, _baseHas);
}
/* harmony default export */ const lodash_es_has = (has);
/***/ }),
/***/ 75487:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_hasIn)
});
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseHasIn.js
/**
* The base implementation of `_.hasIn` without support for deep paths.
*
* @private
* @param {Object} [object] The object to query.
* @param {Array|string} key The key to check.
* @returns {boolean} Returns `true` if `key` exists, else `false`.
*/
function baseHasIn(object, key) {
return object != null && key in Object(object);
}
/* harmony default export */ const _baseHasIn = (baseHasIn);
// EXTERNAL MODULE: ./node_modules/lodash-es/_hasPath.js
var _hasPath = __webpack_require__(16174);
;// CONCATENATED MODULE: ./node_modules/lodash-es/hasIn.js
/**
* Checks if `path` is a direct or inherited property of `object`.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Object
* @param {Object} object The object to query.
* @param {Array|string} path The path to check.
* @returns {boolean} Returns `true` if `path` exists, else `false`.
* @example
*
* var object = _.create({ 'a': _.create({ 'b': 2 }) });
*
* _.hasIn(object, 'a');
* // => true
*
* _.hasIn(object, 'a.b');
* // => true
*
* _.hasIn(object, ['a', 'b']);
* // => true
*
* _.hasIn(object, 'b');
* // => false
*/
function hasIn(object, path) {
return object != null && (0,_hasPath/* default */.Z)(object, path, _baseHasIn);
}
/* harmony default export */ const lodash_es_hasIn = (hasIn);
/***/ }),
/***/ 72714:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _baseGetTag_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(93589);
/* harmony import */ var _isObjectLike_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(18533);
/** `Object#toString` result references. */
var symbolTag = '[object Symbol]';
/**
* Checks if `value` is classified as a `Symbol` primitive or object.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a symbol, else `false`.
* @example
*
* _.isSymbol(Symbol.iterator);
* // => true
*
* _.isSymbol('abc');
* // => false
*/
function isSymbol(value) {
return typeof value == 'symbol' ||
((0,_isObjectLike_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(value) && (0,_baseGetTag_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(value) == symbolTag);
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (isSymbol);
/***/ }),
/***/ 49360:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* Checks if `value` is `undefined`.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is `undefined`, else `false`.
* @example
*
* _.isUndefined(void 0);
* // => true
*
* _.isUndefined(null);
* // => false
*/
function isUndefined(value) {
return value === undefined;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (isUndefined);
/***/ }),
/***/ 17179:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _arrayLikeKeys_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(87668);
/* harmony import */ var _baseKeys_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(39473);
/* harmony import */ var _isArrayLike_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(50585);
/**
* Creates an array of the own enumerable property names of `object`.
*
* **Note:** Non-object values are coerced to objects. See the
* [ES spec](http://ecma-international.org/ecma-262/7.0/#sec-object.keys)
* for more details.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names.
* @example
*
* function Foo() {
* this.a = 1;
* this.b = 2;
* }
*
* Foo.prototype.c = 3;
*
* _.keys(new Foo);
* // => ['a', 'b'] (iteration order is not guaranteed)
*
* _.keys('hi');
* // => ['0', '1']
*/
function keys(object) {
return (0,_isArrayLike_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(object) ? (0,_arrayLikeKeys_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z)(object) : (0,_baseKeys_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z)(object);
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (keys);
/***/ }),
/***/ 43836:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _arrayMap_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(74073);
/* harmony import */ var _baseIteratee_js__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(74765);
/* harmony import */ var _baseMap_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(21018);
/* harmony import */ var _isArray_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(27771);
/**
* Creates an array of values by running each element in `collection` thru
* `iteratee`. The iteratee is invoked with three arguments:
* (value, index|key, collection).
*
* Many lodash methods are guarded to work as iteratees for methods like
* `_.every`, `_.filter`, `_.map`, `_.mapValues`, `_.reject`, and `_.some`.
*
* The guarded methods are:
* `ary`, `chunk`, `curry`, `curryRight`, `drop`, `dropRight`, `every`,
* `fill`, `invert`, `parseInt`, `random`, `range`, `rangeRight`, `repeat`,
* `sampleSize`, `slice`, `some`, `sortBy`, `split`, `take`, `takeRight`,
* `template`, `trim`, `trimEnd`, `trimStart`, and `words`
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @returns {Array} Returns the new mapped array.
* @example
*
* function square(n) {
* return n * n;
* }
*
* _.map([4, 8], square);
* // => [16, 64]
*
* _.map({ 'a': 4, 'b': 8 }, square);
* // => [16, 64] (iteration order is not guaranteed)
*
* var users = [
* { 'user': 'barney' },
* { 'user': 'fred' }
* ];
*
* // The `_.property` iteratee shorthand.
* _.map(users, 'user');
* // => ['barney', 'fred']
*/
function map(collection, iteratee) {
var func = (0,_isArray_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(collection) ? _arrayMap_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z : _baseMap_js__WEBPACK_IMPORTED_MODULE_2__/* ["default"] */ .Z;
return func(collection, (0,_baseIteratee_js__WEBPACK_IMPORTED_MODULE_3__/* ["default"] */ .Z)(iteratee, 3));
}
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/***/ }),
/***/ 61666:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_pick)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseGet.js
var _baseGet = __webpack_require__(13317);
// EXTERNAL MODULE: ./node_modules/lodash-es/_assignValue.js
var _assignValue = __webpack_require__(72954);
// EXTERNAL MODULE: ./node_modules/lodash-es/_castPath.js + 2 modules
var _castPath = __webpack_require__(22823);
// EXTERNAL MODULE: ./node_modules/lodash-es/_isIndex.js
var _isIndex = __webpack_require__(56009);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObject.js
var isObject = __webpack_require__(77226);
// EXTERNAL MODULE: ./node_modules/lodash-es/_toKey.js
var _toKey = __webpack_require__(62281);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseSet.js
/**
* The base implementation of `_.set`.
*
* @private
* @param {Object} object The object to modify.
* @param {Array|string} path The path of the property to set.
* @param {*} value The value to set.
* @param {Function} [customizer] The function to customize path creation.
* @returns {Object} Returns `object`.
*/
function baseSet(object, path, value, customizer) {
if (!(0,isObject/* default */.Z)(object)) {
return object;
}
path = (0,_castPath/* default */.Z)(path, object);
var index = -1,
length = path.length,
lastIndex = length - 1,
nested = object;
while (nested != null && ++index < length) {
var key = (0,_toKey/* default */.Z)(path[index]),
newValue = value;
if (key === '__proto__' || key === 'constructor' || key === 'prototype') {
return object;
}
if (index != lastIndex) {
var objValue = nested[key];
newValue = customizer ? customizer(objValue, key, nested) : undefined;
if (newValue === undefined) {
newValue = (0,isObject/* default */.Z)(objValue)
? objValue
: ((0,_isIndex/* default */.Z)(path[index + 1]) ? [] : {});
}
}
(0,_assignValue/* default */.Z)(nested, key, newValue);
nested = nested[key];
}
return object;
}
/* harmony default export */ const _baseSet = (baseSet);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_basePickBy.js
/**
* The base implementation of `_.pickBy` without support for iteratee shorthands.
*
* @private
* @param {Object} object The source object.
* @param {string[]} paths The property paths to pick.
* @param {Function} predicate The function invoked per property.
* @returns {Object} Returns the new object.
*/
function basePickBy(object, paths, predicate) {
var index = -1,
length = paths.length,
result = {};
while (++index < length) {
var path = paths[index],
value = (0,_baseGet/* default */.Z)(object, path);
if (predicate(value, path)) {
_baseSet(result, (0,_castPath/* default */.Z)(path, object), value);
}
}
return result;
}
/* harmony default export */ const _basePickBy = (basePickBy);
// EXTERNAL MODULE: ./node_modules/lodash-es/hasIn.js + 1 modules
var hasIn = __webpack_require__(75487);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_basePick.js
/**
* The base implementation of `_.pick` without support for individual
* property identifiers.
*
* @private
* @param {Object} object The source object.
* @param {string[]} paths The property paths to pick.
* @returns {Object} Returns the new object.
*/
function basePick(object, paths) {
return _basePickBy(object, paths, function(value, path) {
return (0,hasIn/* default */.Z)(object, path);
});
}
/* harmony default export */ const _basePick = (basePick);
// EXTERNAL MODULE: ./node_modules/lodash-es/flatten.js
var flatten = __webpack_require__(27961);
// EXTERNAL MODULE: ./node_modules/lodash-es/_overRest.js + 1 modules
var _overRest = __webpack_require__(81211);
// EXTERNAL MODULE: ./node_modules/lodash-es/_setToString.js + 2 modules
var _setToString = __webpack_require__(27227);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_flatRest.js
/**
* A specialized version of `baseRest` which flattens the rest array.
*
* @private
* @param {Function} func The function to apply a rest parameter to.
* @returns {Function} Returns the new function.
*/
function flatRest(func) {
return (0,_setToString/* default */.Z)((0,_overRest/* default */.Z)(func, undefined, flatten/* default */.Z), func + '');
}
/* harmony default export */ const _flatRest = (flatRest);
;// CONCATENATED MODULE: ./node_modules/lodash-es/pick.js
/**
* Creates an object composed of the picked `object` properties.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The source object.
* @param {...(string|string[])} [paths] The property paths to pick.
* @returns {Object} Returns the new object.
* @example
*
* var object = { 'a': 1, 'b': '2', 'c': 3 };
*
* _.pick(object, ['a', 'c']);
* // => { 'a': 1, 'c': 3 }
*/
var pick = _flatRest(function(object, paths) {
return object == null ? {} : _basePick(object, paths);
});
/* harmony default export */ const lodash_es_pick = (pick);
/***/ }),
/***/ 74379:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_range)
});
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseRange.js
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeCeil = Math.ceil,
nativeMax = Math.max;
/**
* The base implementation of `_.range` and `_.rangeRight` which doesn't
* coerce arguments.
*
* @private
* @param {number} start The start of the range.
* @param {number} end The end of the range.
* @param {number} step The value to increment or decrement by.
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {Array} Returns the range of numbers.
*/
function baseRange(start, end, step, fromRight) {
var index = -1,
length = nativeMax(nativeCeil((end - start) / (step || 1)), 0),
result = Array(length);
while (length--) {
result[fromRight ? length : ++index] = start;
start += step;
}
return result;
}
/* harmony default export */ const _baseRange = (baseRange);
// EXTERNAL MODULE: ./node_modules/lodash-es/_isIterateeCall.js
var _isIterateeCall = __webpack_require__(50439);
// EXTERNAL MODULE: ./node_modules/lodash-es/toFinite.js + 3 modules
var toFinite = __webpack_require__(94099);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_createRange.js
/**
* Creates a `_.range` or `_.rangeRight` function.
*
* @private
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {Function} Returns the new range function.
*/
function createRange(fromRight) {
return function(start, end, step) {
if (step && typeof step != 'number' && (0,_isIterateeCall/* default */.Z)(start, end, step)) {
end = step = undefined;
}
// Ensure the sign of `-0` is preserved.
start = (0,toFinite/* default */.Z)(start);
if (end === undefined) {
end = start;
start = 0;
} else {
end = (0,toFinite/* default */.Z)(end);
}
step = step === undefined ? (start < end ? 1 : -1) : (0,toFinite/* default */.Z)(step);
return _baseRange(start, end, step, fromRight);
};
}
/* harmony default export */ const _createRange = (createRange);
;// CONCATENATED MODULE: ./node_modules/lodash-es/range.js
/**
* Creates an array of numbers (positive and/or negative) progressing from
* `start` up to, but not including, `end`. A step of `-1` is used if a negative
* `start` is specified without an `end` or `step`. If `end` is not specified,
* it's set to `start` with `start` then set to `0`.
*
* **Note:** JavaScript follows the IEEE-754 standard for resolving
* floating-point values which can produce unexpected results.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Util
* @param {number} [start=0] The start of the range.
* @param {number} end The end of the range.
* @param {number} [step=1] The value to increment or decrement by.
* @returns {Array} Returns the range of numbers.
* @see _.inRange, _.rangeRight
* @example
*
* _.range(4);
* // => [0, 1, 2, 3]
*
* _.range(-4);
* // => [0, -1, -2, -3]
*
* _.range(1, 5);
* // => [1, 2, 3, 4]
*
* _.range(0, 20, 5);
* // => [0, 5, 10, 15]
*
* _.range(0, -4, -1);
* // => [0, -1, -2, -3]
*
* _.range(1, 4, 0);
* // => [1, 1, 1]
*
* _.range(0);
* // => []
*/
var range = _createRange();
/* harmony default export */ const lodash_es_range = (range);
/***/ }),
/***/ 92344:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_reduce)
});
;// CONCATENATED MODULE: ./node_modules/lodash-es/_arrayReduce.js
/**
* A specialized version of `_.reduce` for arrays without support for
* iteratee shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @param {*} [accumulator] The initial value.
* @param {boolean} [initAccum] Specify using the first element of `array` as
* the initial value.
* @returns {*} Returns the accumulated value.
*/
function arrayReduce(array, iteratee, accumulator, initAccum) {
var index = -1,
length = array == null ? 0 : array.length;
if (initAccum && length) {
accumulator = array[++index];
}
while (++index < length) {
accumulator = iteratee(accumulator, array[index], index, array);
}
return accumulator;
}
/* harmony default export */ const _arrayReduce = (arrayReduce);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseEach.js + 1 modules
var _baseEach = __webpack_require__(49811);
// EXTERNAL MODULE: ./node_modules/lodash-es/_baseIteratee.js + 16 modules
var _baseIteratee = __webpack_require__(74765);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseReduce.js
/**
* The base implementation of `_.reduce` and `_.reduceRight`, without support
* for iteratee shorthands, which iterates over `collection` using `eachFunc`.
*
* @private
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @param {*} accumulator The initial value.
* @param {boolean} initAccum Specify using the first or last element of
* `collection` as the initial value.
* @param {Function} eachFunc The function to iterate over `collection`.
* @returns {*} Returns the accumulated value.
*/
function baseReduce(collection, iteratee, accumulator, initAccum, eachFunc) {
eachFunc(collection, function(value, index, collection) {
accumulator = initAccum
? (initAccum = false, value)
: iteratee(accumulator, value, index, collection);
});
return accumulator;
}
/* harmony default export */ const _baseReduce = (baseReduce);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
;// CONCATENATED MODULE: ./node_modules/lodash-es/reduce.js
/**
* Reduces `collection` to a value which is the accumulated result of running
* each element in `collection` thru `iteratee`, where each successive
* invocation is supplied the return value of the previous. If `accumulator`
* is not given, the first element of `collection` is used as the initial
* value. The iteratee is invoked with four arguments:
* (accumulator, value, index|key, collection).
*
* Many lodash methods are guarded to work as iteratees for methods like
* `_.reduce`, `_.reduceRight`, and `_.transform`.
*
* The guarded methods are:
* `assign`, `defaults`, `defaultsDeep`, `includes`, `merge`, `orderBy`,
* and `sortBy`
*
* @static
* @memberOf _
* @since 0.1.0
* @category Collection
* @param {Array|Object} collection The collection to iterate over.
* @param {Function} [iteratee=_.identity] The function invoked per iteration.
* @param {*} [accumulator] The initial value.
* @returns {*} Returns the accumulated value.
* @see _.reduceRight
* @example
*
* _.reduce([1, 2], function(sum, n) {
* return sum + n;
* }, 0);
* // => 3
*
* _.reduce({ 'a': 1, 'b': 2, 'c': 1 }, function(result, value, key) {
* (result[value] || (result[value] = [])).push(key);
* return result;
* }, {});
* // => { '1': ['a', 'c'], '2': ['b'] } (iteration order is not guaranteed)
*/
function reduce(collection, iteratee, accumulator) {
var func = (0,isArray/* default */.Z)(collection) ? _arrayReduce : _baseReduce,
initAccum = arguments.length < 3;
return func(collection, (0,_baseIteratee/* default */.Z)(iteratee, 4), accumulator, initAccum, _baseEach/* default */.Z);
}
/* harmony default export */ const lodash_es_reduce = (reduce);
/***/ }),
/***/ 60532:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/**
* This method returns a new empty array.
*
* @static
* @memberOf _
* @since 4.13.0
* @category Util
* @returns {Array} Returns the new empty array.
* @example
*
* var arrays = _.times(2, _.stubArray);
*
* console.log(arrays);
* // => [[], []]
*
* console.log(arrays[0] === arrays[1]);
* // => false
*/
function stubArray() {
return [];
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (stubArray);
/***/ }),
/***/ 94099:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_toFinite)
});
;// CONCATENATED MODULE: ./node_modules/lodash-es/_trimmedEndIndex.js
/** Used to match a single whitespace character. */
var reWhitespace = /\s/;
/**
* Used by `_.trim` and `_.trimEnd` to get the index of the last non-whitespace
* character of `string`.
*
* @private
* @param {string} string The string to inspect.
* @returns {number} Returns the index of the last non-whitespace character.
*/
function trimmedEndIndex(string) {
var index = string.length;
while (index-- && reWhitespace.test(string.charAt(index))) {}
return index;
}
/* harmony default export */ const _trimmedEndIndex = (trimmedEndIndex);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseTrim.js
/** Used to match leading whitespace. */
var reTrimStart = /^\s+/;
/**
* The base implementation of `_.trim`.
*
* @private
* @param {string} string The string to trim.
* @returns {string} Returns the trimmed string.
*/
function baseTrim(string) {
return string
? string.slice(0, _trimmedEndIndex(string) + 1).replace(reTrimStart, '')
: string;
}
/* harmony default export */ const _baseTrim = (baseTrim);
// EXTERNAL MODULE: ./node_modules/lodash-es/isObject.js
var isObject = __webpack_require__(77226);
// EXTERNAL MODULE: ./node_modules/lodash-es/isSymbol.js
var isSymbol = __webpack_require__(72714);
;// CONCATENATED MODULE: ./node_modules/lodash-es/toNumber.js
/** Used as references for various `Number` constants. */
var NAN = 0 / 0;
/** Used to detect bad signed hexadecimal string values. */
var reIsBadHex = /^[-+]0x[0-9a-f]+$/i;
/** Used to detect binary string values. */
var reIsBinary = /^0b[01]+$/i;
/** Used to detect octal string values. */
var reIsOctal = /^0o[0-7]+$/i;
/** Built-in method references without a dependency on `root`. */
var freeParseInt = parseInt;
/**
* Converts `value` to a number.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to process.
* @returns {number} Returns the number.
* @example
*
* _.toNumber(3.2);
* // => 3.2
*
* _.toNumber(Number.MIN_VALUE);
* // => 5e-324
*
* _.toNumber(Infinity);
* // => Infinity
*
* _.toNumber('3.2');
* // => 3.2
*/
function toNumber(value) {
if (typeof value == 'number') {
return value;
}
if ((0,isSymbol/* default */.Z)(value)) {
return NAN;
}
if ((0,isObject/* default */.Z)(value)) {
var other = typeof value.valueOf == 'function' ? value.valueOf() : value;
value = (0,isObject/* default */.Z)(other) ? (other + '') : other;
}
if (typeof value != 'string') {
return value === 0 ? value : +value;
}
value = _baseTrim(value);
var isBinary = reIsBinary.test(value);
return (isBinary || reIsOctal.test(value))
? freeParseInt(value.slice(2), isBinary ? 2 : 8)
: (reIsBadHex.test(value) ? NAN : +value);
}
/* harmony default export */ const lodash_es_toNumber = (toNumber);
;// CONCATENATED MODULE: ./node_modules/lodash-es/toFinite.js
/** Used as references for various `Number` constants. */
var INFINITY = 1 / 0,
MAX_INTEGER = 1.7976931348623157e+308;
/**
* Converts `value` to a finite number.
*
* @static
* @memberOf _
* @since 4.12.0
* @category Lang
* @param {*} value The value to convert.
* @returns {number} Returns the converted number.
* @example
*
* _.toFinite(3.2);
* // => 3.2
*
* _.toFinite(Number.MIN_VALUE);
* // => 5e-324
*
* _.toFinite(Infinity);
* // => 1.7976931348623157e+308
*
* _.toFinite('3.2');
* // => 3.2
*/
function toFinite(value) {
if (!value) {
return value === 0 ? value : 0;
}
value = lodash_es_toNumber(value);
if (value === INFINITY || value === -INFINITY) {
var sign = (value < 0 ? -1 : 1);
return sign * MAX_INTEGER;
}
return value === value ? value : 0;
}
/* harmony default export */ const lodash_es_toFinite = (toFinite);
/***/ }),
/***/ 50751:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_toString)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_Symbol.js
var _Symbol = __webpack_require__(17685);
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayMap.js
var _arrayMap = __webpack_require__(74073);
// EXTERNAL MODULE: ./node_modules/lodash-es/isArray.js
var isArray = __webpack_require__(27771);
// EXTERNAL MODULE: ./node_modules/lodash-es/isSymbol.js
var isSymbol = __webpack_require__(72714);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseToString.js
/** Used as references for various `Number` constants. */
var INFINITY = 1 / 0;
/** Used to convert symbols to primitives and strings. */
var symbolProto = _Symbol/* default */.Z ? _Symbol/* default */.Z.prototype : undefined,
symbolToString = symbolProto ? symbolProto.toString : undefined;
/**
* The base implementation of `_.toString` which doesn't convert nullish
* values to empty strings.
*
* @private
* @param {*} value The value to process.
* @returns {string} Returns the string.
*/
function baseToString(value) {
// Exit early for strings to avoid a performance hit in some environments.
if (typeof value == 'string') {
return value;
}
if ((0,isArray/* default */.Z)(value)) {
// Recursively convert values (susceptible to call stack limits).
return (0,_arrayMap/* default */.Z)(value, baseToString) + '';
}
if ((0,isSymbol/* default */.Z)(value)) {
return symbolToString ? symbolToString.call(value) : '';
}
var result = (value + '');
return (result == '0' && (1 / value) == -INFINITY) ? '-0' : result;
}
/* harmony default export */ const _baseToString = (baseToString);
;// CONCATENATED MODULE: ./node_modules/lodash-es/toString.js
/**
* Converts `value` to a string. An empty string is returned for `null`
* and `undefined` values. The sign of `-0` is preserved.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to convert.
* @returns {string} Returns the converted string.
* @example
*
* _.toString(null);
* // => ''
*
* _.toString(-0);
* // => '-0'
*
* _.toString([1, 2, 3]);
* // => '1,2,3'
*/
function toString_toString(value) {
return value == null ? '' : _baseToString(value);
}
/* harmony default export */ const lodash_es_toString = (toString_toString);
/***/ }),
/***/ 66749:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ Z: () => (__WEBPACK_DEFAULT_EXPORT__)
/* harmony export */ });
/* harmony import */ var _toString_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(50751);
/** Used to generate unique IDs. */
var idCounter = 0;
/**
* Generates a unique ID. If `prefix` is given, the ID is appended to it.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Util
* @param {string} [prefix=''] The value to prefix the ID with.
* @returns {string} Returns the unique ID.
* @example
*
* _.uniqueId('contact_');
* // => 'contact_104'
*
* _.uniqueId();
* // => '105'
*/
function uniqueId(prefix) {
var id = ++idCounter;
return (0,_toString_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z)(prefix) + id;
}
/* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (uniqueId);
/***/ }),
/***/ 34148:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
Z: () => (/* binding */ lodash_es_values)
});
// EXTERNAL MODULE: ./node_modules/lodash-es/_arrayMap.js
var _arrayMap = __webpack_require__(74073);
;// CONCATENATED MODULE: ./node_modules/lodash-es/_baseValues.js
/**
* The base implementation of `_.values` and `_.valuesIn` which creates an
* array of `object` property values corresponding to the property names
* of `props`.
*
* @private
* @param {Object} object The object to query.
* @param {Array} props The property names to get values for.
* @returns {Object} Returns the array of property values.
*/
function baseValues(object, props) {
return (0,_arrayMap/* default */.Z)(props, function(key) {
return object[key];
});
}
/* harmony default export */ const _baseValues = (baseValues);
// EXTERNAL MODULE: ./node_modules/lodash-es/keys.js
var keys = __webpack_require__(17179);
;// CONCATENATED MODULE: ./node_modules/lodash-es/values.js
/**
* Creates an array of the own enumerable string keyed property values of `object`.
*
* **Note:** Non-object values are coerced to objects.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property values.
* @example
*
* function Foo() {
* this.a = 1;
* this.b = 2;
* }
*
* Foo.prototype.c = 3;
*
* _.values(new Foo);
* // => [1, 2] (iteration order is not guaranteed)
*
* _.values('hi');
* // => ['h', 'i']
*/
function values(object) {
return object == null ? [] : _baseValues(object, (0,keys/* default */.Z)(object));
}
/* harmony default export */ const lodash_es_values = (values);
/***/ }),
/***/ 54511:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
// EXPORTS
__webpack_require__.d(__webpack_exports__, {
a: () => (/* binding */ createText),
c: () => (/* binding */ computeDimensionOfText)
});
// NAMESPACE OBJECT: ./node_modules/mermaid/node_modules/micromark/lib/constructs.js
var constructs_namespaceObject = {};
__webpack_require__.r(constructs_namespaceObject);
__webpack_require__.d(constructs_namespaceObject, {
attentionMarkers: () => (attentionMarkers),
contentInitial: () => (contentInitial),
disable: () => (disable),
document: () => (constructs_document),
flow: () => (constructs_flow),
flowInitial: () => (flowInitial),
insideSpan: () => (insideSpan),
string: () => (constructs_string),
text: () => (constructs_text)
});
// EXTERNAL MODULE: ./node_modules/mermaid/dist/mermaid-934d9bea.js + 8 modules
var mermaid_934d9bea = __webpack_require__(85322);
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/mdast-util-to-string/lib/index.js
/**
* @typedef {import('mdast').Root|import('mdast').Content} Node
*
* @typedef Options
* Configuration (optional).
* @property {boolean | null | undefined} [includeImageAlt=true]
* Whether to use `alt` for `image`s.
* @property {boolean | null | undefined} [includeHtml=true]
* Whether to use `value` of HTML.
*/
/** @type {Options} */
const emptyOptions = {}
/**
* Get the text content of a node or list of nodes.
*
* Prefers the nodes plain-text fields, otherwise serializes its children,
* and if the given value is an array, serialize the nodes in it.
*
* @param {unknown} value
* Thing to serialize, typically `Node`.
* @param {Options | null | undefined} [options]
* Configuration (optional).
* @returns {string}
* Serialized `value`.
*/
function lib_toString(value, options) {
const settings = options || emptyOptions
const includeImageAlt =
typeof settings.includeImageAlt === 'boolean'
? settings.includeImageAlt
: true
const includeHtml =
typeof settings.includeHtml === 'boolean' ? settings.includeHtml : true
return one(value, includeImageAlt, includeHtml)
}
/**
* One node or several nodes.
*
* @param {unknown} value
* Thing to serialize.
* @param {boolean} includeImageAlt
* Include image `alt`s.
* @param {boolean} includeHtml
* Include HTML.
* @returns {string}
* Serialized node.
*/
function one(value, includeImageAlt, includeHtml) {
if (node(value)) {
if ('value' in value) {
return value.type === 'html' && !includeHtml ? '' : value.value
}
if (includeImageAlt && 'alt' in value && value.alt) {
return value.alt
}
if ('children' in value) {
return lib_all(value.children, includeImageAlt, includeHtml)
}
}
if (Array.isArray(value)) {
return lib_all(value, includeImageAlt, includeHtml)
}
return ''
}
/**
* Serialize a list of nodes.
*
* @param {Array<unknown>} values
* Thing to serialize.
* @param {boolean} includeImageAlt
* Include image `alt`s.
* @param {boolean} includeHtml
* Include HTML.
* @returns {string}
* Serialized nodes.
*/
function lib_all(values, includeImageAlt, includeHtml) {
/** @type {Array<string>} */
const result = []
let index = -1
while (++index < values.length) {
result[index] = one(values[index], includeImageAlt, includeHtml)
}
return result.join('')
}
/**
* Check if `value` looks like a node.
*
* @param {unknown} value
* Thing.
* @returns {value is Node}
* Whether `value` is a node.
*/
function node(value) {
return Boolean(value && typeof value === 'object')
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-chunked/index.js
/**
* Like `Array#splice`, but smarter for giant arrays.
*
* `Array#splice` takes all items to be inserted as individual argument which
* causes a stack overflow in V8 when trying to insert 100k items for instance.
*
* Otherwise, this does not return the removed items, and takes `items` as an
* array instead of rest parameters.
*
* @template {unknown} T
* Item type.
* @param {Array<T>} list
* List to operate on.
* @param {number} start
* Index to remove/insert at (can be negative).
* @param {number} remove
* Number of items to remove.
* @param {Array<T>} items
* Items to inject into `list`.
* @returns {void}
* Nothing.
*/
function splice(list, start, remove, items) {
const end = list.length
let chunkStart = 0
/** @type {Array<unknown>} */
let parameters
// Make start between zero and `end` (included).
if (start < 0) {
start = -start > end ? 0 : end + start
} else {
start = start > end ? end : start
}
remove = remove > 0 ? remove : 0
// No need to chunk the items if theres only a couple (10k) items.
if (items.length < 10000) {
parameters = Array.from(items)
parameters.unshift(start, remove)
// @ts-expect-error Hush, its fine.
list.splice(...parameters)
} else {
// Delete `remove` items starting from `start`
if (remove) list.splice(start, remove)
// Insert the items in chunks to not cause stack overflows.
while (chunkStart < items.length) {
parameters = items.slice(chunkStart, chunkStart + 10000)
parameters.unshift(start, 0)
// @ts-expect-error Hush, its fine.
list.splice(...parameters)
chunkStart += 10000
start += 10000
}
}
}
/**
* Append `items` (an array) at the end of `list` (another array).
* When `list` was empty, returns `items` instead.
*
* This prevents a potentially expensive operation when `list` is empty,
* and adds items in batches to prevent V8 from hanging.
*
* @template {unknown} T
* Item type.
* @param {Array<T>} list
* List to operate on.
* @param {Array<T>} items
* Items to add to `list`.
* @returns {Array<T>}
* Either `list` or `items`.
*/
function push(list, items) {
if (list.length > 0) {
splice(list, list.length, 0, items)
return list
}
return items
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-combine-extensions/index.js
/**
* @typedef {import('micromark-util-types').Extension} Extension
* @typedef {import('micromark-util-types').Handles} Handles
* @typedef {import('micromark-util-types').HtmlExtension} HtmlExtension
* @typedef {import('micromark-util-types').NormalizedExtension} NormalizedExtension
*/
const micromark_util_combine_extensions_hasOwnProperty = {}.hasOwnProperty
/**
* Combine multiple syntax extensions into one.
*
* @param {Array<Extension>} extensions
* List of syntax extensions.
* @returns {NormalizedExtension}
* A single combined extension.
*/
function combineExtensions(extensions) {
/** @type {NormalizedExtension} */
const all = {}
let index = -1
while (++index < extensions.length) {
syntaxExtension(all, extensions[index])
}
return all
}
/**
* Merge `extension` into `all`.
*
* @param {NormalizedExtension} all
* Extension to merge into.
* @param {Extension} extension
* Extension to merge.
* @returns {void}
*/
function syntaxExtension(all, extension) {
/** @type {keyof Extension} */
let hook
for (hook in extension) {
const maybe = micromark_util_combine_extensions_hasOwnProperty.call(all, hook) ? all[hook] : undefined
/** @type {Record<string, unknown>} */
const left = maybe || (all[hook] = {})
/** @type {Record<string, unknown> | undefined} */
const right = extension[hook]
/** @type {string} */
let code
if (right) {
for (code in right) {
if (!micromark_util_combine_extensions_hasOwnProperty.call(left, code)) left[code] = []
const value = right[code]
constructs(
// @ts-expect-error Looks like a list.
left[code],
Array.isArray(value) ? value : value ? [value] : []
)
}
}
}
}
/**
* Merge `list` into `existing` (both lists of constructs).
* Mutates `existing`.
*
* @param {Array<unknown>} existing
* @param {Array<unknown>} list
* @returns {void}
*/
function constructs(existing, list) {
let index = -1
/** @type {Array<unknown>} */
const before = []
while (++index < list.length) {
// @ts-expect-error Looks like an object.
;(list[index].add === 'after' ? existing : before).push(list[index])
}
splice(existing, 0, 0, before)
}
/**
* Combine multiple HTML extensions into one.
*
* @param {Array<HtmlExtension>} htmlExtensions
* List of HTML extensions.
* @returns {HtmlExtension}
* A single combined HTML extension.
*/
function combineHtmlExtensions(htmlExtensions) {
/** @type {HtmlExtension} */
const handlers = {}
let index = -1
while (++index < htmlExtensions.length) {
htmlExtension(handlers, htmlExtensions[index])
}
return handlers
}
/**
* Merge `extension` into `all`.
*
* @param {HtmlExtension} all
* Extension to merge into.
* @param {HtmlExtension} extension
* Extension to merge.
* @returns {void}
*/
function htmlExtension(all, extension) {
/** @type {keyof HtmlExtension} */
let hook
for (hook in extension) {
const maybe = micromark_util_combine_extensions_hasOwnProperty.call(all, hook) ? all[hook] : undefined
const left = maybe || (all[hook] = {})
const right = extension[hook]
/** @type {keyof Handles} */
let type
if (right) {
for (type in right) {
// @ts-expect-error assume document vs regular handler are managed correctly.
left[type] = right[type]
}
}
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-character/lib/unicode-punctuation-regex.js
// This module is generated by `script/`.
//
// CommonMark handles attention (emphasis, strong) markers based on what comes
// before or after them.
// One such difference is if those characters are Unicode punctuation.
// This script is generated from the Unicode data.
/**
* Regular expression that matches a unicode punctuation character.
*/
const unicodePunctuationRegex =
/[!-\/:-@\[-`\{-~\xA1\xA7\xAB\xB6\xB7\xBB\xBF\u037E\u0387\u055A-\u055F\u0589\u058A\u05BE\u05C0\u05C3\u05C6\u05F3\u05F4\u0609\u060A\u060C\u060D\u061B\u061D-\u061F\u066A-\u066D\u06D4\u0700-\u070D\u07F7-\u07F9\u0830-\u083E\u085E\u0964\u0965\u0970\u09FD\u0A76\u0AF0\u0C77\u0C84\u0DF4\u0E4F\u0E5A\u0E5B\u0F04-\u0F12\u0F14\u0F3A-\u0F3D\u0F85\u0FD0-\u0FD4\u0FD9\u0FDA\u104A-\u104F\u10FB\u1360-\u1368\u1400\u166E\u169B\u169C\u16EB-\u16ED\u1735\u1736\u17D4-\u17D6\u17D8-\u17DA\u1800-\u180A\u1944\u1945\u1A1E\u1A1F\u1AA0-\u1AA6\u1AA8-\u1AAD\u1B5A-\u1B60\u1B7D\u1B7E\u1BFC-\u1BFF\u1C3B-\u1C3F\u1C7E\u1C7F\u1CC0-\u1CC7\u1CD3\u2010-\u2027\u2030-\u2043\u2045-\u2051\u2053-\u205E\u207D\u207E\u208D\u208E\u2308-\u230B\u2329\u232A\u2768-\u2775\u27C5\u27C6\u27E6-\u27EF\u2983-\u2998\u29D8-\u29DB\u29FC\u29FD\u2CF9-\u2CFC\u2CFE\u2CFF\u2D70\u2E00-\u2E2E\u2E30-\u2E4F\u2E52-\u2E5D\u3001-\u3003\u3008-\u3011\u3014-\u301F\u3030\u303D\u30A0\u30FB\uA4FE\uA4FF\uA60D-\uA60F\uA673\uA67E\uA6F2-\uA6F7\uA874-\uA877\uA8CE\uA8CF\uA8F8-\uA8FA\uA8FC\uA92E\uA92F\uA95F\uA9C1-\uA9CD\uA9DE\uA9DF\uAA5C-\uAA5F\uAADE\uAADF\uAAF0\uAAF1\uABEB\uFD3E\uFD3F\uFE10-\uFE19\uFE30-\uFE52\uFE54-\uFE61\uFE63\uFE68\uFE6A\uFE6B\uFF01-\uFF03\uFF05-\uFF0A\uFF0C-\uFF0F\uFF1A\uFF1B\uFF1F\uFF20\uFF3B-\uFF3D\uFF3F\uFF5B\uFF5D\uFF5F-\uFF65]/
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-character/index.js
/**
* @typedef {import('micromark-util-types').Code} Code
*/
/**
* Check whether the character code represents an ASCII alpha (`a` through `z`,
* case insensitive).
*
* An **ASCII alpha** is an ASCII upper alpha or ASCII lower alpha.
*
* An **ASCII upper alpha** is a character in the inclusive range U+0041 (`A`)
* to U+005A (`Z`).
*
* An **ASCII lower alpha** is a character in the inclusive range U+0061 (`a`)
* to U+007A (`z`).
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiAlpha = regexCheck(/[A-Za-z]/)
/**
* Check whether the character code represents an ASCII alphanumeric (`a`
* through `z`, case insensitive, or `0` through `9`).
*
* An **ASCII alphanumeric** is an ASCII digit (see `asciiDigit`) or ASCII alpha
* (see `asciiAlpha`).
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiAlphanumeric = regexCheck(/[\dA-Za-z]/)
/**
* Check whether the character code represents an ASCII atext.
*
* atext is an ASCII alphanumeric (see `asciiAlphanumeric`), or a character in
* the inclusive ranges U+0023 NUMBER SIGN (`#`) to U+0027 APOSTROPHE (`'`),
* U+002A ASTERISK (`*`), U+002B PLUS SIGN (`+`), U+002D DASH (`-`), U+002F
* SLASH (`/`), U+003D EQUALS TO (`=`), U+003F QUESTION MARK (`?`), U+005E
* CARET (`^`) to U+0060 GRAVE ACCENT (`` ` ``), or U+007B LEFT CURLY BRACE
* (`{`) to U+007E TILDE (`~`).
*
* See:
* **\[RFC5322]**:
* [Internet Message Format](https://tools.ietf.org/html/rfc5322).
* P. Resnick.
* IETF.
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiAtext = regexCheck(/[#-'*+\--9=?A-Z^-~]/)
/**
* Check whether a character code is an ASCII control character.
*
* An **ASCII control** is a character in the inclusive range U+0000 NULL (NUL)
* to U+001F (US), or U+007F (DEL).
*
* @param {Code} code
* Code.
* @returns {boolean}
* Whether it matches.
*/
function asciiControl(code) {
return (
// Special whitespace codes (which have negative values), C0 and Control
// character DEL
code !== null && (code < 32 || code === 127)
)
}
/**
* Check whether the character code represents an ASCII digit (`0` through `9`).
*
* An **ASCII digit** is a character in the inclusive range U+0030 (`0`) to
* U+0039 (`9`).
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiDigit = regexCheck(/\d/)
/**
* Check whether the character code represents an ASCII hex digit (`a` through
* `f`, case insensitive, or `0` through `9`).
*
* An **ASCII hex digit** is an ASCII digit (see `asciiDigit`), ASCII upper hex
* digit, or an ASCII lower hex digit.
*
* An **ASCII upper hex digit** is a character in the inclusive range U+0041
* (`A`) to U+0046 (`F`).
*
* An **ASCII lower hex digit** is a character in the inclusive range U+0061
* (`a`) to U+0066 (`f`).
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiHexDigit = regexCheck(/[\dA-Fa-f]/)
/**
* Check whether the character code represents ASCII punctuation.
*
* An **ASCII punctuation** is a character in the inclusive ranges U+0021
* EXCLAMATION MARK (`!`) to U+002F SLASH (`/`), U+003A COLON (`:`) to U+0040 AT
* SIGN (`@`), U+005B LEFT SQUARE BRACKET (`[`) to U+0060 GRAVE ACCENT
* (`` ` ``), or U+007B LEFT CURLY BRACE (`{`) to U+007E TILDE (`~`).
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const asciiPunctuation = regexCheck(/[!-/:-@[-`{-~]/)
/**
* Check whether a character code is a markdown line ending.
*
* A **markdown line ending** is the virtual characters M-0003 CARRIAGE RETURN
* LINE FEED (CRLF), M-0004 LINE FEED (LF) and M-0005 CARRIAGE RETURN (CR).
*
* In micromark, the actual character U+000A LINE FEED (LF) and U+000D CARRIAGE
* RETURN (CR) are replaced by these virtual characters depending on whether
* they occurred together.
*
* @param {Code} code
* Code.
* @returns {boolean}
* Whether it matches.
*/
function markdownLineEnding(code) {
return code !== null && code < -2
}
/**
* Check whether a character code is a markdown line ending (see
* `markdownLineEnding`) or markdown space (see `markdownSpace`).
*
* @param {Code} code
* Code.
* @returns {boolean}
* Whether it matches.
*/
function markdownLineEndingOrSpace(code) {
return code !== null && (code < 0 || code === 32)
}
/**
* Check whether a character code is a markdown space.
*
* A **markdown space** is the concrete character U+0020 SPACE (SP) and the
* virtual characters M-0001 VIRTUAL SPACE (VS) and M-0002 HORIZONTAL TAB (HT).
*
* In micromark, the actual character U+0009 CHARACTER TABULATION (HT) is
* replaced by one M-0002 HORIZONTAL TAB (HT) and between 0 and 3 M-0001 VIRTUAL
* SPACE (VS) characters, depending on the column at which the tab occurred.
*
* @param {Code} code
* Code.
* @returns {boolean}
* Whether it matches.
*/
function markdownSpace(code) {
return code === -2 || code === -1 || code === 32
}
// Size note: removing ASCII from the regex and using `asciiPunctuation` here
// In fact adds to the bundle size.
/**
* Check whether the character code represents Unicode punctuation.
*
* A **Unicode punctuation** is a character in the Unicode `Pc` (Punctuation,
* Connector), `Pd` (Punctuation, Dash), `Pe` (Punctuation, Close), `Pf`
* (Punctuation, Final quote), `Pi` (Punctuation, Initial quote), `Po`
* (Punctuation, Other), or `Ps` (Punctuation, Open) categories, or an ASCII
* punctuation (see `asciiPunctuation`).
*
* See:
* **\[UNICODE]**:
* [The Unicode Standard](https://www.unicode.org/versions/).
* Unicode Consortium.
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const unicodePunctuation = regexCheck(unicodePunctuationRegex)
/**
* Check whether the character code represents Unicode whitespace.
*
* Note that this does handle micromark specific markdown whitespace characters.
* See `markdownLineEndingOrSpace` to check that.
*
* A **Unicode whitespace** is a character in the Unicode `Zs` (Separator,
* Space) category, or U+0009 CHARACTER TABULATION (HT), U+000A LINE FEED (LF),
* U+000C (FF), or U+000D CARRIAGE RETURN (CR) (**\[UNICODE]**).
*
* See:
* **\[UNICODE]**:
* [The Unicode Standard](https://www.unicode.org/versions/).
* Unicode Consortium.
*
* @param code
* Code.
* @returns
* Whether it matches.
*/
const unicodeWhitespace = regexCheck(/\s/)
/**
* Create a code check from a regex.
*
* @param {RegExp} regex
* @returns {(code: Code) => boolean}
*/
function regexCheck(regex) {
return check
/**
* Check whether a code matches the bound regex.
*
* @param {Code} code
* Character code.
* @returns {boolean}
* Whether the character code matches the bound regex.
*/
function check(code) {
return code !== null && regex.test(String.fromCharCode(code))
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-factory-space/index.js
/**
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenType} TokenType
*/
// To do: implement `spaceOrTab`, `spaceOrTabMinMax`, `spaceOrTabWithOptions`.
/**
* Parse spaces and tabs.
*
* There is no `nok` parameter:
*
* * spaces in markdown are often optional, in which case this factory can be
* used and `ok` will be switched to whether spaces were found or not
* * one line ending or space can be detected with `markdownSpace(code)` right
* before using `factorySpace`
*
* ###### Examples
*
* Where `` represents a tab (plus how much it expands) and `` represents a
* single space.
*
* ```markdown
*
*
*
* ```
*
* @param {Effects} effects
* Context.
* @param {State} ok
* State switched to when successful.
* @param {TokenType} type
* Type (`' \t'`).
* @param {number | undefined} [max=Infinity]
* Max (exclusive).
* @returns
* Start state.
*/
function factorySpace(effects, ok, type, max) {
const limit = max ? max - 1 : Number.POSITIVE_INFINITY
let size = 0
return start
/** @type {State} */
function start(code) {
if (markdownSpace(code)) {
effects.enter(type)
return prefix(code)
}
return ok(code)
}
/** @type {State} */
function prefix(code) {
if (markdownSpace(code) && size++ < limit) {
effects.consume(code)
return prefix
}
effects.exit(type)
return ok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/initialize/content.js
/**
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').Initializer} Initializer
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
*/
/** @type {InitialConstruct} */
const content = {
tokenize: initializeContent
}
/**
* @this {TokenizeContext}
* @type {Initializer}
*/
function initializeContent(effects) {
const contentStart = effects.attempt(
this.parser.constructs.contentInitial,
afterContentStartConstruct,
paragraphInitial
)
/** @type {Token} */
let previous
return contentStart
/** @type {State} */
function afterContentStartConstruct(code) {
if (code === null) {
effects.consume(code)
return
}
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return factorySpace(effects, contentStart, 'linePrefix')
}
/** @type {State} */
function paragraphInitial(code) {
effects.enter('paragraph')
return lineStart(code)
}
/** @type {State} */
function lineStart(code) {
const token = effects.enter('chunkText', {
contentType: 'text',
previous
})
if (previous) {
previous.next = token
}
previous = token
return data(code)
}
/** @type {State} */
function data(code) {
if (code === null) {
effects.exit('chunkText')
effects.exit('paragraph')
effects.consume(code)
return
}
if (markdownLineEnding(code)) {
effects.consume(code)
effects.exit('chunkText')
return lineStart
}
// Data.
effects.consume(code)
return data
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/initialize/document.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').ContainerState} ContainerState
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').Initializer} Initializer
* @typedef {import('micromark-util-types').Point} Point
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/**
* @typedef {[Construct, ContainerState]} StackItem
*/
/** @type {InitialConstruct} */
const document_document = {
tokenize: initializeDocument
}
/** @type {Construct} */
const containerConstruct = {
tokenize: tokenizeContainer
}
/**
* @this {TokenizeContext}
* @type {Initializer}
*/
function initializeDocument(effects) {
const self = this
/** @type {Array<StackItem>} */
const stack = []
let continued = 0
/** @type {TokenizeContext | undefined} */
let childFlow
/** @type {Token | undefined} */
let childToken
/** @type {number} */
let lineStartOffset
return start
/** @type {State} */
function start(code) {
// First we iterate through the open blocks, starting with the root
// document, and descending through last children down to the last open
// block.
// Each block imposes a condition that the line must satisfy if the block is
// to remain open.
// For example, a block quote requires a `>` character.
// A paragraph requires a non-blank line.
// In this phase we may match all or just some of the open blocks.
// But we cannot close unmatched blocks yet, because we may have a lazy
// continuation line.
if (continued < stack.length) {
const item = stack[continued]
self.containerState = item[1]
return effects.attempt(
item[0].continuation,
documentContinue,
checkNewContainers
)(code)
}
// Done.
return checkNewContainers(code)
}
/** @type {State} */
function documentContinue(code) {
continued++
// Note: this field is called `_closeFlow` but it also closes containers.
// Perhaps a good idea to rename it but its already used in the wild by
// extensions.
if (self.containerState._closeFlow) {
self.containerState._closeFlow = undefined
if (childFlow) {
closeFlow()
}
// Note: this algorithm for moving events around is similar to the
// algorithm when dealing with lazy lines in `writeToChild`.
const indexBeforeExits = self.events.length
let indexBeforeFlow = indexBeforeExits
/** @type {Point | undefined} */
let point
// Find the flow chunk.
while (indexBeforeFlow--) {
if (
self.events[indexBeforeFlow][0] === 'exit' &&
self.events[indexBeforeFlow][1].type === 'chunkFlow'
) {
point = self.events[indexBeforeFlow][1].end
break
}
}
exitContainers(continued)
// Fix positions.
let index = indexBeforeExits
while (index < self.events.length) {
self.events[index][1].end = Object.assign({}, point)
index++
}
// Inject the exits earlier (theyre still also at the end).
splice(
self.events,
indexBeforeFlow + 1,
0,
self.events.slice(indexBeforeExits)
)
// Discard the duplicate exits.
self.events.length = index
return checkNewContainers(code)
}
return start(code)
}
/** @type {State} */
function checkNewContainers(code) {
// Next, after consuming the continuation markers for existing blocks, we
// look for new block starts (e.g. `>` for a block quote).
// If we encounter a new block start, we close any blocks unmatched in
// step 1 before creating the new block as a child of the last matched
// block.
if (continued === stack.length) {
// No need to `check` whether theres a container, of `exitContainers`
// would be moot.
// We can instead immediately `attempt` to parse one.
if (!childFlow) {
return documentContinued(code)
}
// If we have concrete content, such as block HTML or fenced code,
// we cant have containers “pierce” into them, so we can immediately
// start.
if (childFlow.currentConstruct && childFlow.currentConstruct.concrete) {
return flowStart(code)
}
// If we do have flow, it could still be a blank line,
// but wed be interrupting it w/ a new container if theres a current
// construct.
// To do: next major: remove `_gfmTableDynamicInterruptHack` (no longer
// needed in micromark-extension-gfm-table@1.0.6).
self.interrupt = Boolean(
childFlow.currentConstruct && !childFlow._gfmTableDynamicInterruptHack
)
}
// Check if there is a new container.
self.containerState = {}
return effects.check(
containerConstruct,
thereIsANewContainer,
thereIsNoNewContainer
)(code)
}
/** @type {State} */
function thereIsANewContainer(code) {
if (childFlow) closeFlow()
exitContainers(continued)
return documentContinued(code)
}
/** @type {State} */
function thereIsNoNewContainer(code) {
self.parser.lazy[self.now().line] = continued !== stack.length
lineStartOffset = self.now().offset
return flowStart(code)
}
/** @type {State} */
function documentContinued(code) {
// Try new containers.
self.containerState = {}
return effects.attempt(
containerConstruct,
containerContinue,
flowStart
)(code)
}
/** @type {State} */
function containerContinue(code) {
continued++
stack.push([self.currentConstruct, self.containerState])
// Try another.
return documentContinued(code)
}
/** @type {State} */
function flowStart(code) {
if (code === null) {
if (childFlow) closeFlow()
exitContainers(0)
effects.consume(code)
return
}
childFlow = childFlow || self.parser.flow(self.now())
effects.enter('chunkFlow', {
contentType: 'flow',
previous: childToken,
_tokenizer: childFlow
})
return flowContinue(code)
}
/** @type {State} */
function flowContinue(code) {
if (code === null) {
writeToChild(effects.exit('chunkFlow'), true)
exitContainers(0)
effects.consume(code)
return
}
if (markdownLineEnding(code)) {
effects.consume(code)
writeToChild(effects.exit('chunkFlow'))
// Get ready for the next line.
continued = 0
self.interrupt = undefined
return start
}
effects.consume(code)
return flowContinue
}
/**
* @param {Token} token
* @param {boolean | undefined} [eof]
* @returns {void}
*/
function writeToChild(token, eof) {
const stream = self.sliceStream(token)
if (eof) stream.push(null)
token.previous = childToken
if (childToken) childToken.next = token
childToken = token
childFlow.defineSkip(token.start)
childFlow.write(stream)
// Alright, so we just added a lazy line:
//
// ```markdown
// > a
// b.
//
// Or:
//
// > ~~~c
// d
//
// Or:
//
// > | e |
// f
// ```
//
// The construct in the second example (fenced code) does not accept lazy
// lines, so it marked itself as done at the end of its first line, and
// then the content construct parses `d`.
// Most constructs in markdown match on the first line: if the first line
// forms a construct, a non-lazy line cant “unmake” it.
//
// The construct in the third example is potentially a GFM table, and
// those are *weird*.
// It *could* be a table, from the first line, if the following line
// matches a condition.
// In this case, that second line is lazy, which “unmakes” the first line
// and turns the whole into one content block.
//
// Weve now parsed the non-lazy and the lazy line, and can figure out
// whether the lazy line started a new flow block.
// If it did, we exit the current containers between the two flow blocks.
if (self.parser.lazy[token.start.line]) {
let index = childFlow.events.length
while (index--) {
if (
// The token starts before the line ending…
childFlow.events[index][1].start.offset < lineStartOffset &&
// …and either is not ended yet…
(!childFlow.events[index][1].end ||
// …or ends after it.
childFlow.events[index][1].end.offset > lineStartOffset)
) {
// Exit: theres still something open, which means its a lazy line
// part of something.
return
}
}
// Note: this algorithm for moving events around is similar to the
// algorithm when closing flow in `documentContinue`.
const indexBeforeExits = self.events.length
let indexBeforeFlow = indexBeforeExits
/** @type {boolean | undefined} */
let seen
/** @type {Point | undefined} */
let point
// Find the previous chunk (the one before the lazy line).
while (indexBeforeFlow--) {
if (
self.events[indexBeforeFlow][0] === 'exit' &&
self.events[indexBeforeFlow][1].type === 'chunkFlow'
) {
if (seen) {
point = self.events[indexBeforeFlow][1].end
break
}
seen = true
}
}
exitContainers(continued)
// Fix positions.
index = indexBeforeExits
while (index < self.events.length) {
self.events[index][1].end = Object.assign({}, point)
index++
}
// Inject the exits earlier (theyre still also at the end).
splice(
self.events,
indexBeforeFlow + 1,
0,
self.events.slice(indexBeforeExits)
)
// Discard the duplicate exits.
self.events.length = index
}
}
/**
* @param {number} size
* @returns {void}
*/
function exitContainers(size) {
let index = stack.length
// Exit open containers.
while (index-- > size) {
const entry = stack[index]
self.containerState = entry[1]
entry[0].exit.call(self, effects)
}
stack.length = size
}
function closeFlow() {
childFlow.write([null])
childToken = undefined
childFlow = undefined
self.containerState._closeFlow = undefined
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeContainer(effects, ok, nok) {
// Always populated by defaults.
return factorySpace(
effects,
effects.attempt(this.parser.constructs.document, ok, nok),
'linePrefix',
this.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4
)
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/blank-line.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const blankLine = {
tokenize: tokenizeBlankLine,
partial: true
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeBlankLine(effects, ok, nok) {
return start
/**
* Start of blank line.
*
* > 👉 **Note**: `` represents a space character.
*
* ```markdown
* > |
* ^
* > |
* ^
* ```
*
* @type {State}
*/
function start(code) {
return markdownSpace(code)
? factorySpace(effects, after, 'linePrefix')(code)
: after(code)
}
/**
* At eof/eol, after optional whitespace.
*
* > 👉 **Note**: `` represents a space character.
*
* ```markdown
* > |
* ^
* > |
* ^
* ```
*
* @type {State}
*/
function after(code) {
return code === null || markdownLineEnding(code) ? ok(code) : nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/micromark-util-subtokenize/node_modules/micromark-util-chunked/index.js
/**
* Like `Array#splice`, but smarter for giant arrays.
*
* `Array#splice` takes all items to be inserted as individual argument which
* causes a stack overflow in V8 when trying to insert 100k items for instance.
*
* Otherwise, this does not return the removed items, and takes `items` as an
* array instead of rest parameters.
*
* @template {unknown} T
* Item type.
* @param {Array<T>} list
* List to operate on.
* @param {number} start
* Index to remove/insert at (can be negative).
* @param {number} remove
* Number of items to remove.
* @param {Array<T>} items
* Items to inject into `list`.
* @returns {void}
* Nothing.
*/
function micromark_util_chunked_splice(list, start, remove, items) {
const end = list.length
let chunkStart = 0
/** @type {Array<unknown>} */
let parameters
// Make start between zero and `end` (included).
if (start < 0) {
start = -start > end ? 0 : end + start
} else {
start = start > end ? end : start
}
remove = remove > 0 ? remove : 0
// No need to chunk the items if theres only a couple (10k) items.
if (items.length < 10000) {
parameters = Array.from(items)
parameters.unshift(start, remove)
// @ts-expect-error Hush, its fine.
list.splice(...parameters)
} else {
// Delete `remove` items starting from `start`
if (remove) list.splice(start, remove)
// Insert the items in chunks to not cause stack overflows.
while (chunkStart < items.length) {
parameters = items.slice(chunkStart, chunkStart + 10000)
parameters.unshift(start, 0)
// @ts-expect-error Hush, its fine.
list.splice(...parameters)
chunkStart += 10000
start += 10000
}
}
}
/**
* Append `items` (an array) at the end of `list` (another array).
* When `list` was empty, returns `items` instead.
*
* This prevents a potentially expensive operation when `list` is empty,
* and adds items in batches to prevent V8 from hanging.
*
* @template {unknown} T
* Item type.
* @param {Array<T>} list
* List to operate on.
* @param {Array<T>} items
* Items to add to `list`.
* @returns {Array<T>}
* Either `list` or `items`.
*/
function micromark_util_chunked_push(list, items) {
if (list.length > 0) {
micromark_util_chunked_splice(list, list.length, 0, items)
return list
}
return items
}
;// CONCATENATED MODULE: ./node_modules/micromark-util-subtokenize/index.js
/**
* @typedef {import('micromark-util-types').Chunk} Chunk
* @typedef {import('micromark-util-types').Event} Event
* @typedef {import('micromark-util-types').Token} Token
*/
/**
* Tokenize subcontent.
*
* @param {Array<Event>} events
* List of events.
* @returns {boolean}
* Whether subtokens were found.
*/
function subtokenize(events) {
/** @type {Record<string, number>} */
const jumps = {}
let index = -1
/** @type {Event} */
let event
/** @type {number | undefined} */
let lineIndex
/** @type {number} */
let otherIndex
/** @type {Event} */
let otherEvent
/** @type {Array<Event>} */
let parameters
/** @type {Array<Event>} */
let subevents
/** @type {boolean | undefined} */
let more
while (++index < events.length) {
while (index in jumps) {
index = jumps[index]
}
event = events[index]
// Add a hook for the GFM tasklist extension, which needs to know if text
// is in the first content of a list item.
if (
index &&
event[1].type === 'chunkFlow' &&
events[index - 1][1].type === 'listItemPrefix'
) {
subevents = event[1]._tokenizer.events
otherIndex = 0
if (
otherIndex < subevents.length &&
subevents[otherIndex][1].type === 'lineEndingBlank'
) {
otherIndex += 2
}
if (
otherIndex < subevents.length &&
subevents[otherIndex][1].type === 'content'
) {
while (++otherIndex < subevents.length) {
if (subevents[otherIndex][1].type === 'content') {
break
}
if (subevents[otherIndex][1].type === 'chunkText') {
subevents[otherIndex][1]._isInFirstContentOfListItem = true
otherIndex++
}
}
}
}
// Enter.
if (event[0] === 'enter') {
if (event[1].contentType) {
Object.assign(jumps, subcontent(events, index))
index = jumps[index]
more = true
}
}
// Exit.
else if (event[1]._container) {
otherIndex = index
lineIndex = undefined
while (otherIndex--) {
otherEvent = events[otherIndex]
if (
otherEvent[1].type === 'lineEnding' ||
otherEvent[1].type === 'lineEndingBlank'
) {
if (otherEvent[0] === 'enter') {
if (lineIndex) {
events[lineIndex][1].type = 'lineEndingBlank'
}
otherEvent[1].type = 'lineEnding'
lineIndex = otherIndex
}
} else {
break
}
}
if (lineIndex) {
// Fix position.
event[1].end = Object.assign({}, events[lineIndex][1].start)
// Switch container exit w/ line endings.
parameters = events.slice(lineIndex, index)
parameters.unshift(event)
micromark_util_chunked_splice(events, lineIndex, index - lineIndex + 1, parameters)
}
}
}
return !more
}
/**
* Tokenize embedded tokens.
*
* @param {Array<Event>} events
* @param {number} eventIndex
* @returns {Record<string, number>}
*/
function subcontent(events, eventIndex) {
const token = events[eventIndex][1]
const context = events[eventIndex][2]
let startPosition = eventIndex - 1
/** @type {Array<number>} */
const startPositions = []
const tokenizer =
token._tokenizer || context.parser[token.contentType](token.start)
const childEvents = tokenizer.events
/** @type {Array<[number, number]>} */
const jumps = []
/** @type {Record<string, number>} */
const gaps = {}
/** @type {Array<Chunk>} */
let stream
/** @type {Token | undefined} */
let previous
let index = -1
/** @type {Token | undefined} */
let current = token
let adjust = 0
let start = 0
const breaks = [start]
// Loop forward through the linked tokens to pass them in order to the
// subtokenizer.
while (current) {
// Find the position of the event for this token.
while (events[++startPosition][1] !== current) {
// Empty.
}
startPositions.push(startPosition)
if (!current._tokenizer) {
stream = context.sliceStream(current)
if (!current.next) {
stream.push(null)
}
if (previous) {
tokenizer.defineSkip(current.start)
}
if (current._isInFirstContentOfListItem) {
tokenizer._gfmTasklistFirstContentOfListItem = true
}
tokenizer.write(stream)
if (current._isInFirstContentOfListItem) {
tokenizer._gfmTasklistFirstContentOfListItem = undefined
}
}
// Unravel the next token.
previous = current
current = current.next
}
// Now, loop back through all events (and linked tokens), to figure out which
// parts belong where.
current = token
while (++index < childEvents.length) {
if (
// Find a void token that includes a break.
childEvents[index][0] === 'exit' &&
childEvents[index - 1][0] === 'enter' &&
childEvents[index][1].type === childEvents[index - 1][1].type &&
childEvents[index][1].start.line !== childEvents[index][1].end.line
) {
start = index + 1
breaks.push(start)
// Help GC.
current._tokenizer = undefined
current.previous = undefined
current = current.next
}
}
// Help GC.
tokenizer.events = []
// If theres one more token (which is the cases for lines that end in an
// EOF), thats perfect: the last point we found starts it.
// If there isnt then make sure any remaining content is added to it.
if (current) {
// Help GC.
current._tokenizer = undefined
current.previous = undefined
} else {
breaks.pop()
}
// Now splice the events from the subtokenizer into the current events,
// moving back to front so that splice indices arent affected.
index = breaks.length
while (index--) {
const slice = childEvents.slice(breaks[index], breaks[index + 1])
const start = startPositions.pop()
jumps.unshift([start, start + slice.length - 1])
micromark_util_chunked_splice(events, start, 2, slice)
}
index = -1
while (++index < jumps.length) {
gaps[adjust + jumps[index][0]] = adjust + jumps[index][1]
adjust += jumps[index][1] - jumps[index][0] - 1
}
return gaps
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/content.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/**
* No name because it must not be turned off.
* @type {Construct}
*/
const content_content = {
tokenize: tokenizeContent,
resolve: resolveContent
}
/** @type {Construct} */
const continuationConstruct = {
tokenize: tokenizeContinuation,
partial: true
}
/**
* Content is transparent: its parsed right now. That way, definitions are also
* parsed right now: before text in paragraphs (specifically, media) are parsed.
*
* @type {Resolver}
*/
function resolveContent(events) {
subtokenize(events)
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeContent(effects, ok) {
/** @type {Token | undefined} */
let previous
return chunkStart
/**
* Before a content chunk.
*
* ```markdown
* > | abc
* ^
* ```
*
* @type {State}
*/
function chunkStart(code) {
effects.enter('content')
previous = effects.enter('chunkContent', {
contentType: 'content'
})
return chunkInside(code)
}
/**
* In a content chunk.
*
* ```markdown
* > | abc
* ^^^
* ```
*
* @type {State}
*/
function chunkInside(code) {
if (code === null) {
return contentEnd(code)
}
// To do: in `markdown-rs`, each line is parsed on its own, and everything
// is stitched together resolving.
if (markdownLineEnding(code)) {
return effects.check(
continuationConstruct,
contentContinue,
contentEnd
)(code)
}
// Data.
effects.consume(code)
return chunkInside
}
/**
*
*
* @type {State}
*/
function contentEnd(code) {
effects.exit('chunkContent')
effects.exit('content')
return ok(code)
}
/**
*
*
* @type {State}
*/
function contentContinue(code) {
effects.consume(code)
effects.exit('chunkContent')
previous.next = effects.enter('chunkContent', {
contentType: 'content',
previous
})
previous = previous.next
return chunkInside
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeContinuation(effects, ok, nok) {
const self = this
return startLookahead
/**
*
*
* @type {State}
*/
function startLookahead(code) {
effects.exit('chunkContent')
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return factorySpace(effects, prefixed, 'linePrefix')
}
/**
*
*
* @type {State}
*/
function prefixed(code) {
if (code === null || markdownLineEnding(code)) {
return nok(code)
}
// Always populated by defaults.
const tail = self.events[self.events.length - 1]
if (
!self.parser.constructs.disable.null.includes('codeIndented') &&
tail &&
tail[1].type === 'linePrefix' &&
tail[2].sliceSerialize(tail[1], true).length >= 4
) {
return ok(code)
}
return effects.interrupt(self.parser.constructs.flow, nok, ok)(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/initialize/flow.js
/**
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').Initializer} Initializer
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
*/
/** @type {InitialConstruct} */
const flow = {
tokenize: initializeFlow
}
/**
* @this {TokenizeContext}
* @type {Initializer}
*/
function initializeFlow(effects) {
const self = this
const initial = effects.attempt(
// Try to parse a blank line.
blankLine,
atBlankEnding,
// Try to parse initial flow (essentially, only code).
effects.attempt(
this.parser.constructs.flowInitial,
afterConstruct,
factorySpace(
effects,
effects.attempt(
this.parser.constructs.flow,
afterConstruct,
effects.attempt(content_content, afterConstruct)
),
'linePrefix'
)
)
)
return initial
/** @type {State} */
function atBlankEnding(code) {
if (code === null) {
effects.consume(code)
return
}
effects.enter('lineEndingBlank')
effects.consume(code)
effects.exit('lineEndingBlank')
self.currentConstruct = undefined
return initial
}
/** @type {State} */
function afterConstruct(code) {
if (code === null) {
effects.consume(code)
return
}
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
self.currentConstruct = undefined
return initial
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/initialize/text.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').Initializer} Initializer
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
*/
const resolver = {
resolveAll: createResolver()
}
const string = initializeFactory('string')
const text_text = initializeFactory('text')
/**
* @param {'string' | 'text'} field
* @returns {InitialConstruct}
*/
function initializeFactory(field) {
return {
tokenize: initializeText,
resolveAll: createResolver(
field === 'text' ? resolveAllLineSuffixes : undefined
)
}
/**
* @this {TokenizeContext}
* @type {Initializer}
*/
function initializeText(effects) {
const self = this
const constructs = this.parser.constructs[field]
const text = effects.attempt(constructs, start, notText)
return start
/** @type {State} */
function start(code) {
return atBreak(code) ? text(code) : notText(code)
}
/** @type {State} */
function notText(code) {
if (code === null) {
effects.consume(code)
return
}
effects.enter('data')
effects.consume(code)
return data
}
/** @type {State} */
function data(code) {
if (atBreak(code)) {
effects.exit('data')
return text(code)
}
// Data.
effects.consume(code)
return data
}
/**
* @param {Code} code
* @returns {boolean}
*/
function atBreak(code) {
if (code === null) {
return true
}
const list = constructs[code]
let index = -1
if (list) {
// Always populated by defaults.
while (++index < list.length) {
const item = list[index]
if (!item.previous || item.previous.call(self, self.previous)) {
return true
}
}
}
return false
}
}
}
/**
* @param {Resolver | undefined} [extraResolver]
* @returns {Resolver}
*/
function createResolver(extraResolver) {
return resolveAllText
/** @type {Resolver} */
function resolveAllText(events, context) {
let index = -1
/** @type {number | undefined} */
let enter
// A rather boring computation (to merge adjacent `data` events) which
// improves mm performance by 29%.
while (++index <= events.length) {
if (enter === undefined) {
if (events[index] && events[index][1].type === 'data') {
enter = index
index++
}
} else if (!events[index] || events[index][1].type !== 'data') {
// Dont do anything if there is one data token.
if (index !== enter + 2) {
events[enter][1].end = events[index - 1][1].end
events.splice(enter + 2, index - enter - 2)
index = enter + 2
}
enter = undefined
}
}
return extraResolver ? extraResolver(events, context) : events
}
}
/**
* A rather ugly set of instructions which again looks at chunks in the input
* stream.
* The reason to do this here is that it is *much* faster to parse in reverse.
* And that we cant hook into `null` to split the line suffix before an EOF.
* To do: figure out if we can make this into a clean utility, or even in core.
* As it will be useful for GFMs literal autolink extension (and maybe even
* tables?)
*
* @type {Resolver}
*/
function resolveAllLineSuffixes(events, context) {
let eventIndex = 0 // Skip first.
while (++eventIndex <= events.length) {
if (
(eventIndex === events.length ||
events[eventIndex][1].type === 'lineEnding') &&
events[eventIndex - 1][1].type === 'data'
) {
const data = events[eventIndex - 1][1]
const chunks = context.sliceStream(data)
let index = chunks.length
let bufferIndex = -1
let size = 0
/** @type {boolean | undefined} */
let tabs
while (index--) {
const chunk = chunks[index]
if (typeof chunk === 'string') {
bufferIndex = chunk.length
while (chunk.charCodeAt(bufferIndex - 1) === 32) {
size++
bufferIndex--
}
if (bufferIndex) break
bufferIndex = -1
}
// Number
else if (chunk === -2) {
tabs = true
size++
} else if (chunk === -1) {
// Empty
} else {
// Replacement character, exit.
index++
break
}
}
if (size) {
const token = {
type:
eventIndex === events.length || tabs || size < 2
? 'lineSuffix'
: 'hardBreakTrailing',
start: {
line: data.end.line,
column: data.end.column - size,
offset: data.end.offset - size,
_index: data.start._index + index,
_bufferIndex: index
? bufferIndex
: data.start._bufferIndex + bufferIndex
},
end: Object.assign({}, data.end)
}
data.end = Object.assign({}, token.start)
if (data.start.offset === data.end.offset) {
Object.assign(data, token)
} else {
events.splice(
eventIndex,
0,
['enter', token, context],
['exit', token, context]
)
eventIndex += 2
}
}
eventIndex++
}
}
return events
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-resolve-all/index.js
/**
* @typedef {import('micromark-util-types').Event} Event
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
*/
/**
* Call all `resolveAll`s.
*
* @param {Array<{resolveAll?: Resolver | undefined}>} constructs
* List of constructs, optionally with `resolveAll`s.
* @param {Array<Event>} events
* List of events.
* @param {TokenizeContext} context
* Context used by `tokenize`.
* @returns {Array<Event>}
* Changed events.
*/
function resolveAll(constructs, events, context) {
/** @type {Array<Resolver>} */
const called = []
let index = -1
while (++index < constructs.length) {
const resolve = constructs[index].resolveAll
if (resolve && !called.includes(resolve)) {
events = resolve(events, context)
called.push(resolve)
}
}
return events
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/create-tokenizer.js
/**
* @typedef {import('micromark-util-types').Chunk} Chunk
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').ConstructRecord} ConstructRecord
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').ParseContext} ParseContext
* @typedef {import('micromark-util-types').Point} Point
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenType} TokenType
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
*/
/**
* @callback Restore
* @returns {void}
*
* @typedef Info
* @property {Restore} restore
* @property {number} from
*
* @callback ReturnHandle
* Handle a successful run.
* @param {Construct} construct
* @param {Info} info
* @returns {void}
*/
/**
* Create a tokenizer.
* Tokenizers deal with one type of data (e.g., containers, flow, text).
* The parser is the object dealing with it all.
* `initialize` works like other constructs, except that only its `tokenize`
* function is used, in which case it doesnt receive an `ok` or `nok`.
* `from` can be given to set the point before the first character, although
* when further lines are indented, they must be set with `defineSkip`.
*
* @param {ParseContext} parser
* @param {InitialConstruct} initialize
* @param {Omit<Point, '_bufferIndex' | '_index'> | undefined} [from]
* @returns {TokenizeContext}
*/
function createTokenizer(parser, initialize, from) {
/** @type {Point} */
let point = Object.assign(
from
? Object.assign({}, from)
: {
line: 1,
column: 1,
offset: 0
},
{
_index: 0,
_bufferIndex: -1
}
)
/** @type {Record<string, number>} */
const columnStart = {}
/** @type {Array<Construct>} */
const resolveAllConstructs = []
/** @type {Array<Chunk>} */
let chunks = []
/** @type {Array<Token>} */
let stack = []
/** @type {boolean | undefined} */
let consumed = true
/**
* Tools used for tokenizing.
*
* @type {Effects}
*/
const effects = {
consume,
enter,
exit,
attempt: constructFactory(onsuccessfulconstruct),
check: constructFactory(onsuccessfulcheck),
interrupt: constructFactory(onsuccessfulcheck, {
interrupt: true
})
}
/**
* State and tools for resolving and serializing.
*
* @type {TokenizeContext}
*/
const context = {
previous: null,
code: null,
containerState: {},
events: [],
parser,
sliceStream,
sliceSerialize,
now,
defineSkip,
write
}
/**
* The state function.
*
* @type {State | void}
*/
let state = initialize.tokenize.call(context, effects)
/**
* Track which character we expect to be consumed, to catch bugs.
*
* @type {Code}
*/
let expectedCode
if (initialize.resolveAll) {
resolveAllConstructs.push(initialize)
}
return context
/** @type {TokenizeContext['write']} */
function write(slice) {
chunks = push(chunks, slice)
main()
// Exit if were not done, resolve might change stuff.
if (chunks[chunks.length - 1] !== null) {
return []
}
addResult(initialize, 0)
// Otherwise, resolve, and exit.
context.events = resolveAll(resolveAllConstructs, context.events, context)
return context.events
}
//
// Tools.
//
/** @type {TokenizeContext['sliceSerialize']} */
function sliceSerialize(token, expandTabs) {
return serializeChunks(sliceStream(token), expandTabs)
}
/** @type {TokenizeContext['sliceStream']} */
function sliceStream(token) {
return sliceChunks(chunks, token)
}
/** @type {TokenizeContext['now']} */
function now() {
// This is a hot path, so we clone manually instead of `Object.assign({}, point)`
const {line, column, offset, _index, _bufferIndex} = point
return {
line,
column,
offset,
_index,
_bufferIndex
}
}
/** @type {TokenizeContext['defineSkip']} */
function defineSkip(value) {
columnStart[value.line] = value.column
accountForPotentialSkip()
}
//
// State management.
//
/**
* Main loop (note that `_index` and `_bufferIndex` in `point` are modified by
* `consume`).
* Here is where we walk through the chunks, which either include strings of
* several characters, or numerical character codes.
* The reason to do this in a loop instead of a call is so the stack can
* drain.
*
* @returns {void}
*/
function main() {
/** @type {number} */
let chunkIndex
while (point._index < chunks.length) {
const chunk = chunks[point._index]
// If were in a buffer chunk, loop through it.
if (typeof chunk === 'string') {
chunkIndex = point._index
if (point._bufferIndex < 0) {
point._bufferIndex = 0
}
while (
point._index === chunkIndex &&
point._bufferIndex < chunk.length
) {
go(chunk.charCodeAt(point._bufferIndex))
}
} else {
go(chunk)
}
}
}
/**
* Deal with one code.
*
* @param {Code} code
* @returns {void}
*/
function go(code) {
consumed = undefined
expectedCode = code
state = state(code)
}
/** @type {Effects['consume']} */
function consume(code) {
if (markdownLineEnding(code)) {
point.line++
point.column = 1
point.offset += code === -3 ? 2 : 1
accountForPotentialSkip()
} else if (code !== -1) {
point.column++
point.offset++
}
// Not in a string chunk.
if (point._bufferIndex < 0) {
point._index++
} else {
point._bufferIndex++
// At end of string chunk.
// @ts-expect-error Points w/ non-negative `_bufferIndex` reference
// strings.
if (point._bufferIndex === chunks[point._index].length) {
point._bufferIndex = -1
point._index++
}
}
// Expose the previous character.
context.previous = code
// Mark as consumed.
consumed = true
}
/** @type {Effects['enter']} */
function enter(type, fields) {
/** @type {Token} */
// @ts-expect-error Patch instead of assign required fields to help GC.
const token = fields || {}
token.type = type
token.start = now()
context.events.push(['enter', token, context])
stack.push(token)
return token
}
/** @type {Effects['exit']} */
function exit(type) {
const token = stack.pop()
token.end = now()
context.events.push(['exit', token, context])
return token
}
/**
* Use results.
*
* @type {ReturnHandle}
*/
function onsuccessfulconstruct(construct, info) {
addResult(construct, info.from)
}
/**
* Discard results.
*
* @type {ReturnHandle}
*/
function onsuccessfulcheck(_, info) {
info.restore()
}
/**
* Factory to attempt/check/interrupt.
*
* @param {ReturnHandle} onreturn
* @param {{interrupt?: boolean | undefined} | undefined} [fields]
*/
function constructFactory(onreturn, fields) {
return hook
/**
* Handle either an object mapping codes to constructs, a list of
* constructs, or a single construct.
*
* @param {Array<Construct> | Construct | ConstructRecord} constructs
* @param {State} returnState
* @param {State | undefined} [bogusState]
* @returns {State}
*/
function hook(constructs, returnState, bogusState) {
/** @type {Array<Construct>} */
let listOfConstructs
/** @type {number} */
let constructIndex
/** @type {Construct} */
let currentConstruct
/** @type {Info} */
let info
return Array.isArray(constructs) /* c8 ignore next 1 */
? handleListOfConstructs(constructs)
: 'tokenize' in constructs
? // @ts-expect-error Looks like a construct.
handleListOfConstructs([constructs])
: handleMapOfConstructs(constructs)
/**
* Handle a list of construct.
*
* @param {ConstructRecord} map
* @returns {State}
*/
function handleMapOfConstructs(map) {
return start
/** @type {State} */
function start(code) {
const def = code !== null && map[code]
const all = code !== null && map.null
const list = [
// To do: add more extension tests.
/* c8 ignore next 2 */
...(Array.isArray(def) ? def : def ? [def] : []),
...(Array.isArray(all) ? all : all ? [all] : [])
]
return handleListOfConstructs(list)(code)
}
}
/**
* Handle a list of construct.
*
* @param {Array<Construct>} list
* @returns {State}
*/
function handleListOfConstructs(list) {
listOfConstructs = list
constructIndex = 0
if (list.length === 0) {
return bogusState
}
return handleConstruct(list[constructIndex])
}
/**
* Handle a single construct.
*
* @param {Construct} construct
* @returns {State}
*/
function handleConstruct(construct) {
return start
/** @type {State} */
function start(code) {
// To do: not needed to store if there is no bogus state, probably?
// Currently doesnt work because `inspect` in document does a check
// w/o a bogus, which doesnt make sense. But it does seem to help perf
// by not storing.
info = store()
currentConstruct = construct
if (!construct.partial) {
context.currentConstruct = construct
}
// Always populated by defaults.
if (
construct.name &&
context.parser.constructs.disable.null.includes(construct.name)
) {
return nok(code)
}
return construct.tokenize.call(
// If we do have fields, create an object w/ `context` as its
// prototype.
// This allows a “live binding”, which is needed for `interrupt`.
fields ? Object.assign(Object.create(context), fields) : context,
effects,
ok,
nok
)(code)
}
}
/** @type {State} */
function ok(code) {
consumed = true
onreturn(currentConstruct, info)
return returnState
}
/** @type {State} */
function nok(code) {
consumed = true
info.restore()
if (++constructIndex < listOfConstructs.length) {
return handleConstruct(listOfConstructs[constructIndex])
}
return bogusState
}
}
}
/**
* @param {Construct} construct
* @param {number} from
* @returns {void}
*/
function addResult(construct, from) {
if (construct.resolveAll && !resolveAllConstructs.includes(construct)) {
resolveAllConstructs.push(construct)
}
if (construct.resolve) {
splice(
context.events,
from,
context.events.length - from,
construct.resolve(context.events.slice(from), context)
)
}
if (construct.resolveTo) {
context.events = construct.resolveTo(context.events, context)
}
}
/**
* Store state.
*
* @returns {Info}
*/
function store() {
const startPoint = now()
const startPrevious = context.previous
const startCurrentConstruct = context.currentConstruct
const startEventsIndex = context.events.length
const startStack = Array.from(stack)
return {
restore,
from: startEventsIndex
}
/**
* Restore state.
*
* @returns {void}
*/
function restore() {
point = startPoint
context.previous = startPrevious
context.currentConstruct = startCurrentConstruct
context.events.length = startEventsIndex
stack = startStack
accountForPotentialSkip()
}
}
/**
* Move the current point a bit forward in the line when its on a column
* skip.
*
* @returns {void}
*/
function accountForPotentialSkip() {
if (point.line in columnStart && point.column < 2) {
point.column = columnStart[point.line]
point.offset += columnStart[point.line] - 1
}
}
}
/**
* Get the chunks from a slice of chunks in the range of a token.
*
* @param {Array<Chunk>} chunks
* @param {Pick<Token, 'end' | 'start'>} token
* @returns {Array<Chunk>}
*/
function sliceChunks(chunks, token) {
const startIndex = token.start._index
const startBufferIndex = token.start._bufferIndex
const endIndex = token.end._index
const endBufferIndex = token.end._bufferIndex
/** @type {Array<Chunk>} */
let view
if (startIndex === endIndex) {
// @ts-expect-error `_bufferIndex` is used on string chunks.
view = [chunks[startIndex].slice(startBufferIndex, endBufferIndex)]
} else {
view = chunks.slice(startIndex, endIndex)
if (startBufferIndex > -1) {
const head = view[0]
if (typeof head === 'string') {
view[0] = head.slice(startBufferIndex)
} else {
view.shift()
}
}
if (endBufferIndex > 0) {
// @ts-expect-error `_bufferIndex` is used on string chunks.
view.push(chunks[endIndex].slice(0, endBufferIndex))
}
}
return view
}
/**
* Get the string value of a slice of chunks.
*
* @param {Array<Chunk>} chunks
* @param {boolean | undefined} [expandTabs=false]
* @returns {string}
*/
function serializeChunks(chunks, expandTabs) {
let index = -1
/** @type {Array<string>} */
const result = []
/** @type {boolean | undefined} */
let atTab
while (++index < chunks.length) {
const chunk = chunks[index]
/** @type {string} */
let value
if (typeof chunk === 'string') {
value = chunk
} else
switch (chunk) {
case -5: {
value = '\r'
break
}
case -4: {
value = '\n'
break
}
case -3: {
value = '\r' + '\n'
break
}
case -2: {
value = expandTabs ? ' ' : '\t'
break
}
case -1: {
if (!expandTabs && atTab) continue
value = ' '
break
}
default: {
// Currently only replacement character.
value = String.fromCharCode(chunk)
}
}
atTab = chunk === -2
result.push(value)
}
return result.join('')
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/thematic-break.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const thematicBreak = {
name: 'thematicBreak',
tokenize: tokenizeThematicBreak
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeThematicBreak(effects, ok, nok) {
let size = 0
/** @type {NonNullable<Code>} */
let marker
return start
/**
* Start of thematic break.
*
* ```markdown
* > | ***
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('thematicBreak')
// To do: parse indent like `markdown-rs`.
return before(code)
}
/**
* After optional whitespace, at marker.
*
* ```markdown
* > | ***
* ^
* ```
*
* @type {State}
*/
function before(code) {
marker = code
return atBreak(code)
}
/**
* After something, before something else.
*
* ```markdown
* > | ***
* ^
* ```
*
* @type {State}
*/
function atBreak(code) {
if (code === marker) {
effects.enter('thematicBreakSequence')
return sequence(code)
}
if (size >= 3 && (code === null || markdownLineEnding(code))) {
effects.exit('thematicBreak')
return ok(code)
}
return nok(code)
}
/**
* In sequence.
*
* ```markdown
* > | ***
* ^
* ```
*
* @type {State}
*/
function sequence(code) {
if (code === marker) {
effects.consume(code)
size++
return sequence
}
effects.exit('thematicBreakSequence')
return markdownSpace(code)
? factorySpace(effects, atBreak, 'whitespace')(code)
: atBreak(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/list.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').ContainerState} ContainerState
* @typedef {import('micromark-util-types').Exiter} Exiter
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const list = {
name: 'list',
tokenize: tokenizeListStart,
continuation: {
tokenize: tokenizeListContinuation
},
exit: tokenizeListEnd
}
/** @type {Construct} */
const listItemPrefixWhitespaceConstruct = {
tokenize: tokenizeListItemPrefixWhitespace,
partial: true
}
/** @type {Construct} */
const indentConstruct = {
tokenize: tokenizeIndent,
partial: true
}
// To do: `markdown-rs` parses list items on their own and later stitches them
// together.
/**
* @type {Tokenizer}
* @this {TokenizeContext}
*/
function tokenizeListStart(effects, ok, nok) {
const self = this
const tail = self.events[self.events.length - 1]
let initialSize =
tail && tail[1].type === 'linePrefix'
? tail[2].sliceSerialize(tail[1], true).length
: 0
let size = 0
return start
/** @type {State} */
function start(code) {
const kind =
self.containerState.type ||
(code === 42 || code === 43 || code === 45
? 'listUnordered'
: 'listOrdered')
if (
kind === 'listUnordered'
? !self.containerState.marker || code === self.containerState.marker
: asciiDigit(code)
) {
if (!self.containerState.type) {
self.containerState.type = kind
effects.enter(kind, {
_container: true
})
}
if (kind === 'listUnordered') {
effects.enter('listItemPrefix')
return code === 42 || code === 45
? effects.check(thematicBreak, nok, atMarker)(code)
: atMarker(code)
}
if (!self.interrupt || code === 49) {
effects.enter('listItemPrefix')
effects.enter('listItemValue')
return inside(code)
}
}
return nok(code)
}
/** @type {State} */
function inside(code) {
if (asciiDigit(code) && ++size < 10) {
effects.consume(code)
return inside
}
if (
(!self.interrupt || size < 2) &&
(self.containerState.marker
? code === self.containerState.marker
: code === 41 || code === 46)
) {
effects.exit('listItemValue')
return atMarker(code)
}
return nok(code)
}
/**
* @type {State}
**/
function atMarker(code) {
effects.enter('listItemMarker')
effects.consume(code)
effects.exit('listItemMarker')
self.containerState.marker = self.containerState.marker || code
return effects.check(
blankLine,
// Cant be empty when interrupting.
self.interrupt ? nok : onBlank,
effects.attempt(
listItemPrefixWhitespaceConstruct,
endOfPrefix,
otherPrefix
)
)
}
/** @type {State} */
function onBlank(code) {
self.containerState.initialBlankLine = true
initialSize++
return endOfPrefix(code)
}
/** @type {State} */
function otherPrefix(code) {
if (markdownSpace(code)) {
effects.enter('listItemPrefixWhitespace')
effects.consume(code)
effects.exit('listItemPrefixWhitespace')
return endOfPrefix
}
return nok(code)
}
/** @type {State} */
function endOfPrefix(code) {
self.containerState.size =
initialSize +
self.sliceSerialize(effects.exit('listItemPrefix'), true).length
return ok(code)
}
}
/**
* @type {Tokenizer}
* @this {TokenizeContext}
*/
function tokenizeListContinuation(effects, ok, nok) {
const self = this
self.containerState._closeFlow = undefined
return effects.check(blankLine, onBlank, notBlank)
/** @type {State} */
function onBlank(code) {
self.containerState.furtherBlankLines =
self.containerState.furtherBlankLines ||
self.containerState.initialBlankLine
// We have a blank line.
// Still, try to consume at most the items size.
return factorySpace(
effects,
ok,
'listItemIndent',
self.containerState.size + 1
)(code)
}
/** @type {State} */
function notBlank(code) {
if (self.containerState.furtherBlankLines || !markdownSpace(code)) {
self.containerState.furtherBlankLines = undefined
self.containerState.initialBlankLine = undefined
return notInCurrentItem(code)
}
self.containerState.furtherBlankLines = undefined
self.containerState.initialBlankLine = undefined
return effects.attempt(indentConstruct, ok, notInCurrentItem)(code)
}
/** @type {State} */
function notInCurrentItem(code) {
// While we do continue, we signal that the flow should be closed.
self.containerState._closeFlow = true
// As were closing flow, were no longer interrupting.
self.interrupt = undefined
// Always populated by defaults.
return factorySpace(
effects,
effects.attempt(list, ok, nok),
'linePrefix',
self.parser.constructs.disable.null.includes('codeIndented')
? undefined
: 4
)(code)
}
}
/**
* @type {Tokenizer}
* @this {TokenizeContext}
*/
function tokenizeIndent(effects, ok, nok) {
const self = this
return factorySpace(
effects,
afterPrefix,
'listItemIndent',
self.containerState.size + 1
)
/** @type {State} */
function afterPrefix(code) {
const tail = self.events[self.events.length - 1]
return tail &&
tail[1].type === 'listItemIndent' &&
tail[2].sliceSerialize(tail[1], true).length === self.containerState.size
? ok(code)
: nok(code)
}
}
/**
* @type {Exiter}
* @this {TokenizeContext}
*/
function tokenizeListEnd(effects) {
effects.exit(this.containerState.type)
}
/**
* @type {Tokenizer}
* @this {TokenizeContext}
*/
function tokenizeListItemPrefixWhitespace(effects, ok, nok) {
const self = this
// Always populated by defaults.
return factorySpace(
effects,
afterPrefix,
'listItemPrefixWhitespace',
self.parser.constructs.disable.null.includes('codeIndented')
? undefined
: 4 + 1
)
/** @type {State} */
function afterPrefix(code) {
const tail = self.events[self.events.length - 1]
return !markdownSpace(code) &&
tail &&
tail[1].type === 'listItemPrefixWhitespace'
? ok(code)
: nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/block-quote.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Exiter} Exiter
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const blockQuote = {
name: 'blockQuote',
tokenize: tokenizeBlockQuoteStart,
continuation: {
tokenize: tokenizeBlockQuoteContinuation
},
exit
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeBlockQuoteStart(effects, ok, nok) {
const self = this
return start
/**
* Start of block quote.
*
* ```markdown
* > | > a
* ^
* ```
*
* @type {State}
*/
function start(code) {
if (code === 62) {
const state = self.containerState
if (!state.open) {
effects.enter('blockQuote', {
_container: true
})
state.open = true
}
effects.enter('blockQuotePrefix')
effects.enter('blockQuoteMarker')
effects.consume(code)
effects.exit('blockQuoteMarker')
return after
}
return nok(code)
}
/**
* After `>`, before optional whitespace.
*
* ```markdown
* > | > a
* ^
* ```
*
* @type {State}
*/
function after(code) {
if (markdownSpace(code)) {
effects.enter('blockQuotePrefixWhitespace')
effects.consume(code)
effects.exit('blockQuotePrefixWhitespace')
effects.exit('blockQuotePrefix')
return ok
}
effects.exit('blockQuotePrefix')
return ok(code)
}
}
/**
* Start of block quote continuation.
*
* ```markdown
* | > a
* > | > b
* ^
* ```
*
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeBlockQuoteContinuation(effects, ok, nok) {
const self = this
return contStart
/**
* Start of block quote continuation.
*
* Also used to parse the first block quote opening.
*
* ```markdown
* | > a
* > | > b
* ^
* ```
*
* @type {State}
*/
function contStart(code) {
if (markdownSpace(code)) {
// Always populated by defaults.
return factorySpace(
effects,
contBefore,
'linePrefix',
self.parser.constructs.disable.null.includes('codeIndented')
? undefined
: 4
)(code)
}
return contBefore(code)
}
/**
* At `>`, after optional whitespace.
*
* Also used to parse the first block quote opening.
*
* ```markdown
* | > a
* > | > b
* ^
* ```
*
* @type {State}
*/
function contBefore(code) {
return effects.attempt(blockQuote, ok, nok)(code)
}
}
/** @type {Exiter} */
function exit(effects) {
effects.exit('blockQuote')
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-factory-destination/index.js
/**
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenType} TokenType
*/
/**
* Parse destinations.
*
* ###### Examples
*
* ```markdown
* <a>
* <a\>b>
* <a b>
* <a)>
* a
* a\)b
* a(b)c
* a(b)
* ```
*
* @param {Effects} effects
* Context.
* @param {State} ok
* State switched to when successful.
* @param {State} nok
* State switched to when unsuccessful.
* @param {TokenType} type
* Type for whole (`<a>` or `b`).
* @param {TokenType} literalType
* Type when enclosed (`<a>`).
* @param {TokenType} literalMarkerType
* Type for enclosing (`<` and `>`).
* @param {TokenType} rawType
* Type when not enclosed (`b`).
* @param {TokenType} stringType
* Type for the value (`a` or `b`).
* @param {number | undefined} [max=Infinity]
* Depth of nested parens (inclusive).
* @returns {State}
* Start state.
*/ // eslint-disable-next-line max-params
function factoryDestination(
effects,
ok,
nok,
type,
literalType,
literalMarkerType,
rawType,
stringType,
max
) {
const limit = max || Number.POSITIVE_INFINITY
let balance = 0
return start
/**
* Start of destination.
*
* ```markdown
* > | <aa>
* ^
* > | aa
* ^
* ```
*
* @type {State}
*/
function start(code) {
if (code === 60) {
effects.enter(type)
effects.enter(literalType)
effects.enter(literalMarkerType)
effects.consume(code)
effects.exit(literalMarkerType)
return enclosedBefore
}
// ASCII control, space, closing paren.
if (code === null || code === 32 || code === 41 || asciiControl(code)) {
return nok(code)
}
effects.enter(type)
effects.enter(rawType)
effects.enter(stringType)
effects.enter('chunkString', {
contentType: 'string'
})
return raw(code)
}
/**
* After `<`, at an enclosed destination.
*
* ```markdown
* > | <aa>
* ^
* ```
*
* @type {State}
*/
function enclosedBefore(code) {
if (code === 62) {
effects.enter(literalMarkerType)
effects.consume(code)
effects.exit(literalMarkerType)
effects.exit(literalType)
effects.exit(type)
return ok
}
effects.enter(stringType)
effects.enter('chunkString', {
contentType: 'string'
})
return enclosed(code)
}
/**
* In enclosed destination.
*
* ```markdown
* > | <aa>
* ^
* ```
*
* @type {State}
*/
function enclosed(code) {
if (code === 62) {
effects.exit('chunkString')
effects.exit(stringType)
return enclosedBefore(code)
}
if (code === null || code === 60 || markdownLineEnding(code)) {
return nok(code)
}
effects.consume(code)
return code === 92 ? enclosedEscape : enclosed
}
/**
* After `\`, at a special character.
*
* ```markdown
* > | <a\*a>
* ^
* ```
*
* @type {State}
*/
function enclosedEscape(code) {
if (code === 60 || code === 62 || code === 92) {
effects.consume(code)
return enclosed
}
return enclosed(code)
}
/**
* In raw destination.
*
* ```markdown
* > | aa
* ^
* ```
*
* @type {State}
*/
function raw(code) {
if (
!balance &&
(code === null || code === 41 || markdownLineEndingOrSpace(code))
) {
effects.exit('chunkString')
effects.exit(stringType)
effects.exit(rawType)
effects.exit(type)
return ok(code)
}
if (balance < limit && code === 40) {
effects.consume(code)
balance++
return raw
}
if (code === 41) {
effects.consume(code)
balance--
return raw
}
// ASCII control (but *not* `\0`) and space and `(`.
// Note: in `markdown-rs`, `\0` exists in codes, in `micromark-js` it
// doesnt.
if (code === null || code === 32 || code === 40 || asciiControl(code)) {
return nok(code)
}
effects.consume(code)
return code === 92 ? rawEscape : raw
}
/**
* After `\`, at special character.
*
* ```markdown
* > | a\*a
* ^
* ```
*
* @type {State}
*/
function rawEscape(code) {
if (code === 40 || code === 41 || code === 92) {
effects.consume(code)
return raw
}
return raw(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-factory-label/index.js
/**
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').TokenType} TokenType
*/
/**
* Parse labels.
*
* > 👉 **Note**: labels in markdown are capped at 999 characters in the string.
*
* ###### Examples
*
* ```markdown
* [a]
* [a
* b]
* [a\]b]
* ```
*
* @this {TokenizeContext}
* Tokenize context.
* @param {Effects} effects
* Context.
* @param {State} ok
* State switched to when successful.
* @param {State} nok
* State switched to when unsuccessful.
* @param {TokenType} type
* Type of the whole label (`[a]`).
* @param {TokenType} markerType
* Type for the markers (`[` and `]`).
* @param {TokenType} stringType
* Type for the identifier (`a`).
* @returns {State}
* Start state.
*/ // eslint-disable-next-line max-params
function factoryLabel(effects, ok, nok, type, markerType, stringType) {
const self = this
let size = 0
/** @type {boolean} */
let seen
return start
/**
* Start of label.
*
* ```markdown
* > | [a]
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter(type)
effects.enter(markerType)
effects.consume(code)
effects.exit(markerType)
effects.enter(stringType)
return atBreak
}
/**
* In label, at something, before something else.
*
* ```markdown
* > | [a]
* ^
* ```
*
* @type {State}
*/
function atBreak(code) {
if (
size > 999 ||
code === null ||
code === 91 ||
(code === 93 && !seen) ||
// To do: remove in the future once weve switched from
// `micromark-extension-footnote` to `micromark-extension-gfm-footnote`,
// which doesnt need this.
// Hidden footnotes hook.
/* c8 ignore next 3 */
(code === 94 &&
!size &&
'_hiddenFootnoteSupport' in self.parser.constructs)
) {
return nok(code)
}
if (code === 93) {
effects.exit(stringType)
effects.enter(markerType)
effects.consume(code)
effects.exit(markerType)
effects.exit(type)
return ok
}
// To do: indent? Link chunks and EOLs together?
if (markdownLineEnding(code)) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return atBreak
}
effects.enter('chunkString', {
contentType: 'string'
})
return labelInside(code)
}
/**
* In label, in text.
*
* ```markdown
* > | [a]
* ^
* ```
*
* @type {State}
*/
function labelInside(code) {
if (
code === null ||
code === 91 ||
code === 93 ||
markdownLineEnding(code) ||
size++ > 999
) {
effects.exit('chunkString')
return atBreak(code)
}
effects.consume(code)
if (!seen) seen = !markdownSpace(code)
return code === 92 ? labelEscape : labelInside
}
/**
* After `\`, at a special character.
*
* ```markdown
* > | [a\*a]
* ^
* ```
*
* @type {State}
*/
function labelEscape(code) {
if (code === 91 || code === 92 || code === 93) {
effects.consume(code)
size++
return labelInside
}
return labelInside(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-factory-title/index.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenType} TokenType
*/
/**
* Parse titles.
*
* ###### Examples
*
* ```markdown
* "a"
* 'b'
* (c)
* "a
* b"
* 'a
* b'
* (a\)b)
* ```
*
* @param {Effects} effects
* Context.
* @param {State} ok
* State switched to when successful.
* @param {State} nok
* State switched to when unsuccessful.
* @param {TokenType} type
* Type of the whole title (`"a"`, `'b'`, `(c)`).
* @param {TokenType} markerType
* Type for the markers (`"`, `'`, `(`, and `)`).
* @param {TokenType} stringType
* Type for the value (`a`).
* @returns {State}
* Start state.
*/ // eslint-disable-next-line max-params
function factoryTitle(effects, ok, nok, type, markerType, stringType) {
/** @type {NonNullable<Code>} */
let marker
return start
/**
* Start of title.
*
* ```markdown
* > | "a"
* ^
* ```
*
* @type {State}
*/
function start(code) {
if (code === 34 || code === 39 || code === 40) {
effects.enter(type)
effects.enter(markerType)
effects.consume(code)
effects.exit(markerType)
marker = code === 40 ? 41 : code
return begin
}
return nok(code)
}
/**
* After opening marker.
*
* This is also used at the closing marker.
*
* ```markdown
* > | "a"
* ^
* ```
*
* @type {State}
*/
function begin(code) {
if (code === marker) {
effects.enter(markerType)
effects.consume(code)
effects.exit(markerType)
effects.exit(type)
return ok
}
effects.enter(stringType)
return atBreak(code)
}
/**
* At something, before something else.
*
* ```markdown
* > | "a"
* ^
* ```
*
* @type {State}
*/
function atBreak(code) {
if (code === marker) {
effects.exit(stringType)
return begin(marker)
}
if (code === null) {
return nok(code)
}
// Note: blank lines cant exist in content.
if (markdownLineEnding(code)) {
// To do: use `space_or_tab_eol_with_options`, connect.
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return factorySpace(effects, atBreak, 'linePrefix')
}
effects.enter('chunkString', {
contentType: 'string'
})
return inside(code)
}
/**
*
*
* @type {State}
*/
function inside(code) {
if (code === marker || code === null || markdownLineEnding(code)) {
effects.exit('chunkString')
return atBreak(code)
}
effects.consume(code)
return code === 92 ? escape : inside
}
/**
* After `\`, at a special character.
*
* ```markdown
* > | "a\*b"
* ^
* ```
*
* @type {State}
*/
function escape(code) {
if (code === marker || code === 92) {
effects.consume(code)
return inside
}
return inside(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-factory-whitespace/index.js
/**
* @typedef {import('micromark-util-types').Effects} Effects
* @typedef {import('micromark-util-types').State} State
*/
/**
* Parse spaces and tabs.
*
* There is no `nok` parameter:
*
* * line endings or spaces in markdown are often optional, in which case this
* factory can be used and `ok` will be switched to whether spaces were found
* or not
* * one line ending or space can be detected with
* `markdownLineEndingOrSpace(code)` right before using `factoryWhitespace`
*
* @param {Effects} effects
* Context.
* @param {State} ok
* State switched to when successful.
* @returns
* Start state.
*/
function factoryWhitespace(effects, ok) {
/** @type {boolean} */
let seen
return start
/** @type {State} */
function start(code) {
if (markdownLineEnding(code)) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
seen = true
return start
}
if (markdownSpace(code)) {
return factorySpace(
effects,
start,
seen ? 'linePrefix' : 'lineSuffix'
)(code)
}
return ok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-normalize-identifier/index.js
/**
* Normalize an identifier (as found in references, definitions).
*
* Collapses markdown whitespace, trim, and then lower- and uppercase.
*
* Some characters are considered uppercase, such as U+03F4 (`ϴ`), but if their
* lowercase counterpart (U+03B8 (`θ`)) is uppercased will result in a different
* uppercase character (U+0398 (`Θ`)).
* So, to get a canonical form, we perform both lower- and uppercase.
*
* Using uppercase last makes sure keys will never interact with default
* prototypal values (such as `constructor`): nothing in the prototype of
* `Object` is uppercase.
*
* @param {string} value
* Identifier to normalize.
* @returns {string}
* Normalized identifier.
*/
function normalizeIdentifier(value) {
return (
value
// Collapse markdown whitespace.
.replace(/[\t\n\r ]+/g, ' ')
// Trim.
.replace(/^ | $/g, '')
// Some characters are considered “uppercase”, but if their lowercase
// counterpart is uppercased will result in a different uppercase
// character.
// Hence, to get that form, we perform both lower- and uppercase.
// Upper case makes sure keys will not interact with default prototypal
// methods: no method is uppercase.
.toLowerCase()
.toUpperCase()
)
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/definition.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const definition = {
name: 'definition',
tokenize: tokenizeDefinition
}
/** @type {Construct} */
const titleBefore = {
tokenize: tokenizeTitleBefore,
partial: true
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeDefinition(effects, ok, nok) {
const self = this
/** @type {string} */
let identifier
return start
/**
* At start of a definition.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function start(code) {
// Do not interrupt paragraphs (but do follow definitions).
// To do: do `interrupt` the way `markdown-rs` does.
// To do: parse whitespace the way `markdown-rs` does.
effects.enter('definition')
return before(code)
}
/**
* After optional whitespace, at `[`.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function before(code) {
// To do: parse whitespace the way `markdown-rs` does.
return factoryLabel.call(
self,
effects,
labelAfter,
// Note: we dont need to reset the way `markdown-rs` does.
nok,
'definitionLabel',
'definitionLabelMarker',
'definitionLabelString'
)(code)
}
/**
* After label.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function labelAfter(code) {
identifier = normalizeIdentifier(
self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1)
)
if (code === 58) {
effects.enter('definitionMarker')
effects.consume(code)
effects.exit('definitionMarker')
return markerAfter
}
return nok(code)
}
/**
* After marker.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function markerAfter(code) {
// Note: whitespace is optional.
return markdownLineEndingOrSpace(code)
? factoryWhitespace(effects, destinationBefore)(code)
: destinationBefore(code)
}
/**
* Before destination.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function destinationBefore(code) {
return factoryDestination(
effects,
destinationAfter,
// Note: we dont need to reset the way `markdown-rs` does.
nok,
'definitionDestination',
'definitionDestinationLiteral',
'definitionDestinationLiteralMarker',
'definitionDestinationRaw',
'definitionDestinationString'
)(code)
}
/**
* After destination.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function destinationAfter(code) {
return effects.attempt(titleBefore, after, after)(code)
}
/**
* After definition.
*
* ```markdown
* > | [a]: b
* ^
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function after(code) {
return markdownSpace(code)
? factorySpace(effects, afterWhitespace, 'whitespace')(code)
: afterWhitespace(code)
}
/**
* After definition, after optional whitespace.
*
* ```markdown
* > | [a]: b
* ^
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function afterWhitespace(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('definition')
// Note: we dont care about uniqueness.
// Its likely that that doesnt happen very frequently.
// It is more likely that it wastes precious time.
self.parser.defined.push(identifier)
// To do: `markdown-rs` interrupt.
// // Youd be interrupting.
// tokenizer.interrupt = true
return ok(code)
}
return nok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeTitleBefore(effects, ok, nok) {
return titleBefore
/**
* After destination, at whitespace.
*
* ```markdown
* > | [a]: b
* ^
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function titleBefore(code) {
return markdownLineEndingOrSpace(code)
? factoryWhitespace(effects, beforeMarker)(code)
: nok(code)
}
/**
* At title.
*
* ```markdown
* | [a]: b
* > | "c"
* ^
* ```
*
* @type {State}
*/
function beforeMarker(code) {
return factoryTitle(
effects,
titleAfter,
nok,
'definitionTitle',
'definitionTitleMarker',
'definitionTitleString'
)(code)
}
/**
* After title.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function titleAfter(code) {
return markdownSpace(code)
? factorySpace(effects, titleAfterOptionalWhitespace, 'whitespace')(code)
: titleAfterOptionalWhitespace(code)
}
/**
* After title, after optional whitespace.
*
* ```markdown
* > | [a]: b "c"
* ^
* ```
*
* @type {State}
*/
function titleAfterOptionalWhitespace(code) {
return code === null || markdownLineEnding(code) ? ok(code) : nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/code-indented.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const codeIndented = {
name: 'codeIndented',
tokenize: tokenizeCodeIndented
}
/** @type {Construct} */
const furtherStart = {
tokenize: tokenizeFurtherStart,
partial: true
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCodeIndented(effects, ok, nok) {
const self = this
return start
/**
* Start of code (indented).
*
* > **Parsing note**: it is not needed to check if this first line is a
* > filled line (that it has a non-whitespace character), because blank lines
* > are parsed already, so we never run into that.
*
* ```markdown
* > | aaa
* ^
* ```
*
* @type {State}
*/
function start(code) {
// To do: manually check if interrupting like `markdown-rs`.
effects.enter('codeIndented')
// To do: use an improved `space_or_tab` function like `markdown-rs`,
// so that we can drop the next state.
return factorySpace(effects, afterPrefix, 'linePrefix', 4 + 1)(code)
}
/**
* At start, after 1 or 4 spaces.
*
* ```markdown
* > | aaa
* ^
* ```
*
* @type {State}
*/
function afterPrefix(code) {
const tail = self.events[self.events.length - 1]
return tail &&
tail[1].type === 'linePrefix' &&
tail[2].sliceSerialize(tail[1], true).length >= 4
? atBreak(code)
: nok(code)
}
/**
* At a break.
*
* ```markdown
* > | aaa
* ^ ^
* ```
*
* @type {State}
*/
function atBreak(code) {
if (code === null) {
return after(code)
}
if (markdownLineEnding(code)) {
return effects.attempt(furtherStart, atBreak, after)(code)
}
effects.enter('codeFlowValue')
return inside(code)
}
/**
* In code content.
*
* ```markdown
* > | aaa
* ^^^^
* ```
*
* @type {State}
*/
function inside(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('codeFlowValue')
return atBreak(code)
}
effects.consume(code)
return inside
}
/** @type {State} */
function after(code) {
effects.exit('codeIndented')
// To do: allow interrupting like `markdown-rs`.
// Feel free to interrupt.
// tokenizer.interrupt = false
return ok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeFurtherStart(effects, ok, nok) {
const self = this
return furtherStart
/**
* At eol, trying to parse another indent.
*
* ```markdown
* > | aaa
* ^
* | bbb
* ```
*
* @type {State}
*/
function furtherStart(code) {
// To do: improve `lazy` / `pierce` handling.
// If this is a lazy line, it cant be code.
if (self.parser.lazy[self.now().line]) {
return nok(code)
}
if (markdownLineEnding(code)) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return furtherStart
}
// To do: the code here in `micromark-js` is a bit different from
// `markdown-rs` because there it can attempt spaces.
// We cant yet.
//
// To do: use an improved `space_or_tab` function like `markdown-rs`,
// so that we can drop the next state.
return factorySpace(effects, afterPrefix, 'linePrefix', 4 + 1)(code)
}
/**
* At start, after 1 or 4 spaces.
*
* ```markdown
* > | aaa
* ^
* ```
*
* @type {State}
*/
function afterPrefix(code) {
const tail = self.events[self.events.length - 1]
return tail &&
tail[1].type === 'linePrefix' &&
tail[2].sliceSerialize(tail[1], true).length >= 4
? ok(code)
: markdownLineEnding(code)
? furtherStart(code)
: nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/heading-atx.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const headingAtx = {
name: 'headingAtx',
tokenize: tokenizeHeadingAtx,
resolve: resolveHeadingAtx
}
/** @type {Resolver} */
function resolveHeadingAtx(events, context) {
let contentEnd = events.length - 2
let contentStart = 3
/** @type {Token} */
let content
/** @type {Token} */
let text
// Prefix whitespace, part of the opening.
if (events[contentStart][1].type === 'whitespace') {
contentStart += 2
}
// Suffix whitespace, part of the closing.
if (
contentEnd - 2 > contentStart &&
events[contentEnd][1].type === 'whitespace'
) {
contentEnd -= 2
}
if (
events[contentEnd][1].type === 'atxHeadingSequence' &&
(contentStart === contentEnd - 1 ||
(contentEnd - 4 > contentStart &&
events[contentEnd - 2][1].type === 'whitespace'))
) {
contentEnd -= contentStart + 1 === contentEnd ? 2 : 4
}
if (contentEnd > contentStart) {
content = {
type: 'atxHeadingText',
start: events[contentStart][1].start,
end: events[contentEnd][1].end
}
text = {
type: 'chunkText',
start: events[contentStart][1].start,
end: events[contentEnd][1].end,
contentType: 'text'
}
splice(events, contentStart, contentEnd - contentStart + 1, [
['enter', content, context],
['enter', text, context],
['exit', text, context],
['exit', content, context]
])
}
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeHeadingAtx(effects, ok, nok) {
let size = 0
return start
/**
* Start of a heading (atx).
*
* ```markdown
* > | ## aa
* ^
* ```
*
* @type {State}
*/
function start(code) {
// To do: parse indent like `markdown-rs`.
effects.enter('atxHeading')
return before(code)
}
/**
* After optional whitespace, at `#`.
*
* ```markdown
* > | ## aa
* ^
* ```
*
* @type {State}
*/
function before(code) {
effects.enter('atxHeadingSequence')
return sequenceOpen(code)
}
/**
* In opening sequence.
*
* ```markdown
* > | ## aa
* ^
* ```
*
* @type {State}
*/
function sequenceOpen(code) {
if (code === 35 && size++ < 6) {
effects.consume(code)
return sequenceOpen
}
// Always at least one `#`.
if (code === null || markdownLineEndingOrSpace(code)) {
effects.exit('atxHeadingSequence')
return atBreak(code)
}
return nok(code)
}
/**
* After something, before something else.
*
* ```markdown
* > | ## aa
* ^
* ```
*
* @type {State}
*/
function atBreak(code) {
if (code === 35) {
effects.enter('atxHeadingSequence')
return sequenceFurther(code)
}
if (code === null || markdownLineEnding(code)) {
effects.exit('atxHeading')
// To do: interrupt like `markdown-rs`.
// // Feel free to interrupt.
// tokenizer.interrupt = false
return ok(code)
}
if (markdownSpace(code)) {
return factorySpace(effects, atBreak, 'whitespace')(code)
}
// To do: generate `data` tokens, add the `text` token later.
// Needs edit map, see: `markdown.rs`.
effects.enter('atxHeadingText')
return data(code)
}
/**
* In further sequence (after whitespace).
*
* Could be normal visible hashes in the heading or a final sequence.
*
* ```markdown
* > | ## aa ##
* ^
* ```
*
* @type {State}
*/
function sequenceFurther(code) {
if (code === 35) {
effects.consume(code)
return sequenceFurther
}
effects.exit('atxHeadingSequence')
return atBreak(code)
}
/**
* In text.
*
* ```markdown
* > | ## aa
* ^
* ```
*
* @type {State}
*/
function data(code) {
if (code === null || code === 35 || markdownLineEndingOrSpace(code)) {
effects.exit('atxHeadingText')
return atBreak(code)
}
effects.consume(code)
return data
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/setext-underline.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const setextUnderline = {
name: 'setextUnderline',
tokenize: tokenizeSetextUnderline,
resolveTo: resolveToSetextUnderline
}
/** @type {Resolver} */
function resolveToSetextUnderline(events, context) {
// To do: resolve like `markdown-rs`.
let index = events.length
/** @type {number | undefined} */
let content
/** @type {number | undefined} */
let text
/** @type {number | undefined} */
let definition
// Find the opening of the content.
// Itll always exist: we dont tokenize if it isnt there.
while (index--) {
if (events[index][0] === 'enter') {
if (events[index][1].type === 'content') {
content = index
break
}
if (events[index][1].type === 'paragraph') {
text = index
}
}
// Exit
else {
if (events[index][1].type === 'content') {
// Remove the content end (if needed well add it later)
events.splice(index, 1)
}
if (!definition && events[index][1].type === 'definition') {
definition = index
}
}
}
const heading = {
type: 'setextHeading',
start: Object.assign({}, events[text][1].start),
end: Object.assign({}, events[events.length - 1][1].end)
}
// Change the paragraph to setext heading text.
events[text][1].type = 'setextHeadingText'
// If we have definitions in the content, well keep on having content,
// but we need move it.
if (definition) {
events.splice(text, 0, ['enter', heading, context])
events.splice(definition + 1, 0, ['exit', events[content][1], context])
events[content][1].end = Object.assign({}, events[definition][1].end)
} else {
events[content][1] = heading
}
// Add the heading exit at the end.
events.push(['exit', heading, context])
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeSetextUnderline(effects, ok, nok) {
const self = this
/** @type {NonNullable<Code>} */
let marker
return start
/**
* At start of heading (setext) underline.
*
* ```markdown
* | aa
* > | ==
* ^
* ```
*
* @type {State}
*/
function start(code) {
let index = self.events.length
/** @type {boolean | undefined} */
let paragraph
// Find an opening.
while (index--) {
// Skip enter/exit of line ending, line prefix, and content.
// We can now either have a definition or a paragraph.
if (
self.events[index][1].type !== 'lineEnding' &&
self.events[index][1].type !== 'linePrefix' &&
self.events[index][1].type !== 'content'
) {
paragraph = self.events[index][1].type === 'paragraph'
break
}
}
// To do: handle lazy/pierce like `markdown-rs`.
// To do: parse indent like `markdown-rs`.
if (!self.parser.lazy[self.now().line] && (self.interrupt || paragraph)) {
effects.enter('setextHeadingLine')
marker = code
return before(code)
}
return nok(code)
}
/**
* After optional whitespace, at `-` or `=`.
*
* ```markdown
* | aa
* > | ==
* ^
* ```
*
* @type {State}
*/
function before(code) {
effects.enter('setextHeadingLineSequence')
return inside(code)
}
/**
* In sequence.
*
* ```markdown
* | aa
* > | ==
* ^
* ```
*
* @type {State}
*/
function inside(code) {
if (code === marker) {
effects.consume(code)
return inside
}
effects.exit('setextHeadingLineSequence')
return markdownSpace(code)
? factorySpace(effects, after, 'lineSuffix')(code)
: after(code)
}
/**
* After sequence, after optional whitespace.
*
* ```markdown
* | aa
* > | ==
* ^
* ```
*
* @type {State}
*/
function after(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('setextHeadingLine')
return ok(code)
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-html-tag-name/index.js
/**
* List of lowercase HTML block tag names.
*
* The list, when parsing HTML (flow), results in more relaxed rules (condition
* 6).
* Because they are known blocks, the HTML-like syntax doesnt have to be
* strictly parsed.
* For tag names not in this list, a more strict algorithm (condition 7) is used
* to detect whether the HTML-like syntax is seen as HTML (flow) or not.
*
* This is copied from:
* <https://spec.commonmark.org/0.30/#html-blocks>.
*
* > 👉 **Note**: `search` was added in `CommonMark@0.31`.
*/
const htmlBlockNames = [
'address',
'article',
'aside',
'base',
'basefont',
'blockquote',
'body',
'caption',
'center',
'col',
'colgroup',
'dd',
'details',
'dialog',
'dir',
'div',
'dl',
'dt',
'fieldset',
'figcaption',
'figure',
'footer',
'form',
'frame',
'frameset',
'h1',
'h2',
'h3',
'h4',
'h5',
'h6',
'head',
'header',
'hr',
'html',
'iframe',
'legend',
'li',
'link',
'main',
'menu',
'menuitem',
'nav',
'noframes',
'ol',
'optgroup',
'option',
'p',
'param',
'search',
'section',
'summary',
'table',
'tbody',
'td',
'tfoot',
'th',
'thead',
'title',
'tr',
'track',
'ul'
]
/**
* List of lowercase HTML raw tag names.
*
* The list, when parsing HTML (flow), results in HTML that can include lines
* without exiting, until a closing tag also in this list is found (condition
* 1).
*
* This module is copied from:
* <https://spec.commonmark.org/0.30/#html-blocks>.
*
* > 👉 **Note**: `textarea` was added in `CommonMark@0.30`.
*/
const htmlRawNames = ['pre', 'script', 'style', 'textarea']
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/html-flow.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const htmlFlow = {
name: 'htmlFlow',
tokenize: tokenizeHtmlFlow,
resolveTo: resolveToHtmlFlow,
concrete: true
}
/** @type {Construct} */
const blankLineBefore = {
tokenize: tokenizeBlankLineBefore,
partial: true
}
const nonLazyContinuationStart = {
tokenize: tokenizeNonLazyContinuationStart,
partial: true
}
/** @type {Resolver} */
function resolveToHtmlFlow(events) {
let index = events.length
while (index--) {
if (events[index][0] === 'enter' && events[index][1].type === 'htmlFlow') {
break
}
}
if (index > 1 && events[index - 2][1].type === 'linePrefix') {
// Add the prefix start to the HTML token.
events[index][1].start = events[index - 2][1].start
// Add the prefix start to the HTML line token.
events[index + 1][1].start = events[index - 2][1].start
// Remove the line prefix.
events.splice(index - 2, 2)
}
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeHtmlFlow(effects, ok, nok) {
const self = this
/** @type {number} */
let marker
/** @type {boolean} */
let closingTag
/** @type {string} */
let buffer
/** @type {number} */
let index
/** @type {Code} */
let markerB
return start
/**
* Start of HTML (flow).
*
* ```markdown
* > | <x />
* ^
* ```
*
* @type {State}
*/
function start(code) {
// To do: parse indent like `markdown-rs`.
return before(code)
}
/**
* At `<`, after optional whitespace.
*
* ```markdown
* > | <x />
* ^
* ```
*
* @type {State}
*/
function before(code) {
effects.enter('htmlFlow')
effects.enter('htmlFlowData')
effects.consume(code)
return open
}
/**
* After `<`, at tag name or other stuff.
*
* ```markdown
* > | <x />
* ^
* > | <!doctype>
* ^
* > | <!--xxx-->
* ^
* ```
*
* @type {State}
*/
function open(code) {
if (code === 33) {
effects.consume(code)
return declarationOpen
}
if (code === 47) {
effects.consume(code)
closingTag = true
return tagCloseStart
}
if (code === 63) {
effects.consume(code)
marker = 3
// To do:
// tokenizer.concrete = true
// To do: use `markdown-rs` style interrupt.
// While were in an instruction instead of a declaration, were on a `?`
// right now, so we do need to search for `>`, similar to declarations.
return self.interrupt ? ok : continuationDeclarationInside
}
// ASCII alphabetical.
if (asciiAlpha(code)) {
effects.consume(code)
// @ts-expect-error: not null.
buffer = String.fromCharCode(code)
return tagName
}
return nok(code)
}
/**
* After `<!`, at declaration, comment, or CDATA.
*
* ```markdown
* > | <!doctype>
* ^
* > | <!--xxx-->
* ^
* > | <![CDATA[>&<]]>
* ^
* ```
*
* @type {State}
*/
function declarationOpen(code) {
if (code === 45) {
effects.consume(code)
marker = 2
return commentOpenInside
}
if (code === 91) {
effects.consume(code)
marker = 5
index = 0
return cdataOpenInside
}
// ASCII alphabetical.
if (asciiAlpha(code)) {
effects.consume(code)
marker = 4
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok : continuationDeclarationInside
}
return nok(code)
}
/**
* After `<!-`, inside a comment, at another `-`.
*
* ```markdown
* > | <!--xxx-->
* ^
* ```
*
* @type {State}
*/
function commentOpenInside(code) {
if (code === 45) {
effects.consume(code)
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok : continuationDeclarationInside
}
return nok(code)
}
/**
* After `<![`, inside CDATA, expecting `CDATA[`.
*
* ```markdown
* > | <![CDATA[>&<]]>
* ^^^^^^
* ```
*
* @type {State}
*/
function cdataOpenInside(code) {
const value = 'CDATA['
if (code === value.charCodeAt(index++)) {
effects.consume(code)
if (index === value.length) {
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok : continuation
}
return cdataOpenInside
}
return nok(code)
}
/**
* After `</`, in closing tag, at tag name.
*
* ```markdown
* > | </x>
* ^
* ```
*
* @type {State}
*/
function tagCloseStart(code) {
if (asciiAlpha(code)) {
effects.consume(code)
// @ts-expect-error: not null.
buffer = String.fromCharCode(code)
return tagName
}
return nok(code)
}
/**
* In tag name.
*
* ```markdown
* > | <ab>
* ^^
* > | </ab>
* ^^
* ```
*
* @type {State}
*/
function tagName(code) {
if (
code === null ||
code === 47 ||
code === 62 ||
markdownLineEndingOrSpace(code)
) {
const slash = code === 47
const name = buffer.toLowerCase()
if (!slash && !closingTag && htmlRawNames.includes(name)) {
marker = 1
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok(code) : continuation(code)
}
if (htmlBlockNames.includes(buffer.toLowerCase())) {
marker = 6
if (slash) {
effects.consume(code)
return basicSelfClosing
}
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok(code) : continuation(code)
}
marker = 7
// Do not support complete HTML when interrupting.
return self.interrupt && !self.parser.lazy[self.now().line]
? nok(code)
: closingTag
? completeClosingTagAfter(code)
: completeAttributeNameBefore(code)
}
// ASCII alphanumerical and `-`.
if (code === 45 || asciiAlphanumeric(code)) {
effects.consume(code)
buffer += String.fromCharCode(code)
return tagName
}
return nok(code)
}
/**
* After closing slash of a basic tag name.
*
* ```markdown
* > | <div/>
* ^
* ```
*
* @type {State}
*/
function basicSelfClosing(code) {
if (code === 62) {
effects.consume(code)
// // Do not form containers.
// tokenizer.concrete = true
return self.interrupt ? ok : continuation
}
return nok(code)
}
/**
* After closing slash of a complete tag name.
*
* ```markdown
* > | <x/>
* ^
* ```
*
* @type {State}
*/
function completeClosingTagAfter(code) {
if (markdownSpace(code)) {
effects.consume(code)
return completeClosingTagAfter
}
return completeEnd(code)
}
/**
* At an attribute name.
*
* At first, this state is used after a complete tag name, after whitespace,
* where it expects optional attributes or the end of the tag.
* It is also reused after attributes, when expecting more optional
* attributes.
*
* ```markdown
* > | <a />
* ^
* > | <a :b>
* ^
* > | <a _b>
* ^
* > | <a b>
* ^
* > | <a >
* ^
* ```
*
* @type {State}
*/
function completeAttributeNameBefore(code) {
if (code === 47) {
effects.consume(code)
return completeEnd
}
// ASCII alphanumerical and `:` and `_`.
if (code === 58 || code === 95 || asciiAlpha(code)) {
effects.consume(code)
return completeAttributeName
}
if (markdownSpace(code)) {
effects.consume(code)
return completeAttributeNameBefore
}
return completeEnd(code)
}
/**
* In attribute name.
*
* ```markdown
* > | <a :b>
* ^
* > | <a _b>
* ^
* > | <a b>
* ^
* ```
*
* @type {State}
*/
function completeAttributeName(code) {
// ASCII alphanumerical and `-`, `.`, `:`, and `_`.
if (
code === 45 ||
code === 46 ||
code === 58 ||
code === 95 ||
asciiAlphanumeric(code)
) {
effects.consume(code)
return completeAttributeName
}
return completeAttributeNameAfter(code)
}
/**
* After attribute name, at an optional initializer, the end of the tag, or
* whitespace.
*
* ```markdown
* > | <a b>
* ^
* > | <a b=c>
* ^
* ```
*
* @type {State}
*/
function completeAttributeNameAfter(code) {
if (code === 61) {
effects.consume(code)
return completeAttributeValueBefore
}
if (markdownSpace(code)) {
effects.consume(code)
return completeAttributeNameAfter
}
return completeAttributeNameBefore(code)
}
/**
* Before unquoted, double quoted, or single quoted attribute value, allowing
* whitespace.
*
* ```markdown
* > | <a b=c>
* ^
* > | <a b="c">
* ^
* ```
*
* @type {State}
*/
function completeAttributeValueBefore(code) {
if (
code === null ||
code === 60 ||
code === 61 ||
code === 62 ||
code === 96
) {
return nok(code)
}
if (code === 34 || code === 39) {
effects.consume(code)
markerB = code
return completeAttributeValueQuoted
}
if (markdownSpace(code)) {
effects.consume(code)
return completeAttributeValueBefore
}
return completeAttributeValueUnquoted(code)
}
/**
* In double or single quoted attribute value.
*
* ```markdown
* > | <a b="c">
* ^
* > | <a b='c'>
* ^
* ```
*
* @type {State}
*/
function completeAttributeValueQuoted(code) {
if (code === markerB) {
effects.consume(code)
markerB = null
return completeAttributeValueQuotedAfter
}
if (code === null || markdownLineEnding(code)) {
return nok(code)
}
effects.consume(code)
return completeAttributeValueQuoted
}
/**
* In unquoted attribute value.
*
* ```markdown
* > | <a b=c>
* ^
* ```
*
* @type {State}
*/
function completeAttributeValueUnquoted(code) {
if (
code === null ||
code === 34 ||
code === 39 ||
code === 47 ||
code === 60 ||
code === 61 ||
code === 62 ||
code === 96 ||
markdownLineEndingOrSpace(code)
) {
return completeAttributeNameAfter(code)
}
effects.consume(code)
return completeAttributeValueUnquoted
}
/**
* After double or single quoted attribute value, before whitespace or the
* end of the tag.
*
* ```markdown
* > | <a b="c">
* ^
* ```
*
* @type {State}
*/
function completeAttributeValueQuotedAfter(code) {
if (code === 47 || code === 62 || markdownSpace(code)) {
return completeAttributeNameBefore(code)
}
return nok(code)
}
/**
* In certain circumstances of a complete tag where only an `>` is allowed.
*
* ```markdown
* > | <a b="c">
* ^
* ```
*
* @type {State}
*/
function completeEnd(code) {
if (code === 62) {
effects.consume(code)
return completeAfter
}
return nok(code)
}
/**
* After `>` in a complete tag.
*
* ```markdown
* > | <x>
* ^
* ```
*
* @type {State}
*/
function completeAfter(code) {
if (code === null || markdownLineEnding(code)) {
// // Do not form containers.
// tokenizer.concrete = true
return continuation(code)
}
if (markdownSpace(code)) {
effects.consume(code)
return completeAfter
}
return nok(code)
}
/**
* In continuation of any HTML kind.
*
* ```markdown
* > | <!--xxx-->
* ^
* ```
*
* @type {State}
*/
function continuation(code) {
if (code === 45 && marker === 2) {
effects.consume(code)
return continuationCommentInside
}
if (code === 60 && marker === 1) {
effects.consume(code)
return continuationRawTagOpen
}
if (code === 62 && marker === 4) {
effects.consume(code)
return continuationClose
}
if (code === 63 && marker === 3) {
effects.consume(code)
return continuationDeclarationInside
}
if (code === 93 && marker === 5) {
effects.consume(code)
return continuationCdataInside
}
if (markdownLineEnding(code) && (marker === 6 || marker === 7)) {
effects.exit('htmlFlowData')
return effects.check(
blankLineBefore,
continuationAfter,
continuationStart
)(code)
}
if (code === null || markdownLineEnding(code)) {
effects.exit('htmlFlowData')
return continuationStart(code)
}
effects.consume(code)
return continuation
}
/**
* In continuation, at eol.
*
* ```markdown
* > | <x>
* ^
* | asd
* ```
*
* @type {State}
*/
function continuationStart(code) {
return effects.check(
nonLazyContinuationStart,
continuationStartNonLazy,
continuationAfter
)(code)
}
/**
* In continuation, at eol, before non-lazy content.
*
* ```markdown
* > | <x>
* ^
* | asd
* ```
*
* @type {State}
*/
function continuationStartNonLazy(code) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return continuationBefore
}
/**
* In continuation, before non-lazy content.
*
* ```markdown
* | <x>
* > | asd
* ^
* ```
*
* @type {State}
*/
function continuationBefore(code) {
if (code === null || markdownLineEnding(code)) {
return continuationStart(code)
}
effects.enter('htmlFlowData')
return continuation(code)
}
/**
* In comment continuation, after one `-`, expecting another.
*
* ```markdown
* > | <!--xxx-->
* ^
* ```
*
* @type {State}
*/
function continuationCommentInside(code) {
if (code === 45) {
effects.consume(code)
return continuationDeclarationInside
}
return continuation(code)
}
/**
* In raw continuation, after `<`, at `/`.
*
* ```markdown
* > | <script>console.log(1)</script>
* ^
* ```
*
* @type {State}
*/
function continuationRawTagOpen(code) {
if (code === 47) {
effects.consume(code)
buffer = ''
return continuationRawEndTag
}
return continuation(code)
}
/**
* In raw continuation, after `</`, in a raw tag name.
*
* ```markdown
* > | <script>console.log(1)</script>
* ^^^^^^
* ```
*
* @type {State}
*/
function continuationRawEndTag(code) {
if (code === 62) {
const name = buffer.toLowerCase()
if (htmlRawNames.includes(name)) {
effects.consume(code)
return continuationClose
}
return continuation(code)
}
if (asciiAlpha(code) && buffer.length < 8) {
effects.consume(code)
// @ts-expect-error: not null.
buffer += String.fromCharCode(code)
return continuationRawEndTag
}
return continuation(code)
}
/**
* In cdata continuation, after `]`, expecting `]>`.
*
* ```markdown
* > | <![CDATA[>&<]]>
* ^
* ```
*
* @type {State}
*/
function continuationCdataInside(code) {
if (code === 93) {
effects.consume(code)
return continuationDeclarationInside
}
return continuation(code)
}
/**
* In declaration or instruction continuation, at `>`.
*
* ```markdown
* > | <!-->
* ^
* > | <?>
* ^
* > | <!q>
* ^
* > | <!--ab-->
* ^
* > | <![CDATA[>&<]]>
* ^
* ```
*
* @type {State}
*/
function continuationDeclarationInside(code) {
if (code === 62) {
effects.consume(code)
return continuationClose
}
// More dashes.
if (code === 45 && marker === 2) {
effects.consume(code)
return continuationDeclarationInside
}
return continuation(code)
}
/**
* In closed continuation: everything we get until the eol/eof is part of it.
*
* ```markdown
* > | <!doctype>
* ^
* ```
*
* @type {State}
*/
function continuationClose(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('htmlFlowData')
return continuationAfter(code)
}
effects.consume(code)
return continuationClose
}
/**
* Done.
*
* ```markdown
* > | <!doctype>
* ^
* ```
*
* @type {State}
*/
function continuationAfter(code) {
effects.exit('htmlFlow')
// // Feel free to interrupt.
// tokenizer.interrupt = false
// // No longer concrete.
// tokenizer.concrete = false
return ok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeNonLazyContinuationStart(effects, ok, nok) {
const self = this
return start
/**
* At eol, before continuation.
*
* ```markdown
* > | * ```js
* ^
* | b
* ```
*
* @type {State}
*/
function start(code) {
if (markdownLineEnding(code)) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return after
}
return nok(code)
}
/**
* A continuation.
*
* ```markdown
* | * ```js
* > | b
* ^
* ```
*
* @type {State}
*/
function after(code) {
return self.parser.lazy[self.now().line] ? nok(code) : ok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeBlankLineBefore(effects, ok, nok) {
return start
/**
* Before eol, expecting blank line.
*
* ```markdown
* > | <div>
* ^
* |
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return effects.attempt(blankLine, ok, nok)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/code-fenced.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const nonLazyContinuation = {
tokenize: tokenizeNonLazyContinuation,
partial: true
}
/** @type {Construct} */
const codeFenced = {
name: 'codeFenced',
tokenize: tokenizeCodeFenced,
concrete: true
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCodeFenced(effects, ok, nok) {
const self = this
/** @type {Construct} */
const closeStart = {
tokenize: tokenizeCloseStart,
partial: true
}
let initialPrefix = 0
let sizeOpen = 0
/** @type {NonNullable<Code>} */
let marker
return start
/**
* Start of code.
*
* ```markdown
* > | ~~~js
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function start(code) {
// To do: parse whitespace like `markdown-rs`.
return beforeSequenceOpen(code)
}
/**
* In opening fence, after prefix, at sequence.
*
* ```markdown
* > | ~~~js
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function beforeSequenceOpen(code) {
const tail = self.events[self.events.length - 1]
initialPrefix =
tail && tail[1].type === 'linePrefix'
? tail[2].sliceSerialize(tail[1], true).length
: 0
marker = code
effects.enter('codeFenced')
effects.enter('codeFencedFence')
effects.enter('codeFencedFenceSequence')
return sequenceOpen(code)
}
/**
* In opening fence sequence.
*
* ```markdown
* > | ~~~js
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function sequenceOpen(code) {
if (code === marker) {
sizeOpen++
effects.consume(code)
return sequenceOpen
}
if (sizeOpen < 3) {
return nok(code)
}
effects.exit('codeFencedFenceSequence')
return markdownSpace(code)
? factorySpace(effects, infoBefore, 'whitespace')(code)
: infoBefore(code)
}
/**
* In opening fence, after the sequence (and optional whitespace), before info.
*
* ```markdown
* > | ~~~js
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function infoBefore(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('codeFencedFence')
return self.interrupt
? ok(code)
: effects.check(nonLazyContinuation, atNonLazyBreak, after)(code)
}
effects.enter('codeFencedFenceInfo')
effects.enter('chunkString', {
contentType: 'string'
})
return info(code)
}
/**
* In info.
*
* ```markdown
* > | ~~~js
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function info(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('chunkString')
effects.exit('codeFencedFenceInfo')
return infoBefore(code)
}
if (markdownSpace(code)) {
effects.exit('chunkString')
effects.exit('codeFencedFenceInfo')
return factorySpace(effects, metaBefore, 'whitespace')(code)
}
if (code === 96 && code === marker) {
return nok(code)
}
effects.consume(code)
return info
}
/**
* In opening fence, after info and whitespace, before meta.
*
* ```markdown
* > | ~~~js eval
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function metaBefore(code) {
if (code === null || markdownLineEnding(code)) {
return infoBefore(code)
}
effects.enter('codeFencedFenceMeta')
effects.enter('chunkString', {
contentType: 'string'
})
return meta(code)
}
/**
* In meta.
*
* ```markdown
* > | ~~~js eval
* ^
* | alert(1)
* | ~~~
* ```
*
* @type {State}
*/
function meta(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('chunkString')
effects.exit('codeFencedFenceMeta')
return infoBefore(code)
}
if (code === 96 && code === marker) {
return nok(code)
}
effects.consume(code)
return meta
}
/**
* At eol/eof in code, before a non-lazy closing fence or content.
*
* ```markdown
* > | ~~~js
* ^
* > | alert(1)
* ^
* | ~~~
* ```
*
* @type {State}
*/
function atNonLazyBreak(code) {
return effects.attempt(closeStart, after, contentBefore)(code)
}
/**
* Before code content, not a closing fence, at eol.
*
* ```markdown
* | ~~~js
* > | alert(1)
* ^
* | ~~~
* ```
*
* @type {State}
*/
function contentBefore(code) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return contentStart
}
/**
* Before code content, not a closing fence.
*
* ```markdown
* | ~~~js
* > | alert(1)
* ^
* | ~~~
* ```
*
* @type {State}
*/
function contentStart(code) {
return initialPrefix > 0 && markdownSpace(code)
? factorySpace(
effects,
beforeContentChunk,
'linePrefix',
initialPrefix + 1
)(code)
: beforeContentChunk(code)
}
/**
* Before code content, after optional prefix.
*
* ```markdown
* | ~~~js
* > | alert(1)
* ^
* | ~~~
* ```
*
* @type {State}
*/
function beforeContentChunk(code) {
if (code === null || markdownLineEnding(code)) {
return effects.check(nonLazyContinuation, atNonLazyBreak, after)(code)
}
effects.enter('codeFlowValue')
return contentChunk(code)
}
/**
* In code content.
*
* ```markdown
* | ~~~js
* > | alert(1)
* ^^^^^^^^
* | ~~~
* ```
*
* @type {State}
*/
function contentChunk(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('codeFlowValue')
return beforeContentChunk(code)
}
effects.consume(code)
return contentChunk
}
/**
* After code.
*
* ```markdown
* | ~~~js
* | alert(1)
* > | ~~~
* ^
* ```
*
* @type {State}
*/
function after(code) {
effects.exit('codeFenced')
return ok(code)
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCloseStart(effects, ok, nok) {
let size = 0
return startBefore
/**
*
*
* @type {State}
*/
function startBefore(code) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return start
}
/**
* Before closing fence, at optional whitespace.
*
* ```markdown
* | ~~~js
* | alert(1)
* > | ~~~
* ^
* ```
*
* @type {State}
*/
function start(code) {
// Always populated by defaults.
// To do: `enter` here or in next state?
effects.enter('codeFencedFence')
return markdownSpace(code)
? factorySpace(
effects,
beforeSequenceClose,
'linePrefix',
self.parser.constructs.disable.null.includes('codeIndented')
? undefined
: 4
)(code)
: beforeSequenceClose(code)
}
/**
* In closing fence, after optional whitespace, at sequence.
*
* ```markdown
* | ~~~js
* | alert(1)
* > | ~~~
* ^
* ```
*
* @type {State}
*/
function beforeSequenceClose(code) {
if (code === marker) {
effects.enter('codeFencedFenceSequence')
return sequenceClose(code)
}
return nok(code)
}
/**
* In closing fence sequence.
*
* ```markdown
* | ~~~js
* | alert(1)
* > | ~~~
* ^
* ```
*
* @type {State}
*/
function sequenceClose(code) {
if (code === marker) {
size++
effects.consume(code)
return sequenceClose
}
if (size >= sizeOpen) {
effects.exit('codeFencedFenceSequence')
return markdownSpace(code)
? factorySpace(effects, sequenceCloseAfter, 'whitespace')(code)
: sequenceCloseAfter(code)
}
return nok(code)
}
/**
* After closing fence sequence, after optional whitespace.
*
* ```markdown
* | ~~~js
* | alert(1)
* > | ~~~
* ^
* ```
*
* @type {State}
*/
function sequenceCloseAfter(code) {
if (code === null || markdownLineEnding(code)) {
effects.exit('codeFencedFence')
return ok(code)
}
return nok(code)
}
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeNonLazyContinuation(effects, ok, nok) {
const self = this
return start
/**
*
*
* @type {State}
*/
function start(code) {
if (code === null) {
return nok(code)
}
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return lineStart
}
/**
*
*
* @type {State}
*/
function lineStart(code) {
return self.parser.lazy[self.now().line] ? nok(code) : ok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/character-entities/index.js
/**
* Map of named character references.
*
* @type {Record<string, string>}
*/
const characterEntities = {
AElig: 'Æ',
AMP: '&',
Aacute: 'Á',
Abreve: 'Ă',
Acirc: 'Â',
Acy: 'А',
Afr: '𝔄',
Agrave: 'À',
Alpha: 'Α',
Amacr: 'Ā',
And: '⩓',
Aogon: 'Ą',
Aopf: '𝔸',
ApplyFunction: '',
Aring: 'Å',
Ascr: '𝒜',
Assign: '≔',
Atilde: 'Ã',
Auml: 'Ä',
Backslash: '',
Barv: '⫧',
Barwed: '⌆',
Bcy: 'Б',
Because: '∵',
Bernoullis: '',
Beta: 'Β',
Bfr: '𝔅',
Bopf: '𝔹',
Breve: '˘',
Bscr: '',
Bumpeq: '≎',
CHcy: 'Ч',
COPY: '©',
Cacute: 'Ć',
Cap: '⋒',
CapitalDifferentialD: '',
Cayleys: '',
Ccaron: 'Č',
Ccedil: 'Ç',
Ccirc: 'Ĉ',
Cconint: '∰',
Cdot: 'Ċ',
Cedilla: '¸',
CenterDot: '·',
Cfr: '',
Chi: 'Χ',
CircleDot: '⊙',
CircleMinus: '⊖',
CirclePlus: '⊕',
CircleTimes: '⊗',
ClockwiseContourIntegral: '∲',
CloseCurlyDoubleQuote: '”',
CloseCurlyQuote: '',
Colon: '∷',
Colone: '⩴',
Congruent: '≡',
Conint: '∯',
ContourIntegral: '∮',
Copf: '',
Coproduct: '∐',
CounterClockwiseContourIntegral: '∳',
Cross: '',
Cscr: '𝒞',
Cup: '⋓',
CupCap: '≍',
DD: '',
DDotrahd: '⤑',
DJcy: 'Ђ',
DScy: 'Ѕ',
DZcy: 'Џ',
Dagger: '‡',
Darr: '↡',
Dashv: '⫤',
Dcaron: 'Ď',
Dcy: 'Д',
Del: '∇',
Delta: 'Δ',
Dfr: '𝔇',
DiacriticalAcute: '´',
DiacriticalDot: '˙',
DiacriticalDoubleAcute: '˝',
DiacriticalGrave: '`',
DiacriticalTilde: '˜',
Diamond: '⋄',
DifferentialD: '',
Dopf: '𝔻',
Dot: '¨',
DotDot: '⃜',
DotEqual: '≐',
DoubleContourIntegral: '∯',
DoubleDot: '¨',
DoubleDownArrow: '⇓',
DoubleLeftArrow: '⇐',
DoubleLeftRightArrow: '⇔',
DoubleLeftTee: '⫤',
DoubleLongLeftArrow: '⟸',
DoubleLongLeftRightArrow: '⟺',
DoubleLongRightArrow: '⟹',
DoubleRightArrow: '⇒',
DoubleRightTee: '⊨',
DoubleUpArrow: '⇑',
DoubleUpDownArrow: '⇕',
DoubleVerticalBar: '∥',
DownArrow: '↓',
DownArrowBar: '⤓',
DownArrowUpArrow: '⇵',
DownBreve: '̑',
DownLeftRightVector: '⥐',
DownLeftTeeVector: '⥞',
DownLeftVector: '↽',
DownLeftVectorBar: '⥖',
DownRightTeeVector: '⥟',
DownRightVector: '⇁',
DownRightVectorBar: '⥗',
DownTee: '',
DownTeeArrow: '↧',
Downarrow: '⇓',
Dscr: '𝒟',
Dstrok: 'Đ',
ENG: 'Ŋ',
ETH: 'Ð',
Eacute: 'É',
Ecaron: 'Ě',
Ecirc: 'Ê',
Ecy: 'Э',
Edot: 'Ė',
Efr: '𝔈',
Egrave: 'È',
Element: '∈',
Emacr: 'Ē',
EmptySmallSquare: '◻',
EmptyVerySmallSquare: '▫',
Eogon: 'Ę',
Eopf: '𝔼',
Epsilon: 'Ε',
Equal: '⩵',
EqualTilde: '≂',
Equilibrium: '⇌',
Escr: '',
Esim: '⩳',
Eta: 'Η',
Euml: 'Ë',
Exists: '∃',
ExponentialE: '',
Fcy: 'Ф',
Ffr: '𝔉',
FilledSmallSquare: '◼',
FilledVerySmallSquare: '▪',
Fopf: '𝔽',
ForAll: '∀',
Fouriertrf: '',
Fscr: '',
GJcy: 'Ѓ',
GT: '>',
Gamma: 'Γ',
Gammad: 'Ϝ',
Gbreve: 'Ğ',
Gcedil: 'Ģ',
Gcirc: 'Ĝ',
Gcy: 'Г',
Gdot: 'Ġ',
Gfr: '𝔊',
Gg: '⋙',
Gopf: '𝔾',
GreaterEqual: '≥',
GreaterEqualLess: '⋛',
GreaterFullEqual: '≧',
GreaterGreater: '⪢',
GreaterLess: '≷',
GreaterSlantEqual: '⩾',
GreaterTilde: '≳',
Gscr: '𝒢',
Gt: '≫',
HARDcy: 'Ъ',
Hacek: 'ˇ',
Hat: '^',
Hcirc: 'Ĥ',
Hfr: '',
HilbertSpace: '',
Hopf: '',
HorizontalLine: '─',
Hscr: '',
Hstrok: 'Ħ',
HumpDownHump: '≎',
HumpEqual: '≏',
IEcy: 'Е',
IJlig: 'IJ',
IOcy: 'Ё',
Iacute: 'Í',
Icirc: 'Î',
Icy: 'И',
Idot: 'İ',
Ifr: '',
Igrave: 'Ì',
Im: '',
Imacr: 'Ī',
ImaginaryI: '',
Implies: '⇒',
Int: '∬',
Integral: '∫',
Intersection: '⋂',
InvisibleComma: '',
InvisibleTimes: '',
Iogon: 'Į',
Iopf: '𝕀',
Iota: 'Ι',
Iscr: '',
Itilde: 'Ĩ',
Iukcy: 'І',
Iuml: 'Ï',
Jcirc: 'Ĵ',
Jcy: 'Й',
Jfr: '𝔍',
Jopf: '𝕁',
Jscr: '𝒥',
Jsercy: 'Ј',
Jukcy: 'Є',
KHcy: 'Х',
KJcy: 'Ќ',
Kappa: 'Κ',
Kcedil: 'Ķ',
Kcy: 'К',
Kfr: '𝔎',
Kopf: '𝕂',
Kscr: '𝒦',
LJcy: 'Љ',
LT: '<',
Lacute: 'Ĺ',
Lambda: 'Λ',
Lang: '⟪',
Laplacetrf: '',
Larr: '↞',
Lcaron: 'Ľ',
Lcedil: 'Ļ',
Lcy: 'Л',
LeftAngleBracket: '⟨',
LeftArrow: '←',
LeftArrowBar: '⇤',
LeftArrowRightArrow: '⇆',
LeftCeiling: '⌈',
LeftDoubleBracket: '⟦',
LeftDownTeeVector: '⥡',
LeftDownVector: '⇃',
LeftDownVectorBar: '⥙',
LeftFloor: '⌊',
LeftRightArrow: '↔',
LeftRightVector: '⥎',
LeftTee: '⊣',
LeftTeeArrow: '↤',
LeftTeeVector: '⥚',
LeftTriangle: '⊲',
LeftTriangleBar: '⧏',
LeftTriangleEqual: '⊴',
LeftUpDownVector: '⥑',
LeftUpTeeVector: '⥠',
LeftUpVector: '↿',
LeftUpVectorBar: '⥘',
LeftVector: '↼',
LeftVectorBar: '⥒',
Leftarrow: '⇐',
Leftrightarrow: '⇔',
LessEqualGreater: '⋚',
LessFullEqual: '≦',
LessGreater: '≶',
LessLess: '⪡',
LessSlantEqual: '⩽',
LessTilde: '≲',
Lfr: '𝔏',
Ll: '⋘',
Lleftarrow: '⇚',
Lmidot: 'Ŀ',
LongLeftArrow: '⟵',
LongLeftRightArrow: '⟷',
LongRightArrow: '⟶',
Longleftarrow: '⟸',
Longleftrightarrow: '⟺',
Longrightarrow: '⟹',
Lopf: '𝕃',
LowerLeftArrow: '↙',
LowerRightArrow: '↘',
Lscr: '',
Lsh: '↰',
Lstrok: 'Ł',
Lt: '≪',
Map: '⤅',
Mcy: 'М',
MediumSpace: '',
Mellintrf: '',
Mfr: '𝔐',
MinusPlus: '∓',
Mopf: '𝕄',
Mscr: '',
Mu: 'Μ',
NJcy: 'Њ',
Nacute: 'Ń',
Ncaron: 'Ň',
Ncedil: 'Ņ',
Ncy: 'Н',
NegativeMediumSpace: '',
NegativeThickSpace: '',
NegativeThinSpace: '',
NegativeVeryThinSpace: '',
NestedGreaterGreater: '≫',
NestedLessLess: '≪',
NewLine: '\n',
Nfr: '𝔑',
NoBreak: '',
NonBreakingSpace: ' ',
Nopf: '',
Not: '⫬',
NotCongruent: '≢',
NotCupCap: '≭',
NotDoubleVerticalBar: '∦',
NotElement: '∉',
NotEqual: '≠',
NotEqualTilde: '≂̸',
NotExists: '∄',
NotGreater: '≯',
NotGreaterEqual: '≱',
NotGreaterFullEqual: '≧̸',
NotGreaterGreater: '≫̸',
NotGreaterLess: '≹',
NotGreaterSlantEqual: '⩾̸',
NotGreaterTilde: '≵',
NotHumpDownHump: '≎̸',
NotHumpEqual: '≏̸',
NotLeftTriangle: '⋪',
NotLeftTriangleBar: '⧏̸',
NotLeftTriangleEqual: '⋬',
NotLess: '≮',
NotLessEqual: '≰',
NotLessGreater: '≸',
NotLessLess: '≪̸',
NotLessSlantEqual: '⩽̸',
NotLessTilde: '≴',
NotNestedGreaterGreater: '⪢̸',
NotNestedLessLess: '⪡̸',
NotPrecedes: '⊀',
NotPrecedesEqual: '⪯̸',
NotPrecedesSlantEqual: '⋠',
NotReverseElement: '∌',
NotRightTriangle: '⋫',
NotRightTriangleBar: '⧐̸',
NotRightTriangleEqual: '⋭',
NotSquareSubset: '⊏̸',
NotSquareSubsetEqual: '⋢',
NotSquareSuperset: '⊐̸',
NotSquareSupersetEqual: '⋣',
NotSubset: '⊂⃒',
NotSubsetEqual: '⊈',
NotSucceeds: '⊁',
NotSucceedsEqual: '⪰̸',
NotSucceedsSlantEqual: '⋡',
NotSucceedsTilde: '≿̸',
NotSuperset: '⊃⃒',
NotSupersetEqual: '⊉',
NotTilde: '≁',
NotTildeEqual: '≄',
NotTildeFullEqual: '≇',
NotTildeTilde: '≉',
NotVerticalBar: '∤',
Nscr: '𝒩',
Ntilde: 'Ñ',
Nu: 'Ν',
OElig: 'Œ',
Oacute: 'Ó',
Ocirc: 'Ô',
Ocy: 'О',
Odblac: 'Ő',
Ofr: '𝔒',
Ograve: 'Ò',
Omacr: 'Ō',
Omega: 'Ω',
Omicron: 'Ο',
Oopf: '𝕆',
OpenCurlyDoubleQuote: '“',
OpenCurlyQuote: '',
Or: '⩔',
Oscr: '𝒪',
Oslash: 'Ø',
Otilde: 'Õ',
Otimes: '⨷',
Ouml: 'Ö',
OverBar: '‾',
OverBrace: '⏞',
OverBracket: '⎴',
OverParenthesis: '⏜',
PartialD: '∂',
Pcy: 'П',
Pfr: '𝔓',
Phi: 'Φ',
Pi: 'Π',
PlusMinus: '±',
Poincareplane: '',
Popf: '',
Pr: '⪻',
Precedes: '≺',
PrecedesEqual: '⪯',
PrecedesSlantEqual: '≼',
PrecedesTilde: '≾',
Prime: '″',
Product: '∏',
Proportion: '∷',
Proportional: '∝',
Pscr: '𝒫',
Psi: 'Ψ',
QUOT: '"',
Qfr: '𝔔',
Qopf: '',
Qscr: '𝒬',
RBarr: '⤐',
REG: '®',
Racute: 'Ŕ',
Rang: '⟫',
Rarr: '↠',
Rarrtl: '⤖',
Rcaron: 'Ř',
Rcedil: 'Ŗ',
Rcy: 'Р',
Re: '',
ReverseElement: '∋',
ReverseEquilibrium: '⇋',
ReverseUpEquilibrium: '⥯',
Rfr: '',
Rho: 'Ρ',
RightAngleBracket: '⟩',
RightArrow: '→',
RightArrowBar: '⇥',
RightArrowLeftArrow: '⇄',
RightCeiling: '⌉',
RightDoubleBracket: '⟧',
RightDownTeeVector: '⥝',
RightDownVector: '⇂',
RightDownVectorBar: '⥕',
RightFloor: '⌋',
RightTee: '⊢',
RightTeeArrow: '↦',
RightTeeVector: '⥛',
RightTriangle: '⊳',
RightTriangleBar: '⧐',
RightTriangleEqual: '⊵',
RightUpDownVector: '⥏',
RightUpTeeVector: '⥜',
RightUpVector: '↾',
RightUpVectorBar: '⥔',
RightVector: '⇀',
RightVectorBar: '⥓',
Rightarrow: '⇒',
Ropf: '',
RoundImplies: '⥰',
Rrightarrow: '⇛',
Rscr: '',
Rsh: '↱',
RuleDelayed: '⧴',
SHCHcy: 'Щ',
SHcy: 'Ш',
SOFTcy: 'Ь',
Sacute: 'Ś',
Sc: '⪼',
Scaron: 'Š',
Scedil: 'Ş',
Scirc: 'Ŝ',
Scy: 'С',
Sfr: '𝔖',
ShortDownArrow: '↓',
ShortLeftArrow: '←',
ShortRightArrow: '→',
ShortUpArrow: '↑',
Sigma: 'Σ',
SmallCircle: '∘',
Sopf: '𝕊',
Sqrt: '√',
Square: '□',
SquareIntersection: '⊓',
SquareSubset: '⊏',
SquareSubsetEqual: '⊑',
SquareSuperset: '⊐',
SquareSupersetEqual: '⊒',
SquareUnion: '⊔',
Sscr: '𝒮',
Star: '⋆',
Sub: '⋐',
Subset: '⋐',
SubsetEqual: '⊆',
Succeeds: '≻',
SucceedsEqual: '⪰',
SucceedsSlantEqual: '≽',
SucceedsTilde: '≿',
SuchThat: '∋',
Sum: '∑',
Sup: '⋑',
Superset: '⊃',
SupersetEqual: '⊇',
Supset: '⋑',
THORN: 'Þ',
TRADE: '™',
TSHcy: 'Ћ',
TScy: 'Ц',
Tab: '\t',
Tau: 'Τ',
Tcaron: 'Ť',
Tcedil: 'Ţ',
Tcy: 'Т',
Tfr: '𝔗',
Therefore: '∴',
Theta: 'Θ',
ThickSpace: '',
ThinSpace: '',
Tilde: '',
TildeEqual: '≃',
TildeFullEqual: '≅',
TildeTilde: '≈',
Topf: '𝕋',
TripleDot: '⃛',
Tscr: '𝒯',
Tstrok: 'Ŧ',
Uacute: 'Ú',
Uarr: '↟',
Uarrocir: '⥉',
Ubrcy: 'Ў',
Ubreve: 'Ŭ',
Ucirc: 'Û',
Ucy: 'У',
Udblac: 'Ű',
Ufr: '𝔘',
Ugrave: 'Ù',
Umacr: 'Ū',
UnderBar: '_',
UnderBrace: '⏟',
UnderBracket: '⎵',
UnderParenthesis: '⏝',
Union: '',
UnionPlus: '⊎',
Uogon: 'Ų',
Uopf: '𝕌',
UpArrow: '↑',
UpArrowBar: '⤒',
UpArrowDownArrow: '⇅',
UpDownArrow: '↕',
UpEquilibrium: '⥮',
UpTee: '⊥',
UpTeeArrow: '↥',
Uparrow: '⇑',
Updownarrow: '⇕',
UpperLeftArrow: '↖',
UpperRightArrow: '↗',
Upsi: 'ϒ',
Upsilon: 'Υ',
Uring: 'Ů',
Uscr: '𝒰',
Utilde: 'Ũ',
Uuml: 'Ü',
VDash: '⊫',
Vbar: '⫫',
Vcy: 'В',
Vdash: '⊩',
Vdashl: '⫦',
Vee: '',
Verbar: '‖',
Vert: '‖',
VerticalBar: '',
VerticalLine: '|',
VerticalSeparator: '❘',
VerticalTilde: '≀',
VeryThinSpace: '',
Vfr: '𝔙',
Vopf: '𝕍',
Vscr: '𝒱',
Vvdash: '⊪',
Wcirc: 'Ŵ',
Wedge: '⋀',
Wfr: '𝔚',
Wopf: '𝕎',
Wscr: '𝒲',
Xfr: '𝔛',
Xi: 'Ξ',
Xopf: '𝕏',
Xscr: '𝒳',
YAcy: 'Я',
YIcy: 'Ї',
YUcy: 'Ю',
Yacute: 'Ý',
Ycirc: 'Ŷ',
Ycy: 'Ы',
Yfr: '𝔜',
Yopf: '𝕐',
Yscr: '𝒴',
Yuml: 'Ÿ',
ZHcy: 'Ж',
Zacute: 'Ź',
Zcaron: 'Ž',
Zcy: 'З',
Zdot: 'Ż',
ZeroWidthSpace: '',
Zeta: 'Ζ',
Zfr: '',
Zopf: '',
Zscr: '𝒵',
aacute: 'á',
abreve: 'ă',
ac: '∾',
acE: '∾̳',
acd: '∿',
acirc: 'â',
acute: '´',
acy: 'а',
aelig: 'æ',
af: '',
afr: '𝔞',
agrave: 'à',
alefsym: 'ℵ',
aleph: 'ℵ',
alpha: 'α',
amacr: 'ā',
amalg: '⨿',
amp: '&',
and: '∧',
andand: '⩕',
andd: '⩜',
andslope: '⩘',
andv: '⩚',
ang: '∠',
ange: '⦤',
angle: '∠',
angmsd: '∡',
angmsdaa: '⦨',
angmsdab: '⦩',
angmsdac: '⦪',
angmsdad: '⦫',
angmsdae: '⦬',
angmsdaf: '⦭',
angmsdag: '⦮',
angmsdah: '⦯',
angrt: '∟',
angrtvb: '⊾',
angrtvbd: '⦝',
angsph: '∢',
angst: 'Å',
angzarr: '⍼',
aogon: 'ą',
aopf: '𝕒',
ap: '≈',
apE: '⩰',
apacir: '⩯',
ape: '≊',
apid: '≋',
apos: "'",
approx: '≈',
approxeq: '≊',
aring: 'å',
ascr: '𝒶',
ast: '*',
asymp: '≈',
asympeq: '≍',
atilde: 'ã',
auml: 'ä',
awconint: '∳',
awint: '⨑',
bNot: '⫭',
backcong: '≌',
backepsilon: '϶',
backprime: '',
backsim: '∽',
backsimeq: '⋍',
barvee: '⊽',
barwed: '⌅',
barwedge: '⌅',
bbrk: '⎵',
bbrktbrk: '⎶',
bcong: '≌',
bcy: 'б',
bdquo: '„',
becaus: '∵',
because: '∵',
bemptyv: '⦰',
bepsi: '϶',
bernou: '',
beta: 'β',
beth: 'ℶ',
between: '≬',
bfr: '𝔟',
bigcap: '⋂',
bigcirc: '◯',
bigcup: '',
bigodot: '⨀',
bigoplus: '⨁',
bigotimes: '⨂',
bigsqcup: '⨆',
bigstar: '★',
bigtriangledown: '▽',
bigtriangleup: '△',
biguplus: '⨄',
bigvee: '',
bigwedge: '⋀',
bkarow: '⤍',
blacklozenge: '⧫',
blacksquare: '▪',
blacktriangle: '▴',
blacktriangledown: '▾',
blacktriangleleft: '◂',
blacktriangleright: '▸',
blank: '␣',
blk12: '▒',
blk14: '░',
blk34: '▓',
block: '█',
bne: '=⃥',
bnequiv: '≡⃥',
bnot: '⌐',
bopf: '𝕓',
bot: '⊥',
bottom: '⊥',
bowtie: '⋈',
boxDL: '╗',
boxDR: '╔',
boxDl: '╖',
boxDr: '╓',
boxH: '═',
boxHD: '╦',
boxHU: '╩',
boxHd: '╤',
boxHu: '╧',
boxUL: '╝',
boxUR: '╚',
boxUl: '╜',
boxUr: '╙',
boxV: '║',
boxVH: '╬',
boxVL: '╣',
boxVR: '╠',
boxVh: '╫',
boxVl: '╢',
boxVr: '╟',
boxbox: '⧉',
boxdL: '╕',
boxdR: '╒',
boxdl: '┐',
boxdr: '┌',
boxh: '─',
boxhD: '╥',
boxhU: '╨',
boxhd: '┬',
boxhu: '┴',
boxminus: '⊟',
boxplus: '⊞',
boxtimes: '⊠',
boxuL: '╛',
boxuR: '╘',
boxul: '┘',
boxur: '└',
boxv: '│',
boxvH: '╪',
boxvL: '╡',
boxvR: '╞',
boxvh: '┼',
boxvl: '┤',
boxvr: '├',
bprime: '',
breve: '˘',
brvbar: '¦',
bscr: '𝒷',
bsemi: '⁏',
bsim: '∽',
bsime: '⋍',
bsol: '\\',
bsolb: '⧅',
bsolhsub: '⟈',
bull: '•',
bullet: '•',
bump: '≎',
bumpE: '⪮',
bumpe: '≏',
bumpeq: '≏',
cacute: 'ć',
cap: '∩',
capand: '⩄',
capbrcup: '⩉',
capcap: '⩋',
capcup: '⩇',
capdot: '⩀',
caps: '∩︀',
caret: '',
caron: 'ˇ',
ccaps: '⩍',
ccaron: 'č',
ccedil: 'ç',
ccirc: 'ĉ',
ccups: '⩌',
ccupssm: '⩐',
cdot: 'ċ',
cedil: '¸',
cemptyv: '⦲',
cent: '¢',
centerdot: '·',
cfr: '𝔠',
chcy: 'ч',
check: '✓',
checkmark: '✓',
chi: 'χ',
cir: '○',
cirE: '⧃',
circ: 'ˆ',
circeq: '≗',
circlearrowleft: '↺',
circlearrowright: '↻',
circledR: '®',
circledS: 'Ⓢ',
circledast: '⊛',
circledcirc: '⊚',
circleddash: '⊝',
cire: '≗',
cirfnint: '⨐',
cirmid: '⫯',
cirscir: '⧂',
clubs: '♣',
clubsuit: '♣',
colon: ':',
colone: '≔',
coloneq: '≔',
comma: ',',
commat: '@',
comp: '∁',
compfn: '∘',
complement: '∁',
complexes: '',
cong: '≅',
congdot: '⩭',
conint: '∮',
copf: '𝕔',
coprod: '∐',
copy: '©',
copysr: '℗',
crarr: '↵',
cross: '✗',
cscr: '𝒸',
csub: '⫏',
csube: '⫑',
csup: '⫐',
csupe: '⫒',
ctdot: '⋯',
cudarrl: '⤸',
cudarrr: '⤵',
cuepr: '⋞',
cuesc: '⋟',
cularr: '↶',
cularrp: '⤽',
cup: '',
cupbrcap: '⩈',
cupcap: '⩆',
cupcup: '⩊',
cupdot: '⊍',
cupor: '⩅',
cups: '',
curarr: '↷',
curarrm: '⤼',
curlyeqprec: '⋞',
curlyeqsucc: '⋟',
curlyvee: '⋎',
curlywedge: '⋏',
curren: '¤',
curvearrowleft: '↶',
curvearrowright: '↷',
cuvee: '⋎',
cuwed: '⋏',
cwconint: '∲',
cwint: '∱',
cylcty: '⌭',
dArr: '⇓',
dHar: '⥥',
dagger: '†',
daleth: 'ℸ',
darr: '↓',
dash: '',
dashv: '⊣',
dbkarow: '⤏',
dblac: '˝',
dcaron: 'ď',
dcy: 'д',
dd: '',
ddagger: '‡',
ddarr: '⇊',
ddotseq: '⩷',
deg: '°',
delta: 'δ',
demptyv: '⦱',
dfisht: '⥿',
dfr: '𝔡',
dharl: '⇃',
dharr: '⇂',
diam: '⋄',
diamond: '⋄',
diamondsuit: '♦',
diams: '♦',
die: '¨',
digamma: 'ϝ',
disin: '⋲',
div: '÷',
divide: '÷',
divideontimes: '⋇',
divonx: '⋇',
djcy: 'ђ',
dlcorn: '⌞',
dlcrop: '⌍',
dollar: '$',
dopf: '𝕕',
dot: '˙',
doteq: '≐',
doteqdot: '≑',
dotminus: '∸',
dotplus: '∔',
dotsquare: '⊡',
doublebarwedge: '⌆',
downarrow: '↓',
downdownarrows: '⇊',
downharpoonleft: '⇃',
downharpoonright: '⇂',
drbkarow: '⤐',
drcorn: '⌟',
drcrop: '⌌',
dscr: '𝒹',
dscy: 'ѕ',
dsol: '⧶',
dstrok: 'đ',
dtdot: '⋱',
dtri: '▿',
dtrif: '▾',
duarr: '⇵',
duhar: '⥯',
dwangle: '⦦',
dzcy: 'џ',
dzigrarr: '⟿',
eDDot: '⩷',
eDot: '≑',
eacute: 'é',
easter: '⩮',
ecaron: 'ě',
ecir: '≖',
ecirc: 'ê',
ecolon: '≕',
ecy: 'э',
edot: 'ė',
ee: '',
efDot: '≒',
efr: '𝔢',
eg: '⪚',
egrave: 'è',
egs: '⪖',
egsdot: '⪘',
el: '⪙',
elinters: '⏧',
ell: '',
els: '⪕',
elsdot: '⪗',
emacr: 'ē',
empty: '∅',
emptyset: '∅',
emptyv: '∅',
emsp13: '',
emsp14: '',
emsp: '',
eng: 'ŋ',
ensp: '',
eogon: 'ę',
eopf: '𝕖',
epar: '⋕',
eparsl: '⧣',
eplus: '⩱',
epsi: 'ε',
epsilon: 'ε',
epsiv: 'ϵ',
eqcirc: '≖',
eqcolon: '≕',
eqsim: '≂',
eqslantgtr: '⪖',
eqslantless: '⪕',
equals: '=',
equest: '≟',
equiv: '≡',
equivDD: '⩸',
eqvparsl: '⧥',
erDot: '≓',
erarr: '⥱',
escr: '',
esdot: '≐',
esim: '≂',
eta: 'η',
eth: 'ð',
euml: 'ë',
euro: '€',
excl: '!',
exist: '∃',
expectation: '',
exponentiale: '',
fallingdotseq: '≒',
fcy: 'ф',
female: '♀',
ffilig: 'ffi',
fflig: 'ff',
ffllig: 'ffl',
ffr: '𝔣',
filig: 'fi',
fjlig: 'fj',
flat: '♭',
fllig: 'fl',
fltns: '▱',
fnof: 'ƒ',
fopf: '𝕗',
forall: '∀',
fork: '⋔',
forkv: '⫙',
fpartint: '⨍',
frac12: '½',
frac13: '⅓',
frac14: '¼',
frac15: '⅕',
frac16: '⅙',
frac18: '⅛',
frac23: '⅔',
frac25: '⅖',
frac34: '¾',
frac35: '⅗',
frac38: '⅜',
frac45: '⅘',
frac56: '⅚',
frac58: '⅝',
frac78: '⅞',
frasl: '',
frown: '⌢',
fscr: '𝒻',
gE: '≧',
gEl: '⪌',
gacute: 'ǵ',
gamma: 'γ',
gammad: 'ϝ',
gap: '⪆',
gbreve: 'ğ',
gcirc: 'ĝ',
gcy: 'г',
gdot: 'ġ',
ge: '≥',
gel: '⋛',
geq: '≥',
geqq: '≧',
geqslant: '⩾',
ges: '⩾',
gescc: '⪩',
gesdot: '⪀',
gesdoto: '⪂',
gesdotol: '⪄',
gesl: '⋛︀',
gesles: '⪔',
gfr: '𝔤',
gg: '≫',
ggg: '⋙',
gimel: 'ℷ',
gjcy: 'ѓ',
gl: '≷',
glE: '⪒',
gla: '⪥',
glj: '⪤',
gnE: '≩',
gnap: '⪊',
gnapprox: '⪊',
gne: '⪈',
gneq: '⪈',
gneqq: '≩',
gnsim: '⋧',
gopf: '𝕘',
grave: '`',
gscr: '',
gsim: '≳',
gsime: '⪎',
gsiml: '⪐',
gt: '>',
gtcc: '⪧',
gtcir: '⩺',
gtdot: '⋗',
gtlPar: '⦕',
gtquest: '⩼',
gtrapprox: '⪆',
gtrarr: '⥸',
gtrdot: '⋗',
gtreqless: '⋛',
gtreqqless: '⪌',
gtrless: '≷',
gtrsim: '≳',
gvertneqq: '≩︀',
gvnE: '≩︀',
hArr: '⇔',
hairsp: '',
half: '½',
hamilt: '',
hardcy: 'ъ',
harr: '↔',
harrcir: '⥈',
harrw: '↭',
hbar: 'ℏ',
hcirc: 'ĥ',
hearts: '♥',
heartsuit: '♥',
hellip: '…',
hercon: '⊹',
hfr: '𝔥',
hksearow: '⤥',
hkswarow: '⤦',
hoarr: '⇿',
homtht: '∻',
hookleftarrow: '↩',
hookrightarrow: '↪',
hopf: '𝕙',
horbar: '―',
hscr: '𝒽',
hslash: 'ℏ',
hstrok: 'ħ',
hybull: '',
hyphen: '',
iacute: 'í',
ic: '',
icirc: 'î',
icy: 'и',
iecy: 'е',
iexcl: '¡',
iff: '⇔',
ifr: '𝔦',
igrave: 'ì',
ii: '',
iiiint: '⨌',
iiint: '∭',
iinfin: '⧜',
iiota: '℩',
ijlig: 'ij',
imacr: 'ī',
image: '',
imagline: '',
imagpart: '',
imath: 'ı',
imof: '⊷',
imped: 'Ƶ',
in: '∈',
incare: '℅',
infin: '∞',
infintie: '⧝',
inodot: 'ı',
int: '∫',
intcal: '⊺',
integers: '',
intercal: '⊺',
intlarhk: '⨗',
intprod: '⨼',
iocy: 'ё',
iogon: 'į',
iopf: '𝕚',
iota: 'ι',
iprod: '⨼',
iquest: '¿',
iscr: '𝒾',
isin: '∈',
isinE: '⋹',
isindot: '⋵',
isins: '⋴',
isinsv: '⋳',
isinv: '∈',
it: '',
itilde: 'ĩ',
iukcy: 'і',
iuml: 'ï',
jcirc: 'ĵ',
jcy: 'й',
jfr: '𝔧',
jmath: 'ȷ',
jopf: '𝕛',
jscr: '𝒿',
jsercy: 'ј',
jukcy: 'є',
kappa: 'κ',
kappav: 'ϰ',
kcedil: 'ķ',
kcy: 'к',
kfr: '𝔨',
kgreen: 'ĸ',
khcy: 'х',
kjcy: 'ќ',
kopf: '𝕜',
kscr: '𝓀',
lAarr: '⇚',
lArr: '⇐',
lAtail: '⤛',
lBarr: '⤎',
lE: '≦',
lEg: '⪋',
lHar: '⥢',
lacute: 'ĺ',
laemptyv: '⦴',
lagran: '',
lambda: 'λ',
lang: '⟨',
langd: '⦑',
langle: '⟨',
lap: '⪅',
laquo: '«',
larr: '←',
larrb: '⇤',
larrbfs: '⤟',
larrfs: '⤝',
larrhk: '↩',
larrlp: '↫',
larrpl: '⤹',
larrsim: '⥳',
larrtl: '↢',
lat: '⪫',
latail: '⤙',
late: '⪭',
lates: '⪭︀',
lbarr: '⤌',
lbbrk: '',
lbrace: '{',
lbrack: '[',
lbrke: '⦋',
lbrksld: '⦏',
lbrkslu: '⦍',
lcaron: 'ľ',
lcedil: 'ļ',
lceil: '⌈',
lcub: '{',
lcy: 'л',
ldca: '⤶',
ldquo: '“',
ldquor: '„',
ldrdhar: '⥧',
ldrushar: '⥋',
ldsh: '↲',
le: '≤',
leftarrow: '←',
leftarrowtail: '↢',
leftharpoondown: '↽',
leftharpoonup: '↼',
leftleftarrows: '⇇',
leftrightarrow: '↔',
leftrightarrows: '⇆',
leftrightharpoons: '⇋',
leftrightsquigarrow: '↭',
leftthreetimes: '⋋',
leg: '⋚',
leq: '≤',
leqq: '≦',
leqslant: '⩽',
les: '⩽',
lescc: '⪨',
lesdot: '⩿',
lesdoto: '⪁',
lesdotor: '⪃',
lesg: '⋚︀',
lesges: '⪓',
lessapprox: '⪅',
lessdot: '⋖',
lesseqgtr: '⋚',
lesseqqgtr: '⪋',
lessgtr: '≶',
lesssim: '≲',
lfisht: '⥼',
lfloor: '⌊',
lfr: '𝔩',
lg: '≶',
lgE: '⪑',
lhard: '↽',
lharu: '↼',
lharul: '⥪',
lhblk: '▄',
ljcy: 'љ',
ll: '≪',
llarr: '⇇',
llcorner: '⌞',
llhard: '⥫',
lltri: '◺',
lmidot: 'ŀ',
lmoust: '⎰',
lmoustache: '⎰',
lnE: '≨',
lnap: '⪉',
lnapprox: '⪉',
lne: '⪇',
lneq: '⪇',
lneqq: '≨',
lnsim: '⋦',
loang: '⟬',
loarr: '⇽',
lobrk: '⟦',
longleftarrow: '⟵',
longleftrightarrow: '⟷',
longmapsto: '⟼',
longrightarrow: '⟶',
looparrowleft: '↫',
looparrowright: '↬',
lopar: '⦅',
lopf: '𝕝',
loplus: '⨭',
lotimes: '⨴',
lowast: '',
lowbar: '_',
loz: '◊',
lozenge: '◊',
lozf: '⧫',
lpar: '(',
lparlt: '⦓',
lrarr: '⇆',
lrcorner: '⌟',
lrhar: '⇋',
lrhard: '⥭',
lrm: '',
lrtri: '⊿',
lsaquo: '',
lscr: '𝓁',
lsh: '↰',
lsim: '≲',
lsime: '⪍',
lsimg: '⪏',
lsqb: '[',
lsquo: '',
lsquor: '',
lstrok: 'ł',
lt: '<',
ltcc: '⪦',
ltcir: '⩹',
ltdot: '⋖',
lthree: '⋋',
ltimes: '⋉',
ltlarr: '⥶',
ltquest: '⩻',
ltrPar: '⦖',
ltri: '◃',
ltrie: '⊴',
ltrif: '◂',
lurdshar: '⥊',
luruhar: '⥦',
lvertneqq: '≨︀',
lvnE: '≨︀',
mDDot: '∺',
macr: '¯',
male: '♂',
malt: '✠',
maltese: '✠',
map: '↦',
mapsto: '↦',
mapstodown: '↧',
mapstoleft: '↤',
mapstoup: '↥',
marker: '▮',
mcomma: '⨩',
mcy: 'м',
mdash: '—',
measuredangle: '∡',
mfr: '𝔪',
mho: '℧',
micro: 'µ',
mid: '',
midast: '*',
midcir: '⫰',
middot: '·',
minus: '',
minusb: '⊟',
minusd: '∸',
minusdu: '⨪',
mlcp: '⫛',
mldr: '…',
mnplus: '∓',
models: '⊧',
mopf: '𝕞',
mp: '∓',
mscr: '𝓂',
mstpos: '∾',
mu: 'μ',
multimap: '⊸',
mumap: '⊸',
nGg: '⋙̸',
nGt: '≫⃒',
nGtv: '≫̸',
nLeftarrow: '⇍',
nLeftrightarrow: '⇎',
nLl: '⋘̸',
nLt: '≪⃒',
nLtv: '≪̸',
nRightarrow: '⇏',
nVDash: '⊯',
nVdash: '⊮',
nabla: '∇',
nacute: 'ń',
nang: '∠⃒',
nap: '≉',
napE: '⩰̸',
napid: '≋̸',
napos: 'ʼn',
napprox: '≉',
natur: '♮',
natural: '♮',
naturals: '',
nbsp: ' ',
nbump: '≎̸',
nbumpe: '≏̸',
ncap: '⩃',
ncaron: 'ň',
ncedil: 'ņ',
ncong: '≇',
ncongdot: '⩭̸',
ncup: '⩂',
ncy: 'н',
ndash: '',
ne: '≠',
neArr: '⇗',
nearhk: '⤤',
nearr: '↗',
nearrow: '↗',
nedot: '≐̸',
nequiv: '≢',
nesear: '⤨',
nesim: '≂̸',
nexist: '∄',
nexists: '∄',
nfr: '𝔫',
ngE: '≧̸',
nge: '≱',
ngeq: '≱',
ngeqq: '≧̸',
ngeqslant: '⩾̸',
nges: '⩾̸',
ngsim: '≵',
ngt: '≯',
ngtr: '≯',
nhArr: '⇎',
nharr: '↮',
nhpar: '⫲',
ni: '∋',
nis: '⋼',
nisd: '⋺',
niv: '∋',
njcy: 'њ',
nlArr: '⇍',
nlE: '≦̸',
nlarr: '↚',
nldr: '‥',
nle: '≰',
nleftarrow: '↚',
nleftrightarrow: '↮',
nleq: '≰',
nleqq: '≦̸',
nleqslant: '⩽̸',
nles: '⩽̸',
nless: '≮',
nlsim: '≴',
nlt: '≮',
nltri: '⋪',
nltrie: '⋬',
nmid: '∤',
nopf: '𝕟',
not: '¬',
notin: '∉',
notinE: '⋹̸',
notindot: '⋵̸',
notinva: '∉',
notinvb: '⋷',
notinvc: '⋶',
notni: '∌',
notniva: '∌',
notnivb: '⋾',
notnivc: '⋽',
npar: '∦',
nparallel: '∦',
nparsl: '⫽⃥',
npart: '∂̸',
npolint: '⨔',
npr: '⊀',
nprcue: '⋠',
npre: '⪯̸',
nprec: '⊀',
npreceq: '⪯̸',
nrArr: '⇏',
nrarr: '↛',
nrarrc: '⤳̸',
nrarrw: '↝̸',
nrightarrow: '↛',
nrtri: '⋫',
nrtrie: '⋭',
nsc: '⊁',
nsccue: '⋡',
nsce: '⪰̸',
nscr: '𝓃',
nshortmid: '∤',
nshortparallel: '∦',
nsim: '≁',
nsime: '≄',
nsimeq: '≄',
nsmid: '∤',
nspar: '∦',
nsqsube: '⋢',
nsqsupe: '⋣',
nsub: '⊄',
nsubE: '⫅̸',
nsube: '⊈',
nsubset: '⊂⃒',
nsubseteq: '⊈',
nsubseteqq: '⫅̸',
nsucc: '⊁',
nsucceq: '⪰̸',
nsup: '⊅',
nsupE: '⫆̸',
nsupe: '⊉',
nsupset: '⊃⃒',
nsupseteq: '⊉',
nsupseteqq: '⫆̸',
ntgl: '≹',
ntilde: 'ñ',
ntlg: '≸',
ntriangleleft: '⋪',
ntrianglelefteq: '⋬',
ntriangleright: '⋫',
ntrianglerighteq: '⋭',
nu: 'ν',
num: '#',
numero: '№',
numsp: '',
nvDash: '⊭',
nvHarr: '⤄',
nvap: '≍⃒',
nvdash: '⊬',
nvge: '≥⃒',
nvgt: '>⃒',
nvinfin: '⧞',
nvlArr: '⤂',
nvle: '≤⃒',
nvlt: '<⃒',
nvltrie: '⊴⃒',
nvrArr: '⤃',
nvrtrie: '⊵⃒',
nvsim: '∼⃒',
nwArr: '⇖',
nwarhk: '⤣',
nwarr: '↖',
nwarrow: '↖',
nwnear: '⤧',
oS: 'Ⓢ',
oacute: 'ó',
oast: '⊛',
ocir: '⊚',
ocirc: 'ô',
ocy: 'о',
odash: '⊝',
odblac: 'ő',
odiv: '⨸',
odot: '⊙',
odsold: '⦼',
oelig: 'œ',
ofcir: '⦿',
ofr: '𝔬',
ogon: '˛',
ograve: 'ò',
ogt: '⧁',
ohbar: '⦵',
ohm: 'Ω',
oint: '∮',
olarr: '↺',
olcir: '⦾',
olcross: '⦻',
oline: '‾',
olt: '⧀',
omacr: 'ō',
omega: 'ω',
omicron: 'ο',
omid: '⦶',
ominus: '⊖',
oopf: '𝕠',
opar: '⦷',
operp: '⦹',
oplus: '⊕',
or: '',
orarr: '↻',
ord: '⩝',
order: '',
orderof: '',
ordf: 'ª',
ordm: 'º',
origof: '⊶',
oror: '⩖',
orslope: '⩗',
orv: '⩛',
oscr: '',
oslash: 'ø',
osol: '⊘',
otilde: 'õ',
otimes: '⊗',
otimesas: '⨶',
ouml: 'ö',
ovbar: '⌽',
par: '∥',
para: '¶',
parallel: '∥',
parsim: '⫳',
parsl: '⫽',
part: '∂',
pcy: 'п',
percnt: '%',
period: '.',
permil: '‰',
perp: '⊥',
pertenk: '‱',
pfr: '𝔭',
phi: 'φ',
phiv: 'ϕ',
phmmat: '',
phone: '☎',
pi: 'π',
pitchfork: '⋔',
piv: 'ϖ',
planck: 'ℏ',
planckh: '',
plankv: 'ℏ',
plus: '+',
plusacir: '⨣',
plusb: '⊞',
pluscir: '⨢',
plusdo: '∔',
plusdu: '⨥',
pluse: '⩲',
plusmn: '±',
plussim: '⨦',
plustwo: '⨧',
pm: '±',
pointint: '⨕',
popf: '𝕡',
pound: '£',
pr: '≺',
prE: '⪳',
prap: '⪷',
prcue: '≼',
pre: '⪯',
prec: '≺',
precapprox: '⪷',
preccurlyeq: '≼',
preceq: '⪯',
precnapprox: '⪹',
precneqq: '⪵',
precnsim: '⋨',
precsim: '≾',
prime: '',
primes: '',
prnE: '⪵',
prnap: '⪹',
prnsim: '⋨',
prod: '∏',
profalar: '⌮',
profline: '⌒',
profsurf: '⌓',
prop: '∝',
propto: '∝',
prsim: '≾',
prurel: '⊰',
pscr: '𝓅',
psi: 'ψ',
puncsp: '',
qfr: '𝔮',
qint: '⨌',
qopf: '𝕢',
qprime: '⁗',
qscr: '𝓆',
quaternions: '',
quatint: '⨖',
quest: '?',
questeq: '≟',
quot: '"',
rAarr: '⇛',
rArr: '⇒',
rAtail: '⤜',
rBarr: '⤏',
rHar: '⥤',
race: '∽̱',
racute: 'ŕ',
radic: '√',
raemptyv: '⦳',
rang: '⟩',
rangd: '⦒',
range: '⦥',
rangle: '⟩',
raquo: '»',
rarr: '→',
rarrap: '⥵',
rarrb: '⇥',
rarrbfs: '⤠',
rarrc: '⤳',
rarrfs: '⤞',
rarrhk: '↪',
rarrlp: '↬',
rarrpl: '⥅',
rarrsim: '⥴',
rarrtl: '↣',
rarrw: '↝',
ratail: '⤚',
ratio: '',
rationals: '',
rbarr: '⤍',
rbbrk: '',
rbrace: '}',
rbrack: ']',
rbrke: '⦌',
rbrksld: '⦎',
rbrkslu: '⦐',
rcaron: 'ř',
rcedil: 'ŗ',
rceil: '⌉',
rcub: '}',
rcy: 'р',
rdca: '⤷',
rdldhar: '⥩',
rdquo: '”',
rdquor: '”',
rdsh: '↳',
real: '',
realine: '',
realpart: '',
reals: '',
rect: '▭',
reg: '®',
rfisht: '⥽',
rfloor: '⌋',
rfr: '𝔯',
rhard: '⇁',
rharu: '⇀',
rharul: '⥬',
rho: 'ρ',
rhov: 'ϱ',
rightarrow: '→',
rightarrowtail: '↣',
rightharpoondown: '⇁',
rightharpoonup: '⇀',
rightleftarrows: '⇄',
rightleftharpoons: '⇌',
rightrightarrows: '⇉',
rightsquigarrow: '↝',
rightthreetimes: '⋌',
ring: '˚',
risingdotseq: '≓',
rlarr: '⇄',
rlhar: '⇌',
rlm: '',
rmoust: '⎱',
rmoustache: '⎱',
rnmid: '⫮',
roang: '⟭',
roarr: '⇾',
robrk: '⟧',
ropar: '⦆',
ropf: '𝕣',
roplus: '⨮',
rotimes: '⨵',
rpar: ')',
rpargt: '⦔',
rppolint: '⨒',
rrarr: '⇉',
rsaquo: '',
rscr: '𝓇',
rsh: '↱',
rsqb: ']',
rsquo: '',
rsquor: '',
rthree: '⋌',
rtimes: '⋊',
rtri: '▹',
rtrie: '⊵',
rtrif: '▸',
rtriltri: '⧎',
ruluhar: '⥨',
rx: '℞',
sacute: 'ś',
sbquo: '',
sc: '≻',
scE: '⪴',
scap: '⪸',
scaron: 'š',
sccue: '≽',
sce: '⪰',
scedil: 'ş',
scirc: 'ŝ',
scnE: '⪶',
scnap: '⪺',
scnsim: '⋩',
scpolint: '⨓',
scsim: '≿',
scy: 'с',
sdot: '⋅',
sdotb: '⊡',
sdote: '⩦',
seArr: '⇘',
searhk: '⤥',
searr: '↘',
searrow: '↘',
sect: '§',
semi: ';',
seswar: '⤩',
setminus: '',
setmn: '',
sext: '✶',
sfr: '𝔰',
sfrown: '⌢',
sharp: '♯',
shchcy: 'щ',
shcy: 'ш',
shortmid: '',
shortparallel: '∥',
shy: '­',
sigma: 'σ',
sigmaf: 'ς',
sigmav: 'ς',
sim: '',
simdot: '⩪',
sime: '≃',
simeq: '≃',
simg: '⪞',
simgE: '⪠',
siml: '⪝',
simlE: '⪟',
simne: '≆',
simplus: '⨤',
simrarr: '⥲',
slarr: '←',
smallsetminus: '',
smashp: '⨳',
smeparsl: '⧤',
smid: '',
smile: '⌣',
smt: '⪪',
smte: '⪬',
smtes: '⪬︀',
softcy: 'ь',
sol: '/',
solb: '⧄',
solbar: '⌿',
sopf: '𝕤',
spades: '♠',
spadesuit: '♠',
spar: '∥',
sqcap: '⊓',
sqcaps: '⊓︀',
sqcup: '⊔',
sqcups: '⊔︀',
sqsub: '⊏',
sqsube: '⊑',
sqsubset: '⊏',
sqsubseteq: '⊑',
sqsup: '⊐',
sqsupe: '⊒',
sqsupset: '⊐',
sqsupseteq: '⊒',
squ: '□',
square: '□',
squarf: '▪',
squf: '▪',
srarr: '→',
sscr: '𝓈',
ssetmn: '',
ssmile: '⌣',
sstarf: '⋆',
star: '☆',
starf: '★',
straightepsilon: 'ϵ',
straightphi: 'ϕ',
strns: '¯',
sub: '⊂',
subE: '⫅',
subdot: '⪽',
sube: '⊆',
subedot: '⫃',
submult: '⫁',
subnE: '⫋',
subne: '⊊',
subplus: '⪿',
subrarr: '⥹',
subset: '⊂',
subseteq: '⊆',
subseteqq: '⫅',
subsetneq: '⊊',
subsetneqq: '⫋',
subsim: '⫇',
subsub: '⫕',
subsup: '⫓',
succ: '≻',
succapprox: '⪸',
succcurlyeq: '≽',
succeq: '⪰',
succnapprox: '⪺',
succneqq: '⪶',
succnsim: '⋩',
succsim: '≿',
sum: '∑',
sung: '♪',
sup1: '¹',
sup2: '²',
sup3: '³',
sup: '⊃',
supE: '⫆',
supdot: '⪾',
supdsub: '⫘',
supe: '⊇',
supedot: '⫄',
suphsol: '⟉',
suphsub: '⫗',
suplarr: '⥻',
supmult: '⫂',
supnE: '⫌',
supne: '⊋',
supplus: '⫀',
supset: '⊃',
supseteq: '⊇',
supseteqq: '⫆',
supsetneq: '⊋',
supsetneqq: '⫌',
supsim: '⫈',
supsub: '⫔',
supsup: '⫖',
swArr: '⇙',
swarhk: '⤦',
swarr: '↙',
swarrow: '↙',
swnwar: '⤪',
szlig: 'ß',
target: '⌖',
tau: 'τ',
tbrk: '⎴',
tcaron: 'ť',
tcedil: 'ţ',
tcy: 'т',
tdot: '⃛',
telrec: '⌕',
tfr: '𝔱',
there4: '∴',
therefore: '∴',
theta: 'θ',
thetasym: 'ϑ',
thetav: 'ϑ',
thickapprox: '≈',
thicksim: '',
thinsp: '',
thkap: '≈',
thksim: '',
thorn: 'þ',
tilde: '˜',
times: '×',
timesb: '⊠',
timesbar: '⨱',
timesd: '⨰',
tint: '∭',
toea: '⤨',
top: '',
topbot: '⌶',
topcir: '⫱',
topf: '𝕥',
topfork: '⫚',
tosa: '⤩',
tprime: '‴',
trade: '™',
triangle: '▵',
triangledown: '▿',
triangleleft: '◃',
trianglelefteq: '⊴',
triangleq: '≜',
triangleright: '▹',
trianglerighteq: '⊵',
tridot: '◬',
trie: '≜',
triminus: '⨺',
triplus: '⨹',
trisb: '⧍',
tritime: '⨻',
trpezium: '⏢',
tscr: '𝓉',
tscy: 'ц',
tshcy: 'ћ',
tstrok: 'ŧ',
twixt: '≬',
twoheadleftarrow: '↞',
twoheadrightarrow: '↠',
uArr: '⇑',
uHar: '⥣',
uacute: 'ú',
uarr: '↑',
ubrcy: 'ў',
ubreve: 'ŭ',
ucirc: 'û',
ucy: 'у',
udarr: '⇅',
udblac: 'ű',
udhar: '⥮',
ufisht: '⥾',
ufr: '𝔲',
ugrave: 'ù',
uharl: '↿',
uharr: '↾',
uhblk: '▀',
ulcorn: '⌜',
ulcorner: '⌜',
ulcrop: '⌏',
ultri: '◸',
umacr: 'ū',
uml: '¨',
uogon: 'ų',
uopf: '𝕦',
uparrow: '↑',
updownarrow: '↕',
upharpoonleft: '↿',
upharpoonright: '↾',
uplus: '⊎',
upsi: 'υ',
upsih: 'ϒ',
upsilon: 'υ',
upuparrows: '⇈',
urcorn: '⌝',
urcorner: '⌝',
urcrop: '⌎',
uring: 'ů',
urtri: '◹',
uscr: '𝓊',
utdot: '⋰',
utilde: 'ũ',
utri: '▵',
utrif: '▴',
uuarr: '⇈',
uuml: 'ü',
uwangle: '⦧',
vArr: '⇕',
vBar: '⫨',
vBarv: '⫩',
vDash: '⊨',
vangrt: '⦜',
varepsilon: 'ϵ',
varkappa: 'ϰ',
varnothing: '∅',
varphi: 'ϕ',
varpi: 'ϖ',
varpropto: '∝',
varr: '↕',
varrho: 'ϱ',
varsigma: 'ς',
varsubsetneq: '⊊︀',
varsubsetneqq: '⫋︀',
varsupsetneq: '⊋︀',
varsupsetneqq: '⫌︀',
vartheta: 'ϑ',
vartriangleleft: '⊲',
vartriangleright: '⊳',
vcy: 'в',
vdash: '⊢',
vee: '',
veebar: '⊻',
veeeq: '≚',
vellip: '⋮',
verbar: '|',
vert: '|',
vfr: '𝔳',
vltri: '⊲',
vnsub: '⊂⃒',
vnsup: '⊃⃒',
vopf: '𝕧',
vprop: '∝',
vrtri: '⊳',
vscr: '𝓋',
vsubnE: '⫋︀',
vsubne: '⊊︀',
vsupnE: '⫌︀',
vsupne: '⊋︀',
vzigzag: '⦚',
wcirc: 'ŵ',
wedbar: '⩟',
wedge: '∧',
wedgeq: '≙',
weierp: '℘',
wfr: '𝔴',
wopf: '𝕨',
wp: '℘',
wr: '≀',
wreath: '≀',
wscr: '𝓌',
xcap: '⋂',
xcirc: '◯',
xcup: '',
xdtri: '▽',
xfr: '𝔵',
xhArr: '⟺',
xharr: '⟷',
xi: 'ξ',
xlArr: '⟸',
xlarr: '⟵',
xmap: '⟼',
xnis: '⋻',
xodot: '⨀',
xopf: '𝕩',
xoplus: '⨁',
xotime: '⨂',
xrArr: '⟹',
xrarr: '⟶',
xscr: '𝓍',
xsqcup: '⨆',
xuplus: '⨄',
xutri: '△',
xvee: '',
xwedge: '⋀',
yacute: 'ý',
yacy: 'я',
ycirc: 'ŷ',
ycy: 'ы',
yen: '¥',
yfr: '𝔶',
yicy: 'ї',
yopf: '𝕪',
yscr: '𝓎',
yucy: 'ю',
yuml: 'ÿ',
zacute: 'ź',
zcaron: 'ž',
zcy: 'з',
zdot: 'ż',
zeetrf: '',
zeta: 'ζ',
zfr: '𝔷',
zhcy: 'ж',
zigrarr: '⇝',
zopf: '𝕫',
zscr: '𝓏',
zwj: '',
zwnj: ''
}
;// CONCATENATED MODULE: ./node_modules/decode-named-character-reference/index.js
const own = {}.hasOwnProperty
/**
* Decode a single character reference (without the `&` or `;`).
* You probably only need this when youre building parsers yourself that follow
* different rules compared to HTML.
* This is optimized to be tiny in browsers.
*
* @param {string} value
* `notin` (named), `#123` (deci), `#x123` (hexa).
* @returns {string|false}
* Decoded reference.
*/
function decodeNamedCharacterReference(value) {
return own.call(characterEntities, value) ? characterEntities[value] : false
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/character-reference.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const characterReference = {
name: 'characterReference',
tokenize: tokenizeCharacterReference
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCharacterReference(effects, ok, nok) {
const self = this
let size = 0
/** @type {number} */
let max
/** @type {(code: Code) => boolean} */
let test
return start
/**
* Start of character reference.
*
* ```markdown
* > | a&amp;b
* ^
* > | a&#123;b
* ^
* > | a&#x9;b
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('characterReference')
effects.enter('characterReferenceMarker')
effects.consume(code)
effects.exit('characterReferenceMarker')
return open
}
/**
* After `&`, at `#` for numeric references or alphanumeric for named
* references.
*
* ```markdown
* > | a&amp;b
* ^
* > | a&#123;b
* ^
* > | a&#x9;b
* ^
* ```
*
* @type {State}
*/
function open(code) {
if (code === 35) {
effects.enter('characterReferenceMarkerNumeric')
effects.consume(code)
effects.exit('characterReferenceMarkerNumeric')
return numeric
}
effects.enter('characterReferenceValue')
max = 31
test = asciiAlphanumeric
return value(code)
}
/**
* After `#`, at `x` for hexadecimals or digit for decimals.
*
* ```markdown
* > | a&#123;b
* ^
* > | a&#x9;b
* ^
* ```
*
* @type {State}
*/
function numeric(code) {
if (code === 88 || code === 120) {
effects.enter('characterReferenceMarkerHexadecimal')
effects.consume(code)
effects.exit('characterReferenceMarkerHexadecimal')
effects.enter('characterReferenceValue')
max = 6
test = asciiHexDigit
return value
}
effects.enter('characterReferenceValue')
max = 7
test = asciiDigit
return value(code)
}
/**
* After markers (`&#x`, `&#`, or `&`), in value, before `;`.
*
* The character reference kind defines what and how many characters are
* allowed.
*
* ```markdown
* > | a&amp;b
* ^^^
* > | a&#123;b
* ^^^
* > | a&#x9;b
* ^
* ```
*
* @type {State}
*/
function value(code) {
if (code === 59 && size) {
const token = effects.exit('characterReferenceValue')
if (
test === asciiAlphanumeric &&
!decodeNamedCharacterReference(self.sliceSerialize(token))
) {
return nok(code)
}
// To do: `markdown-rs` uses a different name:
// `CharacterReferenceMarkerSemi`.
effects.enter('characterReferenceMarker')
effects.consume(code)
effects.exit('characterReferenceMarker')
effects.exit('characterReference')
return ok
}
if (test(code) && size++ < max) {
effects.consume(code)
return value
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/character-escape.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const characterEscape = {
name: 'characterEscape',
tokenize: tokenizeCharacterEscape
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCharacterEscape(effects, ok, nok) {
return start
/**
* Start of character escape.
*
* ```markdown
* > | a\*b
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('characterEscape')
effects.enter('escapeMarker')
effects.consume(code)
effects.exit('escapeMarker')
return inside
}
/**
* After `\`, at punctuation.
*
* ```markdown
* > | a\*b
* ^
* ```
*
* @type {State}
*/
function inside(code) {
// ASCII punctuation.
if (asciiPunctuation(code)) {
effects.enter('characterEscapeValue')
effects.consume(code)
effects.exit('characterEscapeValue')
effects.exit('characterEscape')
return ok
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/line-ending.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const lineEnding = {
name: 'lineEnding',
tokenize: tokenizeLineEnding
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeLineEnding(effects, ok) {
return start
/** @type {State} */
function start(code) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return factorySpace(effects, ok, 'linePrefix')
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/label-end.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Event} Event
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const labelEnd = {
name: 'labelEnd',
tokenize: tokenizeLabelEnd,
resolveTo: resolveToLabelEnd,
resolveAll: resolveAllLabelEnd
}
/** @type {Construct} */
const resourceConstruct = {
tokenize: tokenizeResource
}
/** @type {Construct} */
const referenceFullConstruct = {
tokenize: tokenizeReferenceFull
}
/** @type {Construct} */
const referenceCollapsedConstruct = {
tokenize: tokenizeReferenceCollapsed
}
/** @type {Resolver} */
function resolveAllLabelEnd(events) {
let index = -1
while (++index < events.length) {
const token = events[index][1]
if (
token.type === 'labelImage' ||
token.type === 'labelLink' ||
token.type === 'labelEnd'
) {
// Remove the marker.
events.splice(index + 1, token.type === 'labelImage' ? 4 : 2)
token.type = 'data'
index++
}
}
return events
}
/** @type {Resolver} */
function resolveToLabelEnd(events, context) {
let index = events.length
let offset = 0
/** @type {Token} */
let token
/** @type {number | undefined} */
let open
/** @type {number | undefined} */
let close
/** @type {Array<Event>} */
let media
// Find an opening.
while (index--) {
token = events[index][1]
if (open) {
// If we see another link, or inactive link label, weve been here before.
if (
token.type === 'link' ||
(token.type === 'labelLink' && token._inactive)
) {
break
}
// Mark other link openings as inactive, as we cant have links in
// links.
if (events[index][0] === 'enter' && token.type === 'labelLink') {
token._inactive = true
}
} else if (close) {
if (
events[index][0] === 'enter' &&
(token.type === 'labelImage' || token.type === 'labelLink') &&
!token._balanced
) {
open = index
if (token.type !== 'labelLink') {
offset = 2
break
}
}
} else if (token.type === 'labelEnd') {
close = index
}
}
const group = {
type: events[open][1].type === 'labelLink' ? 'link' : 'image',
start: Object.assign({}, events[open][1].start),
end: Object.assign({}, events[events.length - 1][1].end)
}
const label = {
type: 'label',
start: Object.assign({}, events[open][1].start),
end: Object.assign({}, events[close][1].end)
}
const text = {
type: 'labelText',
start: Object.assign({}, events[open + offset + 2][1].end),
end: Object.assign({}, events[close - 2][1].start)
}
media = [
['enter', group, context],
['enter', label, context]
]
// Opening marker.
media = push(media, events.slice(open + 1, open + offset + 3))
// Text open.
media = push(media, [['enter', text, context]])
// Always populated by defaults.
// Between.
media = push(
media,
resolveAll(
context.parser.constructs.insideSpan.null,
events.slice(open + offset + 4, close - 3),
context
)
)
// Text close, marker close, label close.
media = push(media, [
['exit', text, context],
events[close - 2],
events[close - 1],
['exit', label, context]
])
// Reference, resource, or so.
media = push(media, events.slice(close + 1))
// Media close.
media = push(media, [['exit', group, context]])
splice(events, open, events.length, media)
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeLabelEnd(effects, ok, nok) {
const self = this
let index = self.events.length
/** @type {Token} */
let labelStart
/** @type {boolean} */
let defined
// Find an opening.
while (index--) {
if (
(self.events[index][1].type === 'labelImage' ||
self.events[index][1].type === 'labelLink') &&
!self.events[index][1]._balanced
) {
labelStart = self.events[index][1]
break
}
}
return start
/**
* Start of label end.
*
* ```markdown
* > | [a](b) c
* ^
* > | [a][b] c
* ^
* > | [a][] b
* ^
* > | [a] b
* ```
*
* @type {State}
*/
function start(code) {
// If there is not an okay opening.
if (!labelStart) {
return nok(code)
}
// If the corresponding label (link) start is marked as inactive,
// it means wed be wrapping a link, like this:
//
// ```markdown
// > | a [b [c](d) e](f) g.
// ^
// ```
//
// We cant have that, so its just balanced brackets.
if (labelStart._inactive) {
return labelEndNok(code)
}
defined = self.parser.defined.includes(
normalizeIdentifier(
self.sliceSerialize({
start: labelStart.end,
end: self.now()
})
)
)
effects.enter('labelEnd')
effects.enter('labelMarker')
effects.consume(code)
effects.exit('labelMarker')
effects.exit('labelEnd')
return after
}
/**
* After `]`.
*
* ```markdown
* > | [a](b) c
* ^
* > | [a][b] c
* ^
* > | [a][] b
* ^
* > | [a] b
* ^
* ```
*
* @type {State}
*/
function after(code) {
// Note: `markdown-rs` also parses GFM footnotes here, which for us is in
// an extension.
// Resource (`[asd](fgh)`)?
if (code === 40) {
return effects.attempt(
resourceConstruct,
labelEndOk,
defined ? labelEndOk : labelEndNok
)(code)
}
// Full (`[asd][fgh]`) or collapsed (`[asd][]`) reference?
if (code === 91) {
return effects.attempt(
referenceFullConstruct,
labelEndOk,
defined ? referenceNotFull : labelEndNok
)(code)
}
// Shortcut (`[asd]`) reference?
return defined ? labelEndOk(code) : labelEndNok(code)
}
/**
* After `]`, at `[`, but not at a full reference.
*
* > 👉 **Note**: we only get here if the label is defined.
*
* ```markdown
* > | [a][] b
* ^
* > | [a] b
* ^
* ```
*
* @type {State}
*/
function referenceNotFull(code) {
return effects.attempt(
referenceCollapsedConstruct,
labelEndOk,
labelEndNok
)(code)
}
/**
* Done, we found something.
*
* ```markdown
* > | [a](b) c
* ^
* > | [a][b] c
* ^
* > | [a][] b
* ^
* > | [a] b
* ^
* ```
*
* @type {State}
*/
function labelEndOk(code) {
// Note: `markdown-rs` does a bunch of stuff here.
return ok(code)
}
/**
* Done, its nothing.
*
* There was an okay opening, but we didnt match anything.
*
* ```markdown
* > | [a](b c
* ^
* > | [a][b c
* ^
* > | [a] b
* ^
* ```
*
* @type {State}
*/
function labelEndNok(code) {
labelStart._balanced = true
return nok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeResource(effects, ok, nok) {
return resourceStart
/**
* At a resource.
*
* ```markdown
* > | [a](b) c
* ^
* ```
*
* @type {State}
*/
function resourceStart(code) {
effects.enter('resource')
effects.enter('resourceMarker')
effects.consume(code)
effects.exit('resourceMarker')
return resourceBefore
}
/**
* In resource, after `(`, at optional whitespace.
*
* ```markdown
* > | [a](b) c
* ^
* ```
*
* @type {State}
*/
function resourceBefore(code) {
return markdownLineEndingOrSpace(code)
? factoryWhitespace(effects, resourceOpen)(code)
: resourceOpen(code)
}
/**
* In resource, after optional whitespace, at `)` or a destination.
*
* ```markdown
* > | [a](b) c
* ^
* ```
*
* @type {State}
*/
function resourceOpen(code) {
if (code === 41) {
return resourceEnd(code)
}
return factoryDestination(
effects,
resourceDestinationAfter,
resourceDestinationMissing,
'resourceDestination',
'resourceDestinationLiteral',
'resourceDestinationLiteralMarker',
'resourceDestinationRaw',
'resourceDestinationString',
32
)(code)
}
/**
* In resource, after destination, at optional whitespace.
*
* ```markdown
* > | [a](b) c
* ^
* ```
*
* @type {State}
*/
function resourceDestinationAfter(code) {
return markdownLineEndingOrSpace(code)
? factoryWhitespace(effects, resourceBetween)(code)
: resourceEnd(code)
}
/**
* At invalid destination.
*
* ```markdown
* > | [a](<<) b
* ^
* ```
*
* @type {State}
*/
function resourceDestinationMissing(code) {
return nok(code)
}
/**
* In resource, after destination and whitespace, at `(` or title.
*
* ```markdown
* > | [a](b ) c
* ^
* ```
*
* @type {State}
*/
function resourceBetween(code) {
if (code === 34 || code === 39 || code === 40) {
return factoryTitle(
effects,
resourceTitleAfter,
nok,
'resourceTitle',
'resourceTitleMarker',
'resourceTitleString'
)(code)
}
return resourceEnd(code)
}
/**
* In resource, after title, at optional whitespace.
*
* ```markdown
* > | [a](b "c") d
* ^
* ```
*
* @type {State}
*/
function resourceTitleAfter(code) {
return markdownLineEndingOrSpace(code)
? factoryWhitespace(effects, resourceEnd)(code)
: resourceEnd(code)
}
/**
* In resource, at `)`.
*
* ```markdown
* > | [a](b) d
* ^
* ```
*
* @type {State}
*/
function resourceEnd(code) {
if (code === 41) {
effects.enter('resourceMarker')
effects.consume(code)
effects.exit('resourceMarker')
effects.exit('resource')
return ok
}
return nok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeReferenceFull(effects, ok, nok) {
const self = this
return referenceFull
/**
* In a reference (full), at the `[`.
*
* ```markdown
* > | [a][b] d
* ^
* ```
*
* @type {State}
*/
function referenceFull(code) {
return factoryLabel.call(
self,
effects,
referenceFullAfter,
referenceFullMissing,
'reference',
'referenceMarker',
'referenceString'
)(code)
}
/**
* In a reference (full), after `]`.
*
* ```markdown
* > | [a][b] d
* ^
* ```
*
* @type {State}
*/
function referenceFullAfter(code) {
return self.parser.defined.includes(
normalizeIdentifier(
self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1)
)
)
? ok(code)
: nok(code)
}
/**
* In reference (full) that was missing.
*
* ```markdown
* > | [a][b d
* ^
* ```
*
* @type {State}
*/
function referenceFullMissing(code) {
return nok(code)
}
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeReferenceCollapsed(effects, ok, nok) {
return referenceCollapsedStart
/**
* In reference (collapsed), at `[`.
*
* > 👉 **Note**: we only get here if the label is defined.
*
* ```markdown
* > | [a][] d
* ^
* ```
*
* @type {State}
*/
function referenceCollapsedStart(code) {
// We only attempt a collapsed label if theres a `[`.
effects.enter('reference')
effects.enter('referenceMarker')
effects.consume(code)
effects.exit('referenceMarker')
return referenceCollapsedOpen
}
/**
* In reference (collapsed), at `]`.
*
* > 👉 **Note**: we only get here if the label is defined.
*
* ```markdown
* > | [a][] d
* ^
* ```
*
* @type {State}
*/
function referenceCollapsedOpen(code) {
if (code === 93) {
effects.enter('referenceMarker')
effects.consume(code)
effects.exit('referenceMarker')
effects.exit('reference')
return ok
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/label-start-image.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const labelStartImage = {
name: 'labelStartImage',
tokenize: tokenizeLabelStartImage,
resolveAll: labelEnd.resolveAll
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeLabelStartImage(effects, ok, nok) {
const self = this
return start
/**
* Start of label (image) start.
*
* ```markdown
* > | a ![b] c
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('labelImage')
effects.enter('labelImageMarker')
effects.consume(code)
effects.exit('labelImageMarker')
return open
}
/**
* After `!`, at `[`.
*
* ```markdown
* > | a ![b] c
* ^
* ```
*
* @type {State}
*/
function open(code) {
if (code === 91) {
effects.enter('labelMarker')
effects.consume(code)
effects.exit('labelMarker')
effects.exit('labelImage')
return after
}
return nok(code)
}
/**
* After `![`.
*
* ```markdown
* > | a ![b] c
* ^
* ```
*
* This is needed in because, when GFM footnotes are enabled, images never
* form when started with a `^`.
* Instead, links form:
*
* ```markdown
* ![^a](b)
*
* ![^a][b]
*
* [b]: c
* ```
*
* ```html
* <p>!<a href=\"b\">^a</a></p>
* <p>!<a href=\"c\">^a</a></p>
* ```
*
* @type {State}
*/
function after(code) {
// To do: use a new field to do this, this is still needed for
// `micromark-extension-gfm-footnote`, but the `label-start-link`
// behavior isnt.
// Hidden footnotes hook.
/* c8 ignore next 3 */
return code === 94 && '_hiddenFootnoteSupport' in self.parser.constructs
? nok(code)
: ok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-classify-character/index.js
/**
* @typedef {import('micromark-util-types').Code} Code
*/
/**
* Classify whether a code represents whitespace, punctuation, or something
* else.
*
* Used for attention (emphasis, strong), whose sequences can open or close
* based on the class of surrounding characters.
*
* > 👉 **Note**: eof (`null`) is seen as whitespace.
*
* @param {Code} code
* Code.
* @returns {typeof constants.characterGroupWhitespace | typeof constants.characterGroupPunctuation | undefined}
* Group.
*/
function classifyCharacter(code) {
if (
code === null ||
markdownLineEndingOrSpace(code) ||
unicodeWhitespace(code)
) {
return 1
}
if (unicodePunctuation(code)) {
return 2
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/attention.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Event} Event
* @typedef {import('micromark-util-types').Point} Point
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const attention = {
name: 'attention',
tokenize: tokenizeAttention,
resolveAll: resolveAllAttention
}
/**
* Take all events and resolve attention to emphasis or strong.
*
* @type {Resolver}
*/
function resolveAllAttention(events, context) {
let index = -1
/** @type {number} */
let open
/** @type {Token} */
let group
/** @type {Token} */
let text
/** @type {Token} */
let openingSequence
/** @type {Token} */
let closingSequence
/** @type {number} */
let use
/** @type {Array<Event>} */
let nextEvents
/** @type {number} */
let offset
// Walk through all events.
//
// Note: performance of this is fine on an mb of normal markdown, but its
// a bottleneck for malicious stuff.
while (++index < events.length) {
// Find a token that can close.
if (
events[index][0] === 'enter' &&
events[index][1].type === 'attentionSequence' &&
events[index][1]._close
) {
open = index
// Now walk back to find an opener.
while (open--) {
// Find a token that can open the closer.
if (
events[open][0] === 'exit' &&
events[open][1].type === 'attentionSequence' &&
events[open][1]._open &&
// If the markers are the same:
context.sliceSerialize(events[open][1]).charCodeAt(0) ===
context.sliceSerialize(events[index][1]).charCodeAt(0)
) {
// If the opening can close or the closing can open,
// and the close size *is not* a multiple of three,
// but the sum of the opening and closing size *is* multiple of three,
// then dont match.
if (
(events[open][1]._close || events[index][1]._open) &&
(events[index][1].end.offset - events[index][1].start.offset) % 3 &&
!(
(events[open][1].end.offset -
events[open][1].start.offset +
events[index][1].end.offset -
events[index][1].start.offset) %
3
)
) {
continue
}
// Number of markers to use from the sequence.
use =
events[open][1].end.offset - events[open][1].start.offset > 1 &&
events[index][1].end.offset - events[index][1].start.offset > 1
? 2
: 1
const start = Object.assign({}, events[open][1].end)
const end = Object.assign({}, events[index][1].start)
movePoint(start, -use)
movePoint(end, use)
openingSequence = {
type: use > 1 ? 'strongSequence' : 'emphasisSequence',
start,
end: Object.assign({}, events[open][1].end)
}
closingSequence = {
type: use > 1 ? 'strongSequence' : 'emphasisSequence',
start: Object.assign({}, events[index][1].start),
end
}
text = {
type: use > 1 ? 'strongText' : 'emphasisText',
start: Object.assign({}, events[open][1].end),
end: Object.assign({}, events[index][1].start)
}
group = {
type: use > 1 ? 'strong' : 'emphasis',
start: Object.assign({}, openingSequence.start),
end: Object.assign({}, closingSequence.end)
}
events[open][1].end = Object.assign({}, openingSequence.start)
events[index][1].start = Object.assign({}, closingSequence.end)
nextEvents = []
// If there are more markers in the opening, add them before.
if (events[open][1].end.offset - events[open][1].start.offset) {
nextEvents = push(nextEvents, [
['enter', events[open][1], context],
['exit', events[open][1], context]
])
}
// Opening.
nextEvents = push(nextEvents, [
['enter', group, context],
['enter', openingSequence, context],
['exit', openingSequence, context],
['enter', text, context]
])
// Always populated by defaults.
// Between.
nextEvents = push(
nextEvents,
resolveAll(
context.parser.constructs.insideSpan.null,
events.slice(open + 1, index),
context
)
)
// Closing.
nextEvents = push(nextEvents, [
['exit', text, context],
['enter', closingSequence, context],
['exit', closingSequence, context],
['exit', group, context]
])
// If there are more markers in the closing, add them after.
if (events[index][1].end.offset - events[index][1].start.offset) {
offset = 2
nextEvents = push(nextEvents, [
['enter', events[index][1], context],
['exit', events[index][1], context]
])
} else {
offset = 0
}
splice(events, open - 1, index - open + 3, nextEvents)
index = open + nextEvents.length - offset - 2
break
}
}
}
}
// Remove remaining sequences.
index = -1
while (++index < events.length) {
if (events[index][1].type === 'attentionSequence') {
events[index][1].type = 'data'
}
}
return events
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeAttention(effects, ok) {
const attentionMarkers = this.parser.constructs.attentionMarkers.null
const previous = this.previous
const before = classifyCharacter(previous)
/** @type {NonNullable<Code>} */
let marker
return start
/**
* Before a sequence.
*
* ```markdown
* > | **
* ^
* ```
*
* @type {State}
*/
function start(code) {
marker = code
effects.enter('attentionSequence')
return inside(code)
}
/**
* In a sequence.
*
* ```markdown
* > | **
* ^^
* ```
*
* @type {State}
*/
function inside(code) {
if (code === marker) {
effects.consume(code)
return inside
}
const token = effects.exit('attentionSequence')
// To do: next major: move this to resolver, just like `markdown-rs`.
const after = classifyCharacter(code)
// Always populated by defaults.
const open =
!after || (after === 2 && before) || attentionMarkers.includes(code)
const close =
!before || (before === 2 && after) || attentionMarkers.includes(previous)
token._open = Boolean(marker === 42 ? open : open && (before || !close))
token._close = Boolean(marker === 42 ? close : close && (after || !open))
return ok(code)
}
}
/**
* Move a point a bit.
*
* Note: `move` only works inside lines! Its not possible to move past other
* chunks (replacement characters, tabs, or line endings).
*
* @param {Point} point
* @param {number} offset
* @returns {void}
*/
function movePoint(point, offset) {
point.column += offset
point.offset += offset
point._bufferIndex += offset
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/autolink.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const autolink = {
name: 'autolink',
tokenize: tokenizeAutolink
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeAutolink(effects, ok, nok) {
let size = 0
return start
/**
* Start of an autolink.
*
* ```markdown
* > | a<https://example.com>b
* ^
* > | a<user@example.com>b
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('autolink')
effects.enter('autolinkMarker')
effects.consume(code)
effects.exit('autolinkMarker')
effects.enter('autolinkProtocol')
return open
}
/**
* After `<`, at protocol or atext.
*
* ```markdown
* > | a<https://example.com>b
* ^
* > | a<user@example.com>b
* ^
* ```
*
* @type {State}
*/
function open(code) {
if (asciiAlpha(code)) {
effects.consume(code)
return schemeOrEmailAtext
}
return emailAtext(code)
}
/**
* At second byte of protocol or atext.
*
* ```markdown
* > | a<https://example.com>b
* ^
* > | a<user@example.com>b
* ^
* ```
*
* @type {State}
*/
function schemeOrEmailAtext(code) {
// ASCII alphanumeric and `+`, `-`, and `.`.
if (code === 43 || code === 45 || code === 46 || asciiAlphanumeric(code)) {
// Count the previous alphabetical from `open` too.
size = 1
return schemeInsideOrEmailAtext(code)
}
return emailAtext(code)
}
/**
* In ambiguous protocol or atext.
*
* ```markdown
* > | a<https://example.com>b
* ^
* > | a<user@example.com>b
* ^
* ```
*
* @type {State}
*/
function schemeInsideOrEmailAtext(code) {
if (code === 58) {
effects.consume(code)
size = 0
return urlInside
}
// ASCII alphanumeric and `+`, `-`, and `.`.
if (
(code === 43 || code === 45 || code === 46 || asciiAlphanumeric(code)) &&
size++ < 32
) {
effects.consume(code)
return schemeInsideOrEmailAtext
}
size = 0
return emailAtext(code)
}
/**
* After protocol, in URL.
*
* ```markdown
* > | a<https://example.com>b
* ^
* ```
*
* @type {State}
*/
function urlInside(code) {
if (code === 62) {
effects.exit('autolinkProtocol')
effects.enter('autolinkMarker')
effects.consume(code)
effects.exit('autolinkMarker')
effects.exit('autolink')
return ok
}
// ASCII control, space, or `<`.
if (code === null || code === 32 || code === 60 || asciiControl(code)) {
return nok(code)
}
effects.consume(code)
return urlInside
}
/**
* In email atext.
*
* ```markdown
* > | a<user.name@example.com>b
* ^
* ```
*
* @type {State}
*/
function emailAtext(code) {
if (code === 64) {
effects.consume(code)
return emailAtSignOrDot
}
if (asciiAtext(code)) {
effects.consume(code)
return emailAtext
}
return nok(code)
}
/**
* In label, after at-sign or dot.
*
* ```markdown
* > | a<user.name@example.com>b
* ^ ^
* ```
*
* @type {State}
*/
function emailAtSignOrDot(code) {
return asciiAlphanumeric(code) ? emailLabel(code) : nok(code)
}
/**
* In label, where `.` and `>` are allowed.
*
* ```markdown
* > | a<user.name@example.com>b
* ^
* ```
*
* @type {State}
*/
function emailLabel(code) {
if (code === 46) {
effects.consume(code)
size = 0
return emailAtSignOrDot
}
if (code === 62) {
// Exit, then change the token type.
effects.exit('autolinkProtocol').type = 'autolinkEmail'
effects.enter('autolinkMarker')
effects.consume(code)
effects.exit('autolinkMarker')
effects.exit('autolink')
return ok
}
return emailValue(code)
}
/**
* In label, where `.` and `>` are *not* allowed.
*
* Though, this is also used in `emailLabel` to parse other values.
*
* ```markdown
* > | a<user.name@ex-ample.com>b
* ^
* ```
*
* @type {State}
*/
function emailValue(code) {
// ASCII alphanumeric or `-`.
if ((code === 45 || asciiAlphanumeric(code)) && size++ < 63) {
const next = code === 45 ? emailValue : emailLabel
effects.consume(code)
return next
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/html-text.js
/**
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const htmlText = {
name: 'htmlText',
tokenize: tokenizeHtmlText
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeHtmlText(effects, ok, nok) {
const self = this
/** @type {NonNullable<Code> | undefined} */
let marker
/** @type {number} */
let index
/** @type {State} */
let returnState
return start
/**
* Start of HTML (text).
*
* ```markdown
* > | a <b> c
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('htmlText')
effects.enter('htmlTextData')
effects.consume(code)
return open
}
/**
* After `<`, at tag name or other stuff.
*
* ```markdown
* > | a <b> c
* ^
* > | a <!doctype> c
* ^
* > | a <!--b--> c
* ^
* ```
*
* @type {State}
*/
function open(code) {
if (code === 33) {
effects.consume(code)
return declarationOpen
}
if (code === 47) {
effects.consume(code)
return tagCloseStart
}
if (code === 63) {
effects.consume(code)
return instruction
}
// ASCII alphabetical.
if (asciiAlpha(code)) {
effects.consume(code)
return tagOpen
}
return nok(code)
}
/**
* After `<!`, at declaration, comment, or CDATA.
*
* ```markdown
* > | a <!doctype> c
* ^
* > | a <!--b--> c
* ^
* > | a <![CDATA[>&<]]> c
* ^
* ```
*
* @type {State}
*/
function declarationOpen(code) {
if (code === 45) {
effects.consume(code)
return commentOpenInside
}
if (code === 91) {
effects.consume(code)
index = 0
return cdataOpenInside
}
if (asciiAlpha(code)) {
effects.consume(code)
return declaration
}
return nok(code)
}
/**
* In a comment, after `<!-`, at another `-`.
*
* ```markdown
* > | a <!--b--> c
* ^
* ```
*
* @type {State}
*/
function commentOpenInside(code) {
if (code === 45) {
effects.consume(code)
return commentEnd
}
return nok(code)
}
/**
* In comment.
*
* ```markdown
* > | a <!--b--> c
* ^
* ```
*
* @type {State}
*/
function comment(code) {
if (code === null) {
return nok(code)
}
if (code === 45) {
effects.consume(code)
return commentClose
}
if (markdownLineEnding(code)) {
returnState = comment
return lineEndingBefore(code)
}
effects.consume(code)
return comment
}
/**
* In comment, after `-`.
*
* ```markdown
* > | a <!--b--> c
* ^
* ```
*
* @type {State}
*/
function commentClose(code) {
if (code === 45) {
effects.consume(code)
return commentEnd
}
return comment(code)
}
/**
* In comment, after `--`.
*
* ```markdown
* > | a <!--b--> c
* ^
* ```
*
* @type {State}
*/
function commentEnd(code) {
return code === 62
? end(code)
: code === 45
? commentClose(code)
: comment(code)
}
/**
* After `<![`, in CDATA, expecting `CDATA[`.
*
* ```markdown
* > | a <![CDATA[>&<]]> b
* ^^^^^^
* ```
*
* @type {State}
*/
function cdataOpenInside(code) {
const value = 'CDATA['
if (code === value.charCodeAt(index++)) {
effects.consume(code)
return index === value.length ? cdata : cdataOpenInside
}
return nok(code)
}
/**
* In CDATA.
*
* ```markdown
* > | a <![CDATA[>&<]]> b
* ^^^
* ```
*
* @type {State}
*/
function cdata(code) {
if (code === null) {
return nok(code)
}
if (code === 93) {
effects.consume(code)
return cdataClose
}
if (markdownLineEnding(code)) {
returnState = cdata
return lineEndingBefore(code)
}
effects.consume(code)
return cdata
}
/**
* In CDATA, after `]`, at another `]`.
*
* ```markdown
* > | a <![CDATA[>&<]]> b
* ^
* ```
*
* @type {State}
*/
function cdataClose(code) {
if (code === 93) {
effects.consume(code)
return cdataEnd
}
return cdata(code)
}
/**
* In CDATA, after `]]`, at `>`.
*
* ```markdown
* > | a <![CDATA[>&<]]> b
* ^
* ```
*
* @type {State}
*/
function cdataEnd(code) {
if (code === 62) {
return end(code)
}
if (code === 93) {
effects.consume(code)
return cdataEnd
}
return cdata(code)
}
/**
* In declaration.
*
* ```markdown
* > | a <!b> c
* ^
* ```
*
* @type {State}
*/
function declaration(code) {
if (code === null || code === 62) {
return end(code)
}
if (markdownLineEnding(code)) {
returnState = declaration
return lineEndingBefore(code)
}
effects.consume(code)
return declaration
}
/**
* In instruction.
*
* ```markdown
* > | a <?b?> c
* ^
* ```
*
* @type {State}
*/
function instruction(code) {
if (code === null) {
return nok(code)
}
if (code === 63) {
effects.consume(code)
return instructionClose
}
if (markdownLineEnding(code)) {
returnState = instruction
return lineEndingBefore(code)
}
effects.consume(code)
return instruction
}
/**
* In instruction, after `?`, at `>`.
*
* ```markdown
* > | a <?b?> c
* ^
* ```
*
* @type {State}
*/
function instructionClose(code) {
return code === 62 ? end(code) : instruction(code)
}
/**
* After `</`, in closing tag, at tag name.
*
* ```markdown
* > | a </b> c
* ^
* ```
*
* @type {State}
*/
function tagCloseStart(code) {
// ASCII alphabetical.
if (asciiAlpha(code)) {
effects.consume(code)
return tagClose
}
return nok(code)
}
/**
* After `</x`, in a tag name.
*
* ```markdown
* > | a </b> c
* ^
* ```
*
* @type {State}
*/
function tagClose(code) {
// ASCII alphanumerical and `-`.
if (code === 45 || asciiAlphanumeric(code)) {
effects.consume(code)
return tagClose
}
return tagCloseBetween(code)
}
/**
* In closing tag, after tag name.
*
* ```markdown
* > | a </b> c
* ^
* ```
*
* @type {State}
*/
function tagCloseBetween(code) {
if (markdownLineEnding(code)) {
returnState = tagCloseBetween
return lineEndingBefore(code)
}
if (markdownSpace(code)) {
effects.consume(code)
return tagCloseBetween
}
return end(code)
}
/**
* After `<x`, in opening tag name.
*
* ```markdown
* > | a <b> c
* ^
* ```
*
* @type {State}
*/
function tagOpen(code) {
// ASCII alphanumerical and `-`.
if (code === 45 || asciiAlphanumeric(code)) {
effects.consume(code)
return tagOpen
}
if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) {
return tagOpenBetween(code)
}
return nok(code)
}
/**
* In opening tag, after tag name.
*
* ```markdown
* > | a <b> c
* ^
* ```
*
* @type {State}
*/
function tagOpenBetween(code) {
if (code === 47) {
effects.consume(code)
return end
}
// ASCII alphabetical and `:` and `_`.
if (code === 58 || code === 95 || asciiAlpha(code)) {
effects.consume(code)
return tagOpenAttributeName
}
if (markdownLineEnding(code)) {
returnState = tagOpenBetween
return lineEndingBefore(code)
}
if (markdownSpace(code)) {
effects.consume(code)
return tagOpenBetween
}
return end(code)
}
/**
* In attribute name.
*
* ```markdown
* > | a <b c> d
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeName(code) {
// ASCII alphabetical and `-`, `.`, `:`, and `_`.
if (
code === 45 ||
code === 46 ||
code === 58 ||
code === 95 ||
asciiAlphanumeric(code)
) {
effects.consume(code)
return tagOpenAttributeName
}
return tagOpenAttributeNameAfter(code)
}
/**
* After attribute name, before initializer, the end of the tag, or
* whitespace.
*
* ```markdown
* > | a <b c> d
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeNameAfter(code) {
if (code === 61) {
effects.consume(code)
return tagOpenAttributeValueBefore
}
if (markdownLineEnding(code)) {
returnState = tagOpenAttributeNameAfter
return lineEndingBefore(code)
}
if (markdownSpace(code)) {
effects.consume(code)
return tagOpenAttributeNameAfter
}
return tagOpenBetween(code)
}
/**
* Before unquoted, double quoted, or single quoted attribute value, allowing
* whitespace.
*
* ```markdown
* > | a <b c=d> e
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeValueBefore(code) {
if (
code === null ||
code === 60 ||
code === 61 ||
code === 62 ||
code === 96
) {
return nok(code)
}
if (code === 34 || code === 39) {
effects.consume(code)
marker = code
return tagOpenAttributeValueQuoted
}
if (markdownLineEnding(code)) {
returnState = tagOpenAttributeValueBefore
return lineEndingBefore(code)
}
if (markdownSpace(code)) {
effects.consume(code)
return tagOpenAttributeValueBefore
}
effects.consume(code)
return tagOpenAttributeValueUnquoted
}
/**
* In double or single quoted attribute value.
*
* ```markdown
* > | a <b c="d"> e
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeValueQuoted(code) {
if (code === marker) {
effects.consume(code)
marker = undefined
return tagOpenAttributeValueQuotedAfter
}
if (code === null) {
return nok(code)
}
if (markdownLineEnding(code)) {
returnState = tagOpenAttributeValueQuoted
return lineEndingBefore(code)
}
effects.consume(code)
return tagOpenAttributeValueQuoted
}
/**
* In unquoted attribute value.
*
* ```markdown
* > | a <b c=d> e
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeValueUnquoted(code) {
if (
code === null ||
code === 34 ||
code === 39 ||
code === 60 ||
code === 61 ||
code === 96
) {
return nok(code)
}
if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) {
return tagOpenBetween(code)
}
effects.consume(code)
return tagOpenAttributeValueUnquoted
}
/**
* After double or single quoted attribute value, before whitespace or the end
* of the tag.
*
* ```markdown
* > | a <b c="d"> e
* ^
* ```
*
* @type {State}
*/
function tagOpenAttributeValueQuotedAfter(code) {
if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) {
return tagOpenBetween(code)
}
return nok(code)
}
/**
* In certain circumstances of a tag where only an `>` is allowed.
*
* ```markdown
* > | a <b c="d"> e
* ^
* ```
*
* @type {State}
*/
function end(code) {
if (code === 62) {
effects.consume(code)
effects.exit('htmlTextData')
effects.exit('htmlText')
return ok
}
return nok(code)
}
/**
* At eol.
*
* > 👉 **Note**: we cant have blank lines in text, so no need to worry about
* > empty tokens.
*
* ```markdown
* > | a <!--a
* ^
* | b-->
* ```
*
* @type {State}
*/
function lineEndingBefore(code) {
effects.exit('htmlTextData')
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return lineEndingAfter
}
/**
* After eol, at optional whitespace.
*
* > 👉 **Note**: we cant have blank lines in text, so no need to worry about
* > empty tokens.
*
* ```markdown
* | a <!--a
* > | b-->
* ^
* ```
*
* @type {State}
*/
function lineEndingAfter(code) {
// Always populated by defaults.
return markdownSpace(code)
? factorySpace(
effects,
lineEndingAfterPrefix,
'linePrefix',
self.parser.constructs.disable.null.includes('codeIndented')
? undefined
: 4
)(code)
: lineEndingAfterPrefix(code)
}
/**
* After eol, after optional whitespace.
*
* > 👉 **Note**: we cant have blank lines in text, so no need to worry about
* > empty tokens.
*
* ```markdown
* | a <!--a
* > | b-->
* ^
* ```
*
* @type {State}
*/
function lineEndingAfterPrefix(code) {
effects.enter('htmlTextData')
return returnState(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/label-start-link.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const labelStartLink = {
name: 'labelStartLink',
tokenize: tokenizeLabelStartLink,
resolveAll: labelEnd.resolveAll
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeLabelStartLink(effects, ok, nok) {
const self = this
return start
/**
* Start of label (link) start.
*
* ```markdown
* > | a [b] c
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('labelLink')
effects.enter('labelMarker')
effects.consume(code)
effects.exit('labelMarker')
effects.exit('labelLink')
return after
}
/** @type {State} */
function after(code) {
// To do: this isnt needed in `micromark-extension-gfm-footnote`,
// remove.
// Hidden footnotes hook.
/* c8 ignore next 3 */
return code === 94 && '_hiddenFootnoteSupport' in self.parser.constructs
? nok(code)
: ok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/hard-break-escape.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const hardBreakEscape = {
name: 'hardBreakEscape',
tokenize: tokenizeHardBreakEscape
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeHardBreakEscape(effects, ok, nok) {
return start
/**
* Start of a hard break (escape).
*
* ```markdown
* > | a\
* ^
* | b
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('hardBreakEscape')
effects.consume(code)
return after
}
/**
* After `\`, at eol.
*
* ```markdown
* > | a\
* ^
* | b
* ```
*
* @type {State}
*/
function after(code) {
if (markdownLineEnding(code)) {
effects.exit('hardBreakEscape')
return ok(code)
}
return nok(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-core-commonmark/lib/code-text.js
/**
* @typedef {import('micromark-util-types').Construct} Construct
* @typedef {import('micromark-util-types').Previous} Previous
* @typedef {import('micromark-util-types').Resolver} Resolver
* @typedef {import('micromark-util-types').State} State
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Tokenizer} Tokenizer
*/
/** @type {Construct} */
const codeText = {
name: 'codeText',
tokenize: tokenizeCodeText,
resolve: resolveCodeText,
previous
}
// To do: next major: dont resolve, like `markdown-rs`.
/** @type {Resolver} */
function resolveCodeText(events) {
let tailExitIndex = events.length - 4
let headEnterIndex = 3
/** @type {number} */
let index
/** @type {number | undefined} */
let enter
// If we start and end with an EOL or a space.
if (
(events[headEnterIndex][1].type === 'lineEnding' ||
events[headEnterIndex][1].type === 'space') &&
(events[tailExitIndex][1].type === 'lineEnding' ||
events[tailExitIndex][1].type === 'space')
) {
index = headEnterIndex
// And we have data.
while (++index < tailExitIndex) {
if (events[index][1].type === 'codeTextData') {
// Then we have padding.
events[headEnterIndex][1].type = 'codeTextPadding'
events[tailExitIndex][1].type = 'codeTextPadding'
headEnterIndex += 2
tailExitIndex -= 2
break
}
}
}
// Merge adjacent spaces and data.
index = headEnterIndex - 1
tailExitIndex++
while (++index <= tailExitIndex) {
if (enter === undefined) {
if (index !== tailExitIndex && events[index][1].type !== 'lineEnding') {
enter = index
}
} else if (
index === tailExitIndex ||
events[index][1].type === 'lineEnding'
) {
events[enter][1].type = 'codeTextData'
if (index !== enter + 2) {
events[enter][1].end = events[index - 1][1].end
events.splice(enter + 2, index - enter - 2)
tailExitIndex -= index - enter - 2
index = enter + 2
}
enter = undefined
}
}
return events
}
/**
* @this {TokenizeContext}
* @type {Previous}
*/
function previous(code) {
// If there is a previous code, there will always be a tail.
return (
code !== 96 ||
this.events[this.events.length - 1][1].type === 'characterEscape'
)
}
/**
* @this {TokenizeContext}
* @type {Tokenizer}
*/
function tokenizeCodeText(effects, ok, nok) {
const self = this
let sizeOpen = 0
/** @type {number} */
let size
/** @type {Token} */
let token
return start
/**
* Start of code (text).
*
* ```markdown
* > | `a`
* ^
* > | \`a`
* ^
* ```
*
* @type {State}
*/
function start(code) {
effects.enter('codeText')
effects.enter('codeTextSequence')
return sequenceOpen(code)
}
/**
* In opening sequence.
*
* ```markdown
* > | `a`
* ^
* ```
*
* @type {State}
*/
function sequenceOpen(code) {
if (code === 96) {
effects.consume(code)
sizeOpen++
return sequenceOpen
}
effects.exit('codeTextSequence')
return between(code)
}
/**
* Between something and something else.
*
* ```markdown
* > | `a`
* ^^
* ```
*
* @type {State}
*/
function between(code) {
// EOF.
if (code === null) {
return nok(code)
}
// To do: next major: dont do spaces in resolve, but when compiling,
// like `markdown-rs`.
// Tabs dont work, and virtual spaces dont make sense.
if (code === 32) {
effects.enter('space')
effects.consume(code)
effects.exit('space')
return between
}
// Closing fence? Could also be data.
if (code === 96) {
token = effects.enter('codeTextSequence')
size = 0
return sequenceClose(code)
}
if (markdownLineEnding(code)) {
effects.enter('lineEnding')
effects.consume(code)
effects.exit('lineEnding')
return between
}
// Data.
effects.enter('codeTextData')
return data(code)
}
/**
* In data.
*
* ```markdown
* > | `a`
* ^
* ```
*
* @type {State}
*/
function data(code) {
if (
code === null ||
code === 32 ||
code === 96 ||
markdownLineEnding(code)
) {
effects.exit('codeTextData')
return between(code)
}
effects.consume(code)
return data
}
/**
* In closing sequence.
*
* ```markdown
* > | `a`
* ^
* ```
*
* @type {State}
*/
function sequenceClose(code) {
// More.
if (code === 96) {
effects.consume(code)
size++
return sequenceClose
}
// Done!
if (size === sizeOpen) {
effects.exit('codeTextSequence')
effects.exit('codeText')
return ok(code)
}
// More or less accents: mark as data.
token.type = 'codeTextData'
return data(code)
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/constructs.js
/**
* @typedef {import('micromark-util-types').Extension} Extension
*/
/** @satisfies {Extension['document']} */
const constructs_document = {
[42]: list,
[43]: list,
[45]: list,
[48]: list,
[49]: list,
[50]: list,
[51]: list,
[52]: list,
[53]: list,
[54]: list,
[55]: list,
[56]: list,
[57]: list,
[62]: blockQuote
}
/** @satisfies {Extension['contentInitial']} */
const contentInitial = {
[91]: definition
}
/** @satisfies {Extension['flowInitial']} */
const flowInitial = {
[-2]: codeIndented,
[-1]: codeIndented,
[32]: codeIndented
}
/** @satisfies {Extension['flow']} */
const constructs_flow = {
[35]: headingAtx,
[42]: thematicBreak,
[45]: [setextUnderline, thematicBreak],
[60]: htmlFlow,
[61]: setextUnderline,
[95]: thematicBreak,
[96]: codeFenced,
[126]: codeFenced
}
/** @satisfies {Extension['string']} */
const constructs_string = {
[38]: characterReference,
[92]: characterEscape
}
/** @satisfies {Extension['text']} */
const constructs_text = {
[-5]: lineEnding,
[-4]: lineEnding,
[-3]: lineEnding,
[33]: labelStartImage,
[38]: characterReference,
[42]: attention,
[60]: [autolink, htmlText],
[91]: labelStartLink,
[92]: [hardBreakEscape, characterEscape],
[93]: labelEnd,
[95]: attention,
[96]: codeText
}
/** @satisfies {Extension['insideSpan']} */
const insideSpan = {
null: [attention, resolver]
}
/** @satisfies {Extension['attentionMarkers']} */
const attentionMarkers = {
null: [42, 95]
}
/** @satisfies {Extension['disable']} */
const disable = {
null: []
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/parse.js
/**
* @typedef {import('micromark-util-types').Create} Create
* @typedef {import('micromark-util-types').FullNormalizedExtension} FullNormalizedExtension
* @typedef {import('micromark-util-types').InitialConstruct} InitialConstruct
* @typedef {import('micromark-util-types').ParseContext} ParseContext
* @typedef {import('micromark-util-types').ParseOptions} ParseOptions
*/
/**
* @param {ParseOptions | null | undefined} [options]
* @returns {ParseContext}
*/
function parse(options) {
const settings = options || {}
const constructs =
/** @type {FullNormalizedExtension} */
combineExtensions([constructs_namespaceObject, ...(settings.extensions || [])])
/** @type {ParseContext} */
const parser = {
defined: [],
lazy: {},
constructs,
content: create(content),
document: create(document_document),
flow: create(flow),
string: create(string),
text: create(text_text)
}
return parser
/**
* @param {InitialConstruct} initial
*/
function create(initial) {
return creator
/** @type {Create} */
function creator(from) {
return createTokenizer(parser, initial, from)
}
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/preprocess.js
/**
* @typedef {import('micromark-util-types').Chunk} Chunk
* @typedef {import('micromark-util-types').Code} Code
* @typedef {import('micromark-util-types').Encoding} Encoding
* @typedef {import('micromark-util-types').Value} Value
*/
/**
* @callback Preprocessor
* @param {Value} value
* @param {Encoding | null | undefined} [encoding]
* @param {boolean | null | undefined} [end=false]
* @returns {Array<Chunk>}
*/
const search = /[\0\t\n\r]/g
/**
* @returns {Preprocessor}
*/
function preprocess() {
let column = 1
let buffer = ''
/** @type {boolean | undefined} */
let start = true
/** @type {boolean | undefined} */
let atCarriageReturn
return preprocessor
/** @type {Preprocessor} */
function preprocessor(value, encoding, end) {
/** @type {Array<Chunk>} */
const chunks = []
/** @type {RegExpMatchArray | null} */
let match
/** @type {number} */
let next
/** @type {number} */
let startPosition
/** @type {number} */
let endPosition
/** @type {Code} */
let code
// @ts-expect-error `Buffer` does allow an encoding.
value = buffer + value.toString(encoding)
startPosition = 0
buffer = ''
if (start) {
// To do: `markdown-rs` actually parses BOMs (byte order mark).
if (value.charCodeAt(0) === 65279) {
startPosition++
}
start = undefined
}
while (startPosition < value.length) {
search.lastIndex = startPosition
match = search.exec(value)
endPosition =
match && match.index !== undefined ? match.index : value.length
code = value.charCodeAt(endPosition)
if (!match) {
buffer = value.slice(startPosition)
break
}
if (code === 10 && startPosition === endPosition && atCarriageReturn) {
chunks.push(-3)
atCarriageReturn = undefined
} else {
if (atCarriageReturn) {
chunks.push(-5)
atCarriageReturn = undefined
}
if (startPosition < endPosition) {
chunks.push(value.slice(startPosition, endPosition))
column += endPosition - startPosition
}
switch (code) {
case 0: {
chunks.push(65533)
column++
break
}
case 9: {
next = Math.ceil(column / 4) * 4
chunks.push(-2)
while (column++ < next) chunks.push(-1)
break
}
case 10: {
chunks.push(-4)
column = 1
break
}
default: {
atCarriageReturn = true
column = 1
}
}
}
startPosition = endPosition + 1
}
if (end) {
if (atCarriageReturn) chunks.push(-5)
if (buffer) chunks.push(buffer)
chunks.push(null)
}
return chunks
}
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark/lib/postprocess.js
/**
* @typedef {import('micromark-util-types').Event} Event
*/
/**
* @param {Array<Event>} events
* @returns {Array<Event>}
*/
function postprocess(events) {
while (!subtokenize(events)) {
// Empty
}
return events
}
;// CONCATENATED MODULE: ./node_modules/micromark-util-decode-numeric-character-reference/index.js
/**
* Turn the number (in string form as either hexa- or plain decimal) coming from
* a numeric character reference into a character.
*
* Sort of like `String.fromCharCode(Number.parseInt(value, base))`, but makes
* non-characters and control characters safe.
*
* @param {string} value
* Value to decode.
* @param {number} base
* Numeric base.
* @returns {string}
* Character.
*/
function decodeNumericCharacterReference(value, base) {
const code = Number.parseInt(value, base)
if (
// C0 except for HT, LF, FF, CR, space.
code < 9 ||
code === 11 ||
(code > 13 && code < 32) ||
// Control character (DEL) of C0, and C1 controls.
(code > 126 && code < 160) ||
// Lone high surrogates and low surrogates.
(code > 55295 && code < 57344) ||
// Noncharacters.
(code > 64975 && code < 65008) /* eslint-disable no-bitwise */ ||
(code & 65535) === 65535 ||
(code & 65535) === 65534 /* eslint-enable no-bitwise */ ||
// Out of range
code > 1114111
) {
return '\uFFFD'
}
return String.fromCharCode(code)
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/micromark-util-decode-string/index.js
const characterEscapeOrReference =
/\\([!-/:-@[-`{-~])|&(#(?:\d{1,7}|x[\da-f]{1,6})|[\da-z]{1,31});/gi
/**
* Decode markdown strings (which occur in places such as fenced code info
* strings, destinations, labels, and titles).
*
* The string content type allows character escapes and -references.
* This decodes those.
*
* @param {string} value
* Value to decode.
* @returns {string}
* Decoded value.
*/
function decodeString(value) {
return value.replace(characterEscapeOrReference, decode)
}
/**
* @param {string} $0
* @param {string} $1
* @param {string} $2
* @returns {string}
*/
function decode($0, $1, $2) {
if ($1) {
// Escape.
return $1
}
// Reference.
const head = $2.charCodeAt(0)
if (head === 35) {
const head = $2.charCodeAt(1)
const hex = head === 120 || head === 88
return decodeNumericCharacterReference($2.slice(hex ? 2 : 1), hex ? 16 : 10)
}
return decodeNamedCharacterReference($2) || $0
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/unist-util-stringify-position/lib/index.js
/**
* @typedef {import('unist').Node} Node
* @typedef {import('unist').Point} Point
* @typedef {import('unist').Position} Position
*/
/**
* @typedef NodeLike
* @property {string} type
* @property {PositionLike | null | undefined} [position]
*
* @typedef PositionLike
* @property {PointLike | null | undefined} [start]
* @property {PointLike | null | undefined} [end]
*
* @typedef PointLike
* @property {number | null | undefined} [line]
* @property {number | null | undefined} [column]
* @property {number | null | undefined} [offset]
*/
/**
* Serialize the positional info of a point, position (start and end points),
* or node.
*
* @param {Node | NodeLike | Position | PositionLike | Point | PointLike | null | undefined} [value]
* Node, position, or point.
* @returns {string}
* Pretty printed positional info of a node (`string`).
*
* In the format of a range `ls:cs-le:ce` (when given `node` or `position`)
* or a point `l:c` (when given `point`), where `l` stands for line, `c` for
* column, `s` for `start`, and `e` for end.
* An empty string (`''`) is returned if the given value is neither `node`,
* `position`, nor `point`.
*/
function stringifyPosition(value) {
// Nothing.
if (!value || typeof value !== 'object') {
return ''
}
// Node.
if ('position' in value || 'type' in value) {
return position(value.position)
}
// Position.
if ('start' in value || 'end' in value) {
return position(value)
}
// Point.
if ('line' in value || 'column' in value) {
return point(value)
}
// ?
return ''
}
/**
* @param {Point | PointLike | null | undefined} point
* @returns {string}
*/
function point(point) {
return index(point && point.line) + ':' + index(point && point.column)
}
/**
* @param {Position | PositionLike | null | undefined} pos
* @returns {string}
*/
function position(pos) {
return point(pos && pos.start) + '-' + point(pos && pos.end)
}
/**
* @param {number | null | undefined} value
* @returns {number}
*/
function index(value) {
return value && typeof value === 'number' ? value : 1
}
;// CONCATENATED MODULE: ./node_modules/mermaid/node_modules/mdast-util-from-markdown/lib/index.js
/**
* @typedef {import('micromark-util-types').Encoding} Encoding
* @typedef {import('micromark-util-types').Event} Event
* @typedef {import('micromark-util-types').ParseOptions} ParseOptions
* @typedef {import('micromark-util-types').Token} Token
* @typedef {import('micromark-util-types').TokenizeContext} TokenizeContext
* @typedef {import('micromark-util-types').Value} Value
*
* @typedef {import('unist').Parent} UnistParent
* @typedef {import('unist').Point} Point
*
* @typedef {import('mdast').PhrasingContent} PhrasingContent
* @typedef {import('mdast').StaticPhrasingContent} StaticPhrasingContent
* @typedef {import('mdast').Content} Content
* @typedef {import('mdast').Break} Break
* @typedef {import('mdast').Blockquote} Blockquote
* @typedef {import('mdast').Code} Code
* @typedef {import('mdast').Definition} Definition
* @typedef {import('mdast').Emphasis} Emphasis
* @typedef {import('mdast').Heading} Heading
* @typedef {import('mdast').HTML} HTML
* @typedef {import('mdast').Image} Image
* @typedef {import('mdast').ImageReference} ImageReference
* @typedef {import('mdast').InlineCode} InlineCode
* @typedef {import('mdast').Link} Link
* @typedef {import('mdast').LinkReference} LinkReference
* @typedef {import('mdast').List} List
* @typedef {import('mdast').ListItem} ListItem
* @typedef {import('mdast').Paragraph} Paragraph
* @typedef {import('mdast').Root} Root
* @typedef {import('mdast').Strong} Strong
* @typedef {import('mdast').Text} Text
* @typedef {import('mdast').ThematicBreak} ThematicBreak
* @typedef {import('mdast').ReferenceType} ReferenceType
* @typedef {import('../index.js').CompileData} CompileData
*/
/**
* @typedef {Root | Content} Node
* @typedef {Extract<Node, UnistParent>} Parent
*
* @typedef {Omit<UnistParent, 'type' | 'children'> & {type: 'fragment', children: Array<PhrasingContent>}} Fragment
*/
/**
* @callback Transform
* Extra transform, to change the AST afterwards.
* @param {Root} tree
* Tree to transform.
* @returns {Root | undefined | null | void}
* New tree or nothing (in which case the current tree is used).
*
* @callback Handle
* Handle a token.
* @param {CompileContext} this
* Context.
* @param {Token} token
* Current token.
* @returns {void}
* Nothing.
*
* @typedef {Record<string, Handle>} Handles
* Token types mapping to handles
*
* @callback OnEnterError
* Handle the case where the `right` token is open, but it is closed (by the
* `left` token) or because we reached the end of the document.
* @param {Omit<CompileContext, 'sliceSerialize'>} this
* Context.
* @param {Token | undefined} left
* Left token.
* @param {Token} right
* Right token.
* @returns {void}
* Nothing.
*
* @callback OnExitError
* Handle the case where the `right` token is open but it is closed by
* exiting the `left` token.
* @param {Omit<CompileContext, 'sliceSerialize'>} this
* Context.
* @param {Token} left
* Left token.
* @param {Token} right
* Right token.
* @returns {void}
* Nothing.
*
* @typedef {[Token, OnEnterError | undefined]} TokenTuple
* Open token on the stack, with an optional error handler for when
* that token isnt closed properly.
*/
/**
* @typedef Config
* Configuration.
*
* We have our defaults, but extensions will add more.
* @property {Array<string>} canContainEols
* Token types where line endings are used.
* @property {Handles} enter
* Opening handles.
* @property {Handles} exit
* Closing handles.
* @property {Array<Transform>} transforms
* Tree transforms.
*
* @typedef {Partial<Config>} Extension
* Change how markdown tokens from micromark are turned into mdast.
*
* @typedef CompileContext
* mdast compiler context.
* @property {Array<Node | Fragment>} stack
* Stack of nodes.
* @property {Array<TokenTuple>} tokenStack
* Stack of tokens.
* @property {<Key extends keyof CompileData>(key: Key) => CompileData[Key]} getData
* Get data from the key/value store.
* @property {<Key extends keyof CompileData>(key: Key, value?: CompileData[Key]) => void} setData
* Set data into the key/value store.
* @property {(this: CompileContext) => void} buffer
* Capture some of the output data.
* @property {(this: CompileContext) => string} resume
* Stop capturing and access the output data.
* @property {<Kind extends Node>(this: CompileContext, node: Kind, token: Token, onError?: OnEnterError) => Kind} enter
* Enter a token.
* @property {(this: CompileContext, token: Token, onError?: OnExitError) => Node} exit
* Exit a token.
* @property {TokenizeContext['sliceSerialize']} sliceSerialize
* Get the string value of a token.
* @property {Config} config
* Configuration.
*
* @typedef FromMarkdownOptions
* Configuration for how to build mdast.
* @property {Array<Extension | Array<Extension>> | null | undefined} [mdastExtensions]
* Extensions for this utility to change how tokens are turned into a tree.
*
* @typedef {ParseOptions & FromMarkdownOptions} Options
* Configuration.
*/
// To do: micromark: create a registry of tokens?
// To do: next major: dont return given `Node` from `enter`.
// To do: next major: remove setter/getter.
const lib_own = {}.hasOwnProperty
/**
* @param value
* Markdown to parse.
* @param encoding
* Character encoding for when `value` is `Buffer`.
* @param options
* Configuration.
* @returns
* mdast tree.
*/
const fromMarkdown =
/**
* @type {(
* ((value: Value, encoding: Encoding, options?: Options | null | undefined) => Root) &
* ((value: Value, options?: Options | null | undefined) => Root)
* )}
*/
/**
* @param {Value} value
* @param {Encoding | Options | null | undefined} [encoding]
* @param {Options | null | undefined} [options]
* @returns {Root}
*/
function (value, encoding, options) {
if (typeof encoding !== 'string') {
options = encoding
encoding = undefined
}
return compiler(options)(
postprocess(
parse(options).document().write(preprocess()(value, encoding, true))
)
)
}
/**
* Note this compiler only understand complete buffering, not streaming.
*
* @param {Options | null | undefined} [options]
*/
function compiler(options) {
/** @type {Config} */
const config = {
transforms: [],
canContainEols: ['emphasis', 'fragment', 'heading', 'paragraph', 'strong'],
enter: {
autolink: opener(link),
autolinkProtocol: onenterdata,
autolinkEmail: onenterdata,
atxHeading: opener(heading),
blockQuote: opener(blockQuote),
characterEscape: onenterdata,
characterReference: onenterdata,
codeFenced: opener(codeFlow),
codeFencedFenceInfo: buffer,
codeFencedFenceMeta: buffer,
codeIndented: opener(codeFlow, buffer),
codeText: opener(codeText, buffer),
codeTextData: onenterdata,
data: onenterdata,
codeFlowValue: onenterdata,
definition: opener(definition),
definitionDestinationString: buffer,
definitionLabelString: buffer,
definitionTitleString: buffer,
emphasis: opener(emphasis),
hardBreakEscape: opener(hardBreak),
hardBreakTrailing: opener(hardBreak),
htmlFlow: opener(html, buffer),
htmlFlowData: onenterdata,
htmlText: opener(html, buffer),
htmlTextData: onenterdata,
image: opener(image),
label: buffer,
link: opener(link),
listItem: opener(listItem),
listItemValue: onenterlistitemvalue,
listOrdered: opener(list, onenterlistordered),
listUnordered: opener(list),
paragraph: opener(paragraph),
reference: onenterreference,
referenceString: buffer,
resourceDestinationString: buffer,
resourceTitleString: buffer,
setextHeading: opener(heading),
strong: opener(strong),
thematicBreak: opener(thematicBreak)
},
exit: {
atxHeading: closer(),
atxHeadingSequence: onexitatxheadingsequence,
autolink: closer(),
autolinkEmail: onexitautolinkemail,
autolinkProtocol: onexitautolinkprotocol,
blockQuote: closer(),
characterEscapeValue: onexitdata,
characterReferenceMarkerHexadecimal: onexitcharacterreferencemarker,
characterReferenceMarkerNumeric: onexitcharacterreferencemarker,
characterReferenceValue: onexitcharacterreferencevalue,
codeFenced: closer(onexitcodefenced),
codeFencedFence: onexitcodefencedfence,
codeFencedFenceInfo: onexitcodefencedfenceinfo,
codeFencedFenceMeta: onexitcodefencedfencemeta,
codeFlowValue: onexitdata,
codeIndented: closer(onexitcodeindented),
codeText: closer(onexitcodetext),
codeTextData: onexitdata,
data: onexitdata,
definition: closer(),
definitionDestinationString: onexitdefinitiondestinationstring,
definitionLabelString: onexitdefinitionlabelstring,
definitionTitleString: onexitdefinitiontitlestring,
emphasis: closer(),
hardBreakEscape: closer(onexithardbreak),
hardBreakTrailing: closer(onexithardbreak),
htmlFlow: closer(onexithtmlflow),
htmlFlowData: onexitdata,
htmlText: closer(onexithtmltext),
htmlTextData: onexitdata,
image: closer(onexitimage),
label: onexitlabel,
labelText: onexitlabeltext,
lineEnding: onexitlineending,
link: closer(onexitlink),
listItem: closer(),
listOrdered: closer(),
listUnordered: closer(),
paragraph: closer(),
referenceString: onexitreferencestring,
resourceDestinationString: onexitresourcedestinationstring,
resourceTitleString: onexitresourcetitlestring,
resource: onexitresource,
setextHeading: closer(onexitsetextheading),
setextHeadingLineSequence: onexitsetextheadinglinesequence,
setextHeadingText: onexitsetextheadingtext,
strong: closer(),
thematicBreak: closer()
}
}
configure(config, (options || {}).mdastExtensions || [])
/** @type {CompileData} */
const data = {}
return compile
/**
* Turn micromark events into an mdast tree.
*
* @param {Array<Event>} events
* Events.
* @returns {Root}
* mdast tree.
*/
function compile(events) {
/** @type {Root} */
let tree = {
type: 'root',
children: []
}
/** @type {Omit<CompileContext, 'sliceSerialize'>} */
const context = {
stack: [tree],
tokenStack: [],
config,
enter,
exit,
buffer,
resume,
setData,
getData
}
/** @type {Array<number>} */
const listStack = []
let index = -1
while (++index < events.length) {
// We preprocess lists to add `listItem` tokens, and to infer whether
// items the list itself are spread out.
if (
events[index][1].type === 'listOrdered' ||
events[index][1].type === 'listUnordered'
) {
if (events[index][0] === 'enter') {
listStack.push(index)
} else {
const tail = listStack.pop()
index = prepareList(events, tail, index)
}
}
}
index = -1
while (++index < events.length) {
const handler = config[events[index][0]]
if (lib_own.call(handler, events[index][1].type)) {
handler[events[index][1].type].call(
Object.assign(
{
sliceSerialize: events[index][2].sliceSerialize
},
context
),
events[index][1]
)
}
}
// Handle tokens still being open.
if (context.tokenStack.length > 0) {
const tail = context.tokenStack[context.tokenStack.length - 1]
const handler = tail[1] || defaultOnError
handler.call(context, undefined, tail[0])
}
// Figure out `root` position.
tree.position = {
start: lib_point(
events.length > 0
? events[0][1].start
: {
line: 1,
column: 1,
offset: 0
}
),
end: lib_point(
events.length > 0
? events[events.length - 2][1].end
: {
line: 1,
column: 1,
offset: 0
}
)
}
// Call transforms.
index = -1
while (++index < config.transforms.length) {
tree = config.transforms[index](tree) || tree
}
return tree
}
/**
* @param {Array<Event>} events
* @param {number} start
* @param {number} length
* @returns {number}
*/
function prepareList(events, start, length) {
let index = start - 1
let containerBalance = -1
let listSpread = false
/** @type {Token | undefined} */
let listItem
/** @type {number | undefined} */
let lineIndex
/** @type {number | undefined} */
let firstBlankLineIndex
/** @type {boolean | undefined} */
let atMarker
while (++index <= length) {
const event = events[index]
if (
event[1].type === 'listUnordered' ||
event[1].type === 'listOrdered' ||
event[1].type === 'blockQuote'
) {
if (event[0] === 'enter') {
containerBalance++
} else {
containerBalance--
}
atMarker = undefined
} else if (event[1].type === 'lineEndingBlank') {
if (event[0] === 'enter') {
if (
listItem &&
!atMarker &&
!containerBalance &&
!firstBlankLineIndex
) {
firstBlankLineIndex = index
}
atMarker = undefined
}
} else if (
event[1].type === 'linePrefix' ||
event[1].type === 'listItemValue' ||
event[1].type === 'listItemMarker' ||
event[1].type === 'listItemPrefix' ||
event[1].type === 'listItemPrefixWhitespace'
) {
// Empty.
} else {
atMarker = undefined
}
if (
(!containerBalance &&
event[0] === 'enter' &&
event[1].type === 'listItemPrefix') ||
(containerBalance === -1 &&
event[0] === 'exit' &&
(event[1].type === 'listUnordered' ||
event[1].type === 'listOrdered'))
) {
if (listItem) {
let tailIndex = index
lineIndex = undefined
while (tailIndex--) {
const tailEvent = events[tailIndex]
if (
tailEvent[1].type === 'lineEnding' ||
tailEvent[1].type === 'lineEndingBlank'
) {
if (tailEvent[0] === 'exit') continue
if (lineIndex) {
events[lineIndex][1].type = 'lineEndingBlank'
listSpread = true
}
tailEvent[1].type = 'lineEnding'
lineIndex = tailIndex
} else if (
tailEvent[1].type === 'linePrefix' ||
tailEvent[1].type === 'blockQuotePrefix' ||
tailEvent[1].type === 'blockQuotePrefixWhitespace' ||
tailEvent[1].type === 'blockQuoteMarker' ||
tailEvent[1].type === 'listItemIndent'
) {
// Empty
} else {
break
}
}
if (
firstBlankLineIndex &&
(!lineIndex || firstBlankLineIndex < lineIndex)
) {
listItem._spread = true
}
// Fix position.
listItem.end = Object.assign(
{},
lineIndex ? events[lineIndex][1].start : event[1].end
)
events.splice(lineIndex || index, 0, ['exit', listItem, event[2]])
index++
length++
}
// Create a new list item.
if (event[1].type === 'listItemPrefix') {
listItem = {
type: 'listItem',
_spread: false,
start: Object.assign({}, event[1].start),
// @ts-expect-error: well add `end` in a second.
end: undefined
}
// @ts-expect-error: `listItem` is most definitely defined, TS...
events.splice(index, 0, ['enter', listItem, event[2]])
index++
length++
firstBlankLineIndex = undefined
atMarker = true
}
}
}
events[start][1]._spread = listSpread
return length
}
/**
* Set data.
*
* @template {keyof CompileData} Key
* Field type.
* @param {Key} key
* Key of field.
* @param {CompileData[Key]} [value]
* New value.
* @returns {void}
* Nothing.
*/
function setData(key, value) {
data[key] = value
}
/**
* Get data.
*
* @template {keyof CompileData} Key
* Field type.
* @param {Key} key
* Key of field.
* @returns {CompileData[Key]}
* Value.
*/
function getData(key) {
return data[key]
}
/**
* Create an opener handle.
*
* @param {(token: Token) => Node} create
* Create a node.
* @param {Handle} [and]
* Optional function to also run.
* @returns {Handle}
* Handle.
*/
function opener(create, and) {
return open
/**
* @this {CompileContext}
* @param {Token} token
* @returns {void}
*/
function open(token) {
enter.call(this, create(token), token)
if (and) and.call(this, token)
}
}
/**
* @this {CompileContext}
* @returns {void}
*/
function buffer() {
this.stack.push({
type: 'fragment',
children: []
})
}
/**
* @template {Node} Kind
* Node type.
* @this {CompileContext}
* Context.
* @param {Kind} node
* Node to enter.
* @param {Token} token
* Corresponding token.
* @param {OnEnterError | undefined} [errorHandler]
* Handle the case where this token is open, but it is closed by something else.
* @returns {Kind}
* The given node.
*/
function enter(node, token, errorHandler) {
const parent = this.stack[this.stack.length - 1]
// @ts-expect-error: Assume `Node` can exist as a child of `parent`.
parent.children.push(node)
this.stack.push(node)
this.tokenStack.push([token, errorHandler])
// @ts-expect-error: `end` will be patched later.
node.position = {
start: lib_point(token.start)
}
return node
}
/**
* Create a closer handle.
*
* @param {Handle} [and]
* Optional function to also run.
* @returns {Handle}
* Handle.
*/
function closer(and) {
return close
/**
* @this {CompileContext}
* @param {Token} token
* @returns {void}
*/
function close(token) {
if (and) and.call(this, token)
exit.call(this, token)
}
}
/**
* @this {CompileContext}
* Context.
* @param {Token} token
* Corresponding token.
* @param {OnExitError | undefined} [onExitError]
* Handle the case where another token is open.
* @returns {Node}
* The closed node.
*/
function exit(token, onExitError) {
const node = this.stack.pop()
const open = this.tokenStack.pop()
if (!open) {
throw new Error(
'Cannot close `' +
token.type +
'` (' +
stringifyPosition({
start: token.start,
end: token.end
}) +
'): its not open'
)
} else if (open[0].type !== token.type) {
if (onExitError) {
onExitError.call(this, token, open[0])
} else {
const handler = open[1] || defaultOnError
handler.call(this, token, open[0])
}
}
node.position.end = lib_point(token.end)
return node
}
/**
* @this {CompileContext}
* @returns {string}
*/
function resume() {
return lib_toString(this.stack.pop())
}
//
// Handlers.
//
/**
* @this {CompileContext}
* @type {Handle}
*/
function onenterlistordered() {
setData('expectingFirstListItemValue', true)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onenterlistitemvalue(token) {
if (getData('expectingFirstListItemValue')) {
const ancestor = this.stack[this.stack.length - 2]
ancestor.start = Number.parseInt(this.sliceSerialize(token), 10)
setData('expectingFirstListItemValue')
}
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodefencedfenceinfo() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.lang = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodefencedfencemeta() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.meta = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodefencedfence() {
// Exit if this is the closing fence.
if (getData('flowCodeInside')) return
this.buffer()
setData('flowCodeInside', true)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodefenced() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.value = data.replace(/^(\r?\n|\r)|(\r?\n|\r)$/g, '')
setData('flowCodeInside')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodeindented() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.value = data.replace(/(\r?\n|\r)$/g, '')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitdefinitionlabelstring(token) {
const label = this.resume()
const node = this.stack[this.stack.length - 1]
node.label = label
node.identifier = normalizeIdentifier(
this.sliceSerialize(token)
).toLowerCase()
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitdefinitiontitlestring() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.title = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitdefinitiondestinationstring() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.url = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitatxheadingsequence(token) {
const node = this.stack[this.stack.length - 1]
if (!node.depth) {
const depth = this.sliceSerialize(token).length
node.depth = depth
}
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitsetextheadingtext() {
setData('setextHeadingSlurpLineEnding', true)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitsetextheadinglinesequence(token) {
const node = this.stack[this.stack.length - 1]
node.depth = this.sliceSerialize(token).charCodeAt(0) === 61 ? 1 : 2
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitsetextheading() {
setData('setextHeadingSlurpLineEnding')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onenterdata(token) {
const node = this.stack[this.stack.length - 1]
let tail = node.children[node.children.length - 1]
if (!tail || tail.type !== 'text') {
// Add a new text node.
tail = text()
// @ts-expect-error: well add `end` later.
tail.position = {
start: lib_point(token.start)
}
// @ts-expect-error: Assume `parent` accepts `text`.
node.children.push(tail)
}
this.stack.push(tail)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitdata(token) {
const tail = this.stack.pop()
tail.value += this.sliceSerialize(token)
tail.position.end = lib_point(token.end)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitlineending(token) {
const context = this.stack[this.stack.length - 1]
// If were at a hard break, include the line ending in there.
if (getData('atHardBreak')) {
const tail = context.children[context.children.length - 1]
tail.position.end = lib_point(token.end)
setData('atHardBreak')
return
}
if (
!getData('setextHeadingSlurpLineEnding') &&
config.canContainEols.includes(context.type)
) {
onenterdata.call(this, token)
onexitdata.call(this, token)
}
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexithardbreak() {
setData('atHardBreak', true)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexithtmlflow() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.value = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexithtmltext() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.value = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcodetext() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.value = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitlink() {
const node = this.stack[this.stack.length - 1]
// Note: there are also `identifier` and `label` fields on this link node!
// These are used / cleaned here.
// To do: clean.
if (getData('inReference')) {
/** @type {ReferenceType} */
const referenceType = getData('referenceType') || 'shortcut'
node.type += 'Reference'
// @ts-expect-error: mutate.
node.referenceType = referenceType
// @ts-expect-error: mutate.
delete node.url
delete node.title
} else {
// @ts-expect-error: mutate.
delete node.identifier
// @ts-expect-error: mutate.
delete node.label
}
setData('referenceType')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitimage() {
const node = this.stack[this.stack.length - 1]
// Note: there are also `identifier` and `label` fields on this link node!
// These are used / cleaned here.
// To do: clean.
if (getData('inReference')) {
/** @type {ReferenceType} */
const referenceType = getData('referenceType') || 'shortcut'
node.type += 'Reference'
// @ts-expect-error: mutate.
node.referenceType = referenceType
// @ts-expect-error: mutate.
delete node.url
delete node.title
} else {
// @ts-expect-error: mutate.
delete node.identifier
// @ts-expect-error: mutate.
delete node.label
}
setData('referenceType')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitlabeltext(token) {
const string = this.sliceSerialize(token)
const ancestor = this.stack[this.stack.length - 2]
// @ts-expect-error: stash this on the node, as it might become a reference
// later.
ancestor.label = decodeString(string)
// @ts-expect-error: same as above.
ancestor.identifier = normalizeIdentifier(string).toLowerCase()
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitlabel() {
const fragment = this.stack[this.stack.length - 1]
const value = this.resume()
const node = this.stack[this.stack.length - 1]
// Assume a reference.
setData('inReference', true)
if (node.type === 'link') {
/** @type {Array<StaticPhrasingContent>} */
// @ts-expect-error: Assume static phrasing content.
const children = fragment.children
node.children = children
} else {
node.alt = value
}
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitresourcedestinationstring() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.url = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitresourcetitlestring() {
const data = this.resume()
const node = this.stack[this.stack.length - 1]
node.title = data
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitresource() {
setData('inReference')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onenterreference() {
setData('referenceType', 'collapsed')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitreferencestring(token) {
const label = this.resume()
const node = this.stack[this.stack.length - 1]
// @ts-expect-error: stash this on the node, as it might become a reference
// later.
node.label = label
// @ts-expect-error: same as above.
node.identifier = normalizeIdentifier(
this.sliceSerialize(token)
).toLowerCase()
setData('referenceType', 'full')
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcharacterreferencemarker(token) {
setData('characterReferenceType', token.type)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitcharacterreferencevalue(token) {
const data = this.sliceSerialize(token)
const type = getData('characterReferenceType')
/** @type {string} */
let value
if (type) {
value = decodeNumericCharacterReference(
data,
type === 'characterReferenceMarkerNumeric' ? 10 : 16
)
setData('characterReferenceType')
} else {
const result = decodeNamedCharacterReference(data)
value = result
}
const tail = this.stack.pop()
tail.value += value
tail.position.end = lib_point(token.end)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitautolinkprotocol(token) {
onexitdata.call(this, token)
const node = this.stack[this.stack.length - 1]
node.url = this.sliceSerialize(token)
}
/**
* @this {CompileContext}
* @type {Handle}
*/
function onexitautolinkemail(token) {
onexitdata.call(this, token)
const node = this.stack[this.stack.length - 1]
node.url = 'mailto:' + this.sliceSerialize(token)
}
//
// Creaters.
//
/** @returns {Blockquote} */
function blockQuote() {
return {
type: 'blockquote',
children: []
}
}
/** @returns {Code} */
function codeFlow() {
return {
type: 'code',
lang: null,
meta: null,
value: ''
}
}
/** @returns {InlineCode} */
function codeText() {
return {
type: 'inlineCode',
value: ''
}
}
/** @returns {Definition} */
function definition() {
return {
type: 'definition',
identifier: '',
label: null,
title: null,
url: ''
}
}
/** @returns {Emphasis} */
function emphasis() {
return {
type: 'emphasis',
children: []
}
}
/** @returns {Heading} */
function heading() {
// @ts-expect-error `depth` will be set later.
return {
type: 'heading',
depth: undefined,
children: []
}
}
/** @returns {Break} */
function hardBreak() {
return {
type: 'break'
}
}
/** @returns {HTML} */
function html() {
return {
type: 'html',
value: ''
}
}
/** @returns {Image} */
function image() {
return {
type: 'image',
title: null,
url: '',
alt: null
}
}
/** @returns {Link} */
function link() {
return {
type: 'link',
title: null,
url: '',
children: []
}
}
/**
* @param {Token} token
* @returns {List}
*/
function list(token) {
return {
type: 'list',
ordered: token.type === 'listOrdered',
start: null,
spread: token._spread,
children: []
}
}
/**
* @param {Token} token
* @returns {ListItem}
*/
function listItem(token) {
return {
type: 'listItem',
spread: token._spread,
checked: null,
children: []
}
}
/** @returns {Paragraph} */
function paragraph() {
return {
type: 'paragraph',
children: []
}
}
/** @returns {Strong} */
function strong() {
return {
type: 'strong',
children: []
}
}
/** @returns {Text} */
function text() {
return {
type: 'text',
value: ''
}
}
/** @returns {ThematicBreak} */
function thematicBreak() {
return {
type: 'thematicBreak'
}
}
}
/**
* Copy a point-like value.
*
* @param {Point} d
* Point-like value.
* @returns {Point}
* unist point.
*/
function lib_point(d) {
return {
line: d.line,
column: d.column,
offset: d.offset
}
}
/**
* @param {Config} combined
* @param {Array<Extension | Array<Extension>>} extensions
* @returns {void}
*/
function configure(combined, extensions) {
let index = -1
while (++index < extensions.length) {
const value = extensions[index]
if (Array.isArray(value)) {
configure(combined, value)
} else {
extension(combined, value)
}
}
}
/**
* @param {Config} combined
* @param {Extension} extension
* @returns {void}
*/
function extension(combined, extension) {
/** @type {keyof Extension} */
let key
for (key in extension) {
if (lib_own.call(extension, key)) {
if (key === 'canContainEols') {
const right = extension[key]
if (right) {
combined[key].push(...right)
}
} else if (key === 'transforms') {
const right = extension[key]
if (right) {
combined[key].push(...right)
}
} else if (key === 'enter' || key === 'exit') {
const right = extension[key]
if (right) {
Object.assign(combined[key], right)
}
}
}
}
}
/** @type {OnEnterError} */
function defaultOnError(left, right) {
if (left) {
throw new Error(
'Cannot close `' +
left.type +
'` (' +
stringifyPosition({
start: left.start,
end: left.end
}) +
'): a different token (`' +
right.type +
'`, ' +
stringifyPosition({
start: right.start,
end: right.end
}) +
') is open'
)
} else {
throw new Error(
'Cannot close document, a token (`' +
right.type +
'`, ' +
stringifyPosition({
start: right.start,
end: right.end
}) +
') is still open'
)
}
}
// EXTERNAL MODULE: ./node_modules/ts-dedent/esm/index.js
var esm = __webpack_require__(18464);
;// CONCATENATED MODULE: ./node_modules/mermaid/dist/createText-aebacdfe.js
function preprocessMarkdown(markdown) {
const withoutMultipleNewlines = markdown.replace(/\n{2,}/g, "\n");
const withoutExtraSpaces = (0,esm/* dedent */.Z)(withoutMultipleNewlines);
return withoutExtraSpaces;
}
function markdownToLines(markdown) {
const preprocessedMarkdown = preprocessMarkdown(markdown);
const { children } = fromMarkdown(preprocessedMarkdown);
const lines = [[]];
let currentLine = 0;
function processNode(node, parentType = "normal") {
if (node.type === "text") {
const textLines = node.value.split("\n");
textLines.forEach((textLine, index) => {
if (index !== 0) {
currentLine++;
lines.push([]);
}
textLine.split(" ").forEach((word) => {
if (word) {
lines[currentLine].push({ content: word, type: parentType });
}
});
});
} else if (node.type === "strong" || node.type === "emphasis") {
node.children.forEach((contentNode) => {
processNode(contentNode, node.type);
});
}
}
children.forEach((treeNode) => {
if (treeNode.type === "paragraph") {
treeNode.children.forEach((contentNode) => {
processNode(contentNode);
});
}
});
return lines;
}
function markdownToHTML(markdown) {
const { children } = fromMarkdown(markdown);
function output(node) {
if (node.type === "text") {
return node.value.replace(/\n/g, "<br/>");
} else if (node.type === "strong") {
return `<strong>${node.children.map(output).join("")}</strong>`;
} else if (node.type === "emphasis") {
return `<em>${node.children.map(output).join("")}</em>`;
} else if (node.type === "paragraph") {
return `<p>${node.children.map(output).join("")}</p>`;
}
return `Unsupported markdown: ${node.type}`;
}
return children.map(output).join("");
}
function splitTextToChars(text) {
if (Intl.Segmenter) {
return [...new Intl.Segmenter().segment(text)].map((s) => s.segment);
}
return [...text];
}
function splitWordToFitWidth(checkFit, word) {
const characters = splitTextToChars(word.content);
return splitWordToFitWidthRecursion(checkFit, [], characters, word.type);
}
function splitWordToFitWidthRecursion(checkFit, usedChars, remainingChars, type) {
if (remainingChars.length === 0) {
return [
{ content: usedChars.join(""), type },
{ content: "", type }
];
}
const [nextChar, ...rest] = remainingChars;
const newWord = [...usedChars, nextChar];
if (checkFit([{ content: newWord.join(""), type }])) {
return splitWordToFitWidthRecursion(checkFit, newWord, rest, type);
}
if (usedChars.length === 0 && nextChar) {
usedChars.push(nextChar);
remainingChars.shift();
}
return [
{ content: usedChars.join(""), type },
{ content: remainingChars.join(""), type }
];
}
function splitLineToFitWidth(line, checkFit) {
if (line.some(({ content }) => content.includes("\n"))) {
throw new Error("splitLineToFitWidth does not support newlines in the line");
}
return splitLineToFitWidthRecursion(line, checkFit);
}
function splitLineToFitWidthRecursion(words, checkFit, lines = [], newLine = []) {
if (words.length === 0) {
if (newLine.length > 0) {
lines.push(newLine);
}
return lines.length > 0 ? lines : [];
}
let joiner = "";
if (words[0].content === " ") {
joiner = " ";
words.shift();
}
const nextWord = words.shift() ?? { content: " ", type: "normal" };
const lineWithNextWord = [...newLine];
if (joiner !== "") {
lineWithNextWord.push({ content: joiner, type: "normal" });
}
lineWithNextWord.push(nextWord);
if (checkFit(lineWithNextWord)) {
return splitLineToFitWidthRecursion(words, checkFit, lines, lineWithNextWord);
}
if (newLine.length > 0) {
lines.push(newLine);
words.unshift(nextWord);
} else if (nextWord.content) {
const [line, rest] = splitWordToFitWidth(checkFit, nextWord);
lines.push([line]);
if (rest.content) {
words.unshift(rest);
}
}
return splitLineToFitWidthRecursion(words, checkFit, lines);
}
function applyStyle(dom, styleFn) {
if (styleFn) {
dom.attr("style", styleFn);
}
}
function addHtmlSpan(element, node, width, classes, addBackground = false) {
const fo = element.append("foreignObject");
const div = fo.append("xhtml:div");
const label = node.label;
const labelClass = node.isNode ? "nodeLabel" : "edgeLabel";
div.html(
`
<span class="${labelClass} ${classes}" ` + (node.labelStyle ? 'style="' + node.labelStyle + '"' : "") + ">" + label + "</span>"
);
applyStyle(div, node.labelStyle);
div.style("display", "table-cell");
div.style("white-space", "nowrap");
div.style("max-width", width + "px");
div.attr("xmlns", "http://www.w3.org/1999/xhtml");
if (addBackground) {
div.attr("class", "labelBkg");
}
let bbox = div.node().getBoundingClientRect();
if (bbox.width === width) {
div.style("display", "table");
div.style("white-space", "break-spaces");
div.style("width", width + "px");
bbox = div.node().getBoundingClientRect();
}
fo.style("width", bbox.width);
fo.style("height", bbox.height);
return fo.node();
}
function createTspan(textElement, lineIndex, lineHeight) {
return textElement.append("tspan").attr("class", "text-outer-tspan").attr("x", 0).attr("y", lineIndex * lineHeight - 0.1 + "em").attr("dy", lineHeight + "em");
}
function computeWidthOfText(parentNode, lineHeight, line) {
const testElement = parentNode.append("text");
const testSpan = createTspan(testElement, 1, lineHeight);
updateTextContentAndStyles(testSpan, line);
const textLength = testSpan.node().getComputedTextLength();
testElement.remove();
return textLength;
}
function computeDimensionOfText(parentNode, lineHeight, text) {
var _a;
const testElement = parentNode.append("text");
const testSpan = createTspan(testElement, 1, lineHeight);
updateTextContentAndStyles(testSpan, [{ content: text, type: "normal" }]);
const textDimension = (_a = testSpan.node()) == null ? void 0 : _a.getBoundingClientRect();
if (textDimension) {
testElement.remove();
}
return textDimension;
}
function createFormattedText(width, g, structuredText, addBackground = false) {
const lineHeight = 1.1;
const labelGroup = g.append("g");
const bkg = labelGroup.insert("rect").attr("class", "background");
const textElement = labelGroup.append("text").attr("y", "-10.1");
let lineIndex = 0;
for (const line of structuredText) {
const checkWidth = (line2) => computeWidthOfText(labelGroup, lineHeight, line2) <= width;
const linesUnderWidth = checkWidth(line) ? [line] : splitLineToFitWidth(line, checkWidth);
for (const preparedLine of linesUnderWidth) {
const tspan = createTspan(textElement, lineIndex, lineHeight);
updateTextContentAndStyles(tspan, preparedLine);
lineIndex++;
}
}
if (addBackground) {
const bbox = textElement.node().getBBox();
const padding = 2;
bkg.attr("x", -padding).attr("y", -padding).attr("width", bbox.width + 2 * padding).attr("height", bbox.height + 2 * padding);
return labelGroup.node();
} else {
return textElement.node();
}
}
function updateTextContentAndStyles(tspan, wrappedLine) {
tspan.text("");
wrappedLine.forEach((word, index) => {
const innerTspan = tspan.append("tspan").attr("font-style", word.type === "emphasis" ? "italic" : "normal").attr("class", "text-inner-tspan").attr("font-weight", word.type === "strong" ? "bold" : "normal");
if (index === 0) {
innerTspan.text(word.content);
} else {
innerTspan.text(" " + word.content);
}
});
}
const createText = (el, text = "", {
style = "",
isTitle = false,
classes = "",
useHtmlLabels = true,
isNode = true,
width = 200,
addSvgBackground = false
} = {}) => {
mermaid_934d9bea.l.info("createText", text, style, isTitle, classes, useHtmlLabels, isNode, addSvgBackground);
if (useHtmlLabels) {
const htmlText = markdownToHTML(text);
const node = {
isNode,
label: (0,mermaid_934d9bea.J)(htmlText).replace(
/fa[blrs]?:fa-[\w-]+/g,
(s) => `<i class='${s.replace(":", " ")}'></i>`
),
labelStyle: style.replace("fill:", "color:")
};
const vertexNode = addHtmlSpan(el, node, width, classes, addSvgBackground);
return vertexNode;
} else {
const structuredText = markdownToLines(text);
const svgLabel = createFormattedText(width, el, structuredText, addSvgBackground);
return svgLabel;
}
};
/***/ }),
/***/ 25269:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ a: () => (/* binding */ insertMarkers$1),
/* harmony export */ b: () => (/* binding */ clear$1),
/* harmony export */ c: () => (/* binding */ createLabel$1),
/* harmony export */ d: () => (/* binding */ clear),
/* harmony export */ e: () => (/* binding */ insertNode),
/* harmony export */ f: () => (/* binding */ insertEdgeLabel),
/* harmony export */ g: () => (/* binding */ insertEdge),
/* harmony export */ h: () => (/* binding */ positionEdgeLabel),
/* harmony export */ i: () => (/* binding */ intersectRect$1),
/* harmony export */ j: () => (/* binding */ getLineFunctionsWithOffset),
/* harmony export */ l: () => (/* binding */ labelHelper),
/* harmony export */ p: () => (/* binding */ positionNode),
/* harmony export */ s: () => (/* binding */ setNodeElem),
/* harmony export */ u: () => (/* binding */ updateNodeBounds)
/* harmony export */ });
/* harmony import */ var _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(85322);
/* harmony import */ var d3__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(64218);
/* harmony import */ var _createText_aebacdfe_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(54511);
const insertMarkers = (elem, markerArray, type, id) => {
markerArray.forEach((markerName) => {
markers[markerName](elem, type, id);
});
};
const extension = (elem, type, id) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.trace("Making markers for ", id);
elem.append("defs").append("marker").attr("id", id + "_" + type + "-extensionStart").attr("class", "marker extension " + type).attr("refX", 18).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("path").attr("d", "M 1,7 L18,13 V 1 Z");
elem.append("defs").append("marker").attr("id", id + "_" + type + "-extensionEnd").attr("class", "marker extension " + type).attr("refX", 1).attr("refY", 7).attr("markerWidth", 20).attr("markerHeight", 28).attr("orient", "auto").append("path").attr("d", "M 1,1 V 13 L18,7 Z");
};
const composition = (elem, type, id) => {
elem.append("defs").append("marker").attr("id", id + "_" + type + "-compositionStart").attr("class", "marker composition " + type).attr("refX", 18).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("path").attr("d", "M 18,7 L9,13 L1,7 L9,1 Z");
elem.append("defs").append("marker").attr("id", id + "_" + type + "-compositionEnd").attr("class", "marker composition " + type).attr("refX", 1).attr("refY", 7).attr("markerWidth", 20).attr("markerHeight", 28).attr("orient", "auto").append("path").attr("d", "M 18,7 L9,13 L1,7 L9,1 Z");
};
const aggregation = (elem, type, id) => {
elem.append("defs").append("marker").attr("id", id + "_" + type + "-aggregationStart").attr("class", "marker aggregation " + type).attr("refX", 18).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("path").attr("d", "M 18,7 L9,13 L1,7 L9,1 Z");
elem.append("defs").append("marker").attr("id", id + "_" + type + "-aggregationEnd").attr("class", "marker aggregation " + type).attr("refX", 1).attr("refY", 7).attr("markerWidth", 20).attr("markerHeight", 28).attr("orient", "auto").append("path").attr("d", "M 18,7 L9,13 L1,7 L9,1 Z");
};
const dependency = (elem, type, id) => {
elem.append("defs").append("marker").attr("id", id + "_" + type + "-dependencyStart").attr("class", "marker dependency " + type).attr("refX", 6).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("path").attr("d", "M 5,7 L9,13 L1,7 L9,1 Z");
elem.append("defs").append("marker").attr("id", id + "_" + type + "-dependencyEnd").attr("class", "marker dependency " + type).attr("refX", 13).attr("refY", 7).attr("markerWidth", 20).attr("markerHeight", 28).attr("orient", "auto").append("path").attr("d", "M 18,7 L9,13 L14,7 L9,1 Z");
};
const lollipop = (elem, type, id) => {
elem.append("defs").append("marker").attr("id", id + "_" + type + "-lollipopStart").attr("class", "marker lollipop " + type).attr("refX", 13).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("circle").attr("stroke", "black").attr("fill", "transparent").attr("cx", 7).attr("cy", 7).attr("r", 6);
elem.append("defs").append("marker").attr("id", id + "_" + type + "-lollipopEnd").attr("class", "marker lollipop " + type).attr("refX", 1).attr("refY", 7).attr("markerWidth", 190).attr("markerHeight", 240).attr("orient", "auto").append("circle").attr("stroke", "black").attr("fill", "transparent").attr("cx", 7).attr("cy", 7).attr("r", 6);
};
const point = (elem, type, id) => {
elem.append("marker").attr("id", id + "_" + type + "-pointEnd").attr("class", "marker " + type).attr("viewBox", "0 0 10 10").attr("refX", 6).attr("refY", 5).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 12).attr("markerHeight", 12).attr("orient", "auto").append("path").attr("d", "M 0 0 L 10 5 L 0 10 z").attr("class", "arrowMarkerPath").style("stroke-width", 1).style("stroke-dasharray", "1,0");
elem.append("marker").attr("id", id + "_" + type + "-pointStart").attr("class", "marker " + type).attr("viewBox", "0 0 10 10").attr("refX", 4.5).attr("refY", 5).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 12).attr("markerHeight", 12).attr("orient", "auto").append("path").attr("d", "M 0 5 L 10 10 L 10 0 z").attr("class", "arrowMarkerPath").style("stroke-width", 1).style("stroke-dasharray", "1,0");
};
const circle$1 = (elem, type, id) => {
elem.append("marker").attr("id", id + "_" + type + "-circleEnd").attr("class", "marker " + type).attr("viewBox", "0 0 10 10").attr("refX", 11).attr("refY", 5).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 11).attr("markerHeight", 11).attr("orient", "auto").append("circle").attr("cx", "5").attr("cy", "5").attr("r", "5").attr("class", "arrowMarkerPath").style("stroke-width", 1).style("stroke-dasharray", "1,0");
elem.append("marker").attr("id", id + "_" + type + "-circleStart").attr("class", "marker " + type).attr("viewBox", "0 0 10 10").attr("refX", -1).attr("refY", 5).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 11).attr("markerHeight", 11).attr("orient", "auto").append("circle").attr("cx", "5").attr("cy", "5").attr("r", "5").attr("class", "arrowMarkerPath").style("stroke-width", 1).style("stroke-dasharray", "1,0");
};
const cross = (elem, type, id) => {
elem.append("marker").attr("id", id + "_" + type + "-crossEnd").attr("class", "marker cross " + type).attr("viewBox", "0 0 11 11").attr("refX", 12).attr("refY", 5.2).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 11).attr("markerHeight", 11).attr("orient", "auto").append("path").attr("d", "M 1,1 l 9,9 M 10,1 l -9,9").attr("class", "arrowMarkerPath").style("stroke-width", 2).style("stroke-dasharray", "1,0");
elem.append("marker").attr("id", id + "_" + type + "-crossStart").attr("class", "marker cross " + type).attr("viewBox", "0 0 11 11").attr("refX", -1).attr("refY", 5.2).attr("markerUnits", "userSpaceOnUse").attr("markerWidth", 11).attr("markerHeight", 11).attr("orient", "auto").append("path").attr("d", "M 1,1 l 9,9 M 10,1 l -9,9").attr("class", "arrowMarkerPath").style("stroke-width", 2).style("stroke-dasharray", "1,0");
};
const barb = (elem, type, id) => {
elem.append("defs").append("marker").attr("id", id + "_" + type + "-barbEnd").attr("refX", 19).attr("refY", 7).attr("markerWidth", 20).attr("markerHeight", 14).attr("markerUnits", "strokeWidth").attr("orient", "auto").append("path").attr("d", "M 19,7 L9,13 L14,7 L9,1 Z");
};
const markers = {
extension,
composition,
aggregation,
dependency,
lollipop,
point,
circle: circle$1,
cross,
barb
};
const insertMarkers$1 = insertMarkers;
function applyStyle(dom, styleFn) {
if (styleFn) {
dom.attr("style", styleFn);
}
}
function addHtmlLabel(node) {
const fo = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(document.createElementNS("http://www.w3.org/2000/svg", "foreignObject"));
const div = fo.append("xhtml:div");
const label = node.label;
const labelClass = node.isNode ? "nodeLabel" : "edgeLabel";
div.html(
'<span class="' + labelClass + '" ' + (node.labelStyle ? 'style="' + node.labelStyle + '"' : "") + ">" + label + "</span>"
);
applyStyle(div, node.labelStyle);
div.style("display", "inline-block");
div.style("white-space", "nowrap");
div.attr("xmlns", "http://www.w3.org/1999/xhtml");
return fo.node();
}
const createLabel = (_vertexText, style, isTitle, isNode) => {
let vertexText = _vertexText || "";
if (typeof vertexText === "object") {
vertexText = vertexText[0];
}
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
vertexText = vertexText.replace(/\\n|\n/g, "<br />");
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("vertexText" + vertexText);
const node = {
isNode,
label: (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.J)(vertexText).replace(
/fa[blrs]?:fa-[\w-]+/g,
(s) => `<i class='${s.replace(":", " ")}'></i>`
),
labelStyle: style.replace("fill:", "color:")
};
let vertexNode = addHtmlLabel(node);
return vertexNode;
} else {
const svgLabel = document.createElementNS("http://www.w3.org/2000/svg", "text");
svgLabel.setAttribute("style", style.replace("color:", "fill:"));
let rows = [];
if (typeof vertexText === "string") {
rows = vertexText.split(/\\n|\n|<br\s*\/?>/gi);
} else if (Array.isArray(vertexText)) {
rows = vertexText;
} else {
rows = [];
}
for (const row of rows) {
const tspan = document.createElementNS("http://www.w3.org/2000/svg", "tspan");
tspan.setAttributeNS("http://www.w3.org/XML/1998/namespace", "xml:space", "preserve");
tspan.setAttribute("dy", "1em");
tspan.setAttribute("x", "0");
if (isTitle) {
tspan.setAttribute("class", "title-row");
} else {
tspan.setAttribute("class", "row");
}
tspan.textContent = row.trim();
svgLabel.appendChild(tspan);
}
return svgLabel;
}
};
const createLabel$1 = createLabel;
const labelHelper = async (parent, node, _classes, isNode) => {
let classes;
const useHtmlLabels = node.useHtmlLabels || (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels);
if (!_classes) {
classes = "node default";
} else {
classes = _classes;
}
const shapeSvg = parent.insert("g").attr("class", classes).attr("id", node.domId || node.id);
const label = shapeSvg.insert("g").attr("class", "label").attr("style", node.labelStyle);
let labelText;
if (node.labelText === void 0) {
labelText = "";
} else {
labelText = typeof node.labelText === "string" ? node.labelText : node.labelText[0];
}
const textNode = label.node();
let text;
if (node.labelType === "markdown") {
text = (0,_createText_aebacdfe_js__WEBPACK_IMPORTED_MODULE_2__.a)(label, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.d)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.J)(labelText), (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)()), {
useHtmlLabels,
width: node.width || (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.wrappingWidth,
classes: "markdown-node-label"
});
} else {
text = textNode.appendChild(
createLabel$1(
(0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.d)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.J)(labelText), (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)()),
node.labelStyle,
false,
isNode
)
);
}
let bbox = text.getBBox();
const halfPadding = node.padding / 2;
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = text.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(text);
const images = div.getElementsByTagName("img");
if (images) {
const noImgText = labelText.replace(/<img[^>]*>/g, "").trim() === "";
await Promise.all(
[...images].map(
(img) => new Promise((res) => {
function setupImage() {
img.style.display = "flex";
img.style.flexDirection = "column";
if (noImgText) {
const bodyFontSize = (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().fontSize ? (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().fontSize : window.getComputedStyle(document.body).fontSize;
const enlargingFactor = 5;
img.style.width = parseInt(bodyFontSize, 10) * enlargingFactor + "px";
} else {
img.style.width = "100%";
}
res(img);
}
setTimeout(() => {
if (img.complete) {
setupImage();
}
});
img.addEventListener("error", setupImage);
img.addEventListener("load", setupImage);
})
)
);
}
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
if (useHtmlLabels) {
label.attr("transform", "translate(" + -bbox.width / 2 + ", " + -bbox.height / 2 + ")");
} else {
label.attr("transform", "translate(0, " + -bbox.height / 2 + ")");
}
if (node.centerLabel) {
label.attr("transform", "translate(" + -bbox.width / 2 + ", " + -bbox.height / 2 + ")");
}
label.insert("rect", ":first-child");
return { shapeSvg, bbox, halfPadding, label };
};
const updateNodeBounds = (node, element) => {
const bbox = element.node().getBBox();
node.width = bbox.width;
node.height = bbox.height;
};
function insertPolygonShape(parent, w, h, points) {
return parent.insert("polygon", ":first-child").attr(
"points",
points.map(function(d) {
return d.x + "," + d.y;
}).join(" ")
).attr("class", "label-container").attr("transform", "translate(" + -w / 2 + "," + h / 2 + ")");
}
function intersectNode(node, point2) {
return node.intersect(point2);
}
function intersectEllipse(node, rx, ry, point2) {
var cx = node.x;
var cy = node.y;
var px = cx - point2.x;
var py = cy - point2.y;
var det = Math.sqrt(rx * rx * py * py + ry * ry * px * px);
var dx = Math.abs(rx * ry * px / det);
if (point2.x < cx) {
dx = -dx;
}
var dy = Math.abs(rx * ry * py / det);
if (point2.y < cy) {
dy = -dy;
}
return { x: cx + dx, y: cy + dy };
}
function intersectCircle(node, rx, point2) {
return intersectEllipse(node, rx, rx, point2);
}
function intersectLine(p1, p2, q1, q2) {
var a1, a2, b1, b2, c1, c2;
var r1, r2, r3, r4;
var denom, offset, num;
var x, y;
a1 = p2.y - p1.y;
b1 = p1.x - p2.x;
c1 = p2.x * p1.y - p1.x * p2.y;
r3 = a1 * q1.x + b1 * q1.y + c1;
r4 = a1 * q2.x + b1 * q2.y + c1;
if (r3 !== 0 && r4 !== 0 && sameSign(r3, r4)) {
return;
}
a2 = q2.y - q1.y;
b2 = q1.x - q2.x;
c2 = q2.x * q1.y - q1.x * q2.y;
r1 = a2 * p1.x + b2 * p1.y + c2;
r2 = a2 * p2.x + b2 * p2.y + c2;
if (r1 !== 0 && r2 !== 0 && sameSign(r1, r2)) {
return;
}
denom = a1 * b2 - a2 * b1;
if (denom === 0) {
return;
}
offset = Math.abs(denom / 2);
num = b1 * c2 - b2 * c1;
x = num < 0 ? (num - offset) / denom : (num + offset) / denom;
num = a2 * c1 - a1 * c2;
y = num < 0 ? (num - offset) / denom : (num + offset) / denom;
return { x, y };
}
function sameSign(r1, r2) {
return r1 * r2 > 0;
}
function intersectPolygon(node, polyPoints, point2) {
var x1 = node.x;
var y1 = node.y;
var intersections = [];
var minX = Number.POSITIVE_INFINITY;
var minY = Number.POSITIVE_INFINITY;
if (typeof polyPoints.forEach === "function") {
polyPoints.forEach(function(entry) {
minX = Math.min(minX, entry.x);
minY = Math.min(minY, entry.y);
});
} else {
minX = Math.min(minX, polyPoints.x);
minY = Math.min(minY, polyPoints.y);
}
var left = x1 - node.width / 2 - minX;
var top = y1 - node.height / 2 - minY;
for (var i = 0; i < polyPoints.length; i++) {
var p1 = polyPoints[i];
var p2 = polyPoints[i < polyPoints.length - 1 ? i + 1 : 0];
var intersect2 = intersectLine(
node,
point2,
{ x: left + p1.x, y: top + p1.y },
{ x: left + p2.x, y: top + p2.y }
);
if (intersect2) {
intersections.push(intersect2);
}
}
if (!intersections.length) {
return node;
}
if (intersections.length > 1) {
intersections.sort(function(p, q) {
var pdx = p.x - point2.x;
var pdy = p.y - point2.y;
var distp = Math.sqrt(pdx * pdx + pdy * pdy);
var qdx = q.x - point2.x;
var qdy = q.y - point2.y;
var distq = Math.sqrt(qdx * qdx + qdy * qdy);
return distp < distq ? -1 : distp === distq ? 0 : 1;
});
}
return intersections[0];
}
const intersectRect = (node, point2) => {
var x = node.x;
var y = node.y;
var dx = point2.x - x;
var dy = point2.y - y;
var w = node.width / 2;
var h = node.height / 2;
var sx, sy;
if (Math.abs(dy) * w > Math.abs(dx) * h) {
if (dy < 0) {
h = -h;
}
sx = dy === 0 ? 0 : h * dx / dy;
sy = h;
} else {
if (dx < 0) {
w = -w;
}
sx = w;
sy = dx === 0 ? 0 : w * dy / dx;
}
return { x: x + sx, y: y + sy };
};
const intersectRect$1 = intersectRect;
const intersect = {
node: intersectNode,
circle: intersectCircle,
ellipse: intersectEllipse,
polygon: intersectPolygon,
rect: intersectRect$1
};
const note = async (parent, node) => {
const useHtmlLabels = node.useHtmlLabels || (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels;
if (!useHtmlLabels) {
node.centerLabel = true;
}
const { shapeSvg, bbox, halfPadding } = await labelHelper(
parent,
node,
"node " + node.classes,
true
);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Classes = ", node.classes);
const rect2 = shapeSvg.insert("rect", ":first-child");
rect2.attr("rx", node.rx).attr("ry", node.ry).attr("x", -bbox.width / 2 - halfPadding).attr("y", -bbox.height / 2 - halfPadding).attr("width", bbox.width + node.padding).attr("height", bbox.height + node.padding);
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const note$1 = note;
const formatClass = (str) => {
if (str) {
return " " + str;
}
return "";
};
const getClassesFromNode = (node, otherClasses) => {
return `${otherClasses ? otherClasses : "node default"}${formatClass(node.classes)} ${formatClass(
node.class
)}`;
};
const question = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const s = w + h;
const points = [
{ x: s / 2, y: 0 },
{ x: s, y: -s / 2 },
{ x: s / 2, y: -s },
{ x: 0, y: -s / 2 }
];
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Question main (Circle)");
const questionElem = insertPolygonShape(shapeSvg, s, s, points);
questionElem.attr("style", node.style);
updateNodeBounds(node, questionElem);
node.intersect = function(point2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("Intersect called");
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const choice = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", "node default").attr("id", node.domId || node.id);
const s = 28;
const points = [
{ x: 0, y: s / 2 },
{ x: s / 2, y: 0 },
{ x: 0, y: -s / 2 },
{ x: -s / 2, y: 0 }
];
const choice2 = shapeSvg.insert("polygon", ":first-child").attr(
"points",
points.map(function(d) {
return d.x + "," + d.y;
}).join(" ")
);
choice2.attr("class", "state-start").attr("r", 7).attr("width", 28).attr("height", 28);
node.width = 28;
node.height = 28;
node.intersect = function(point2) {
return intersect.circle(node, 14, point2);
};
return shapeSvg;
};
const hexagon = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const f = 4;
const h = bbox.height + node.padding;
const m = h / f;
const w = bbox.width + 2 * m + node.padding;
const points = [
{ x: m, y: 0 },
{ x: w - m, y: 0 },
{ x: w, y: -h / 2 },
{ x: w - m, y: -h },
{ x: m, y: -h },
{ x: 0, y: -h / 2 }
];
const hex = insertPolygonShape(shapeSvg, w, h, points);
hex.attr("style", node.style);
updateNodeBounds(node, hex);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const rect_left_inv_arrow = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: -h / 2, y: 0 },
{ x: w, y: 0 },
{ x: w, y: -h },
{ x: -h / 2, y: -h },
{ x: 0, y: -h / 2 }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
node.width = w + h;
node.height = h;
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const lean_right = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(parent, node, getClassesFromNode(node), true);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: -2 * h / 6, y: 0 },
{ x: w - h / 6, y: 0 },
{ x: w + 2 * h / 6, y: -h },
{ x: h / 6, y: -h }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const lean_left = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: 2 * h / 6, y: 0 },
{ x: w + h / 6, y: 0 },
{ x: w - 2 * h / 6, y: -h },
{ x: -h / 6, y: -h }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const trapezoid = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: -2 * h / 6, y: 0 },
{ x: w + 2 * h / 6, y: 0 },
{ x: w - h / 6, y: -h },
{ x: h / 6, y: -h }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const inv_trapezoid = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: h / 6, y: 0 },
{ x: w - h / 6, y: 0 },
{ x: w + 2 * h / 6, y: -h },
{ x: -2 * h / 6, y: -h }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const rect_right_inv_arrow = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: 0, y: 0 },
{ x: w + h / 2, y: 0 },
{ x: w, y: -h / 2 },
{ x: w + h / 2, y: -h },
{ x: 0, y: -h }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const cylinder = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const rx = w / 2;
const ry = rx / (2.5 + w / 50);
const h = bbox.height + ry + node.padding;
const shape = "M 0," + ry + " a " + rx + "," + ry + " 0,0,0 " + w + " 0 a " + rx + "," + ry + " 0,0,0 " + -w + " 0 l 0," + h + " a " + rx + "," + ry + " 0,0,0 " + w + " 0 l 0," + -h;
const el = shapeSvg.attr("label-offset-y", ry).insert("path", ":first-child").attr("style", node.style).attr("d", shape).attr("transform", "translate(" + -w / 2 + "," + -(h / 2 + ry) + ")");
updateNodeBounds(node, el);
node.intersect = function(point2) {
const pos = intersect.rect(node, point2);
const x = pos.x - node.x;
if (rx != 0 && (Math.abs(x) < node.width / 2 || Math.abs(x) == node.width / 2 && Math.abs(pos.y - node.y) > node.height / 2 - ry)) {
let y = ry * ry * (1 - x * x / (rx * rx));
if (y != 0) {
y = Math.sqrt(y);
}
y = ry - y;
if (point2.y - node.y > 0) {
y = -y;
}
pos.y += y;
}
return pos;
};
return shapeSvg;
};
const rect = async (parent, node) => {
const { shapeSvg, bbox, halfPadding } = await labelHelper(
parent,
node,
"node " + node.classes + " " + node.class,
true
);
const rect2 = shapeSvg.insert("rect", ":first-child");
const totalWidth = bbox.width + node.padding;
const totalHeight = bbox.height + node.padding;
rect2.attr("class", "basic label-container").attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("x", -bbox.width / 2 - halfPadding).attr("y", -bbox.height / 2 - halfPadding).attr("width", totalWidth).attr("height", totalHeight);
if (node.props) {
const propKeys = new Set(Object.keys(node.props));
if (node.props.borders) {
applyNodePropertyBorders(rect2, node.props.borders, totalWidth, totalHeight);
propKeys.delete("borders");
}
propKeys.forEach((propKey) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn(`Unknown node property ${propKey}`);
});
}
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const labelRect = async (parent, node) => {
const { shapeSvg } = await labelHelper(parent, node, "label", true);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.trace("Classes = ", node.class);
const rect2 = shapeSvg.insert("rect", ":first-child");
const totalWidth = 0;
const totalHeight = 0;
rect2.attr("width", totalWidth).attr("height", totalHeight);
shapeSvg.attr("class", "label edgeLabel");
if (node.props) {
const propKeys = new Set(Object.keys(node.props));
if (node.props.borders) {
applyNodePropertyBorders(rect2, node.props.borders, totalWidth, totalHeight);
propKeys.delete("borders");
}
propKeys.forEach((propKey) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn(`Unknown node property ${propKey}`);
});
}
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
function applyNodePropertyBorders(rect2, borders, totalWidth, totalHeight) {
const strokeDashArray = [];
const addBorder = (length) => {
strokeDashArray.push(length, 0);
};
const skipBorder = (length) => {
strokeDashArray.push(0, length);
};
if (borders.includes("t")) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.debug("add top border");
addBorder(totalWidth);
} else {
skipBorder(totalWidth);
}
if (borders.includes("r")) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.debug("add right border");
addBorder(totalHeight);
} else {
skipBorder(totalHeight);
}
if (borders.includes("b")) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.debug("add bottom border");
addBorder(totalWidth);
} else {
skipBorder(totalWidth);
}
if (borders.includes("l")) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.debug("add left border");
addBorder(totalHeight);
} else {
skipBorder(totalHeight);
}
rect2.attr("stroke-dasharray", strokeDashArray.join(" "));
}
const rectWithTitle = (parent, node) => {
let classes;
if (!node.classes) {
classes = "node default";
} else {
classes = "node " + node.classes;
}
const shapeSvg = parent.insert("g").attr("class", classes).attr("id", node.domId || node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const innerLine = shapeSvg.insert("line");
const label = shapeSvg.insert("g").attr("class", "label");
const text2 = node.labelText.flat ? node.labelText.flat() : node.labelText;
let title = "";
if (typeof text2 === "object") {
title = text2[0];
} else {
title = text2;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Label text abc79", title, text2, typeof text2 === "object");
const text = label.node().appendChild(createLabel$1(title, node.labelStyle, true, true));
let bbox = { width: 0, height: 0 };
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = text.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(text);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Text 2", text2);
const textRows = text2.slice(1, text2.length);
let titleBox = text.getBBox();
const descr = label.node().appendChild(
createLabel$1(textRows.join ? textRows.join("<br/>") : textRows, node.labelStyle, true, true)
);
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = descr.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(descr);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
const halfPadding = node.padding / 2;
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(descr).attr(
"transform",
"translate( " + // (titleBox.width - bbox.width) / 2 +
(bbox.width > titleBox.width ? 0 : (titleBox.width - bbox.width) / 2) + ", " + (titleBox.height + halfPadding + 5) + ")"
);
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(text).attr(
"transform",
"translate( " + // (titleBox.width - bbox.width) / 2 +
(bbox.width < titleBox.width ? 0 : -(titleBox.width - bbox.width) / 2) + ", 0)"
);
bbox = label.node().getBBox();
label.attr(
"transform",
"translate(" + -bbox.width / 2 + ", " + (-bbox.height / 2 - halfPadding + 3) + ")"
);
rect2.attr("class", "outer title-state").attr("x", -bbox.width / 2 - halfPadding).attr("y", -bbox.height / 2 - halfPadding).attr("width", bbox.width + node.padding).attr("height", bbox.height + node.padding);
innerLine.attr("class", "divider").attr("x1", -bbox.width / 2 - halfPadding).attr("x2", bbox.width / 2 + halfPadding).attr("y1", -bbox.height / 2 - halfPadding + titleBox.height + halfPadding).attr("y2", -bbox.height / 2 - halfPadding + titleBox.height + halfPadding);
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const stadium = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const h = bbox.height + node.padding;
const w = bbox.width + h / 4 + node.padding;
const rect2 = shapeSvg.insert("rect", ":first-child").attr("style", node.style).attr("rx", h / 2).attr("ry", h / 2).attr("x", -w / 2).attr("y", -h / 2).attr("width", w).attr("height", h);
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const circle = async (parent, node) => {
const { shapeSvg, bbox, halfPadding } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const circle2 = shapeSvg.insert("circle", ":first-child");
circle2.attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("r", bbox.width / 2 + halfPadding).attr("width", bbox.width + node.padding).attr("height", bbox.height + node.padding);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Circle main");
updateNodeBounds(node, circle2);
node.intersect = function(point2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Circle intersect", node, bbox.width / 2 + halfPadding, point2);
return intersect.circle(node, bbox.width / 2 + halfPadding, point2);
};
return shapeSvg;
};
const doublecircle = async (parent, node) => {
const { shapeSvg, bbox, halfPadding } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const gap = 5;
const circleGroup = shapeSvg.insert("g", ":first-child");
const outerCircle = circleGroup.insert("circle");
const innerCircle = circleGroup.insert("circle");
circleGroup.attr("class", node.class);
outerCircle.attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("r", bbox.width / 2 + halfPadding + gap).attr("width", bbox.width + node.padding + gap * 2).attr("height", bbox.height + node.padding + gap * 2);
innerCircle.attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("r", bbox.width / 2 + halfPadding).attr("width", bbox.width + node.padding).attr("height", bbox.height + node.padding);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("DoubleCircle main");
updateNodeBounds(node, outerCircle);
node.intersect = function(point2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("DoubleCircle intersect", node, bbox.width / 2 + halfPadding + gap, point2);
return intersect.circle(node, bbox.width / 2 + halfPadding + gap, point2);
};
return shapeSvg;
};
const subroutine = async (parent, node) => {
const { shapeSvg, bbox } = await labelHelper(
parent,
node,
getClassesFromNode(node, void 0),
true
);
const w = bbox.width + node.padding;
const h = bbox.height + node.padding;
const points = [
{ x: 0, y: 0 },
{ x: w, y: 0 },
{ x: w, y: -h },
{ x: 0, y: -h },
{ x: 0, y: 0 },
{ x: -8, y: 0 },
{ x: w + 8, y: 0 },
{ x: w + 8, y: -h },
{ x: -8, y: -h },
{ x: -8, y: 0 }
];
const el = insertPolygonShape(shapeSvg, w, h, points);
el.attr("style", node.style);
updateNodeBounds(node, el);
node.intersect = function(point2) {
return intersect.polygon(node, points, point2);
};
return shapeSvg;
};
const start = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", "node default").attr("id", node.domId || node.id);
const circle2 = shapeSvg.insert("circle", ":first-child");
circle2.attr("class", "state-start").attr("r", 7).attr("width", 14).attr("height", 14);
updateNodeBounds(node, circle2);
node.intersect = function(point2) {
return intersect.circle(node, 7, point2);
};
return shapeSvg;
};
const forkJoin = (parent, node, dir) => {
const shapeSvg = parent.insert("g").attr("class", "node default").attr("id", node.domId || node.id);
let width = 70;
let height = 10;
if (dir === "LR") {
width = 10;
height = 70;
}
const shape = shapeSvg.append("rect").attr("x", -1 * width / 2).attr("y", -1 * height / 2).attr("width", width).attr("height", height).attr("class", "fork-join");
updateNodeBounds(node, shape);
node.height = node.height + node.padding / 2;
node.width = node.width + node.padding / 2;
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const end = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", "node default").attr("id", node.domId || node.id);
const innerCircle = shapeSvg.insert("circle", ":first-child");
const circle2 = shapeSvg.insert("circle", ":first-child");
circle2.attr("class", "state-start").attr("r", 7).attr("width", 14).attr("height", 14);
innerCircle.attr("class", "state-end").attr("r", 5).attr("width", 10).attr("height", 10);
updateNodeBounds(node, circle2);
node.intersect = function(point2) {
return intersect.circle(node, 7, point2);
};
return shapeSvg;
};
const class_box = (parent, node) => {
const halfPadding = node.padding / 2;
const rowPadding = 4;
const lineHeight = 8;
let classes;
if (!node.classes) {
classes = "node default";
} else {
classes = "node " + node.classes;
}
const shapeSvg = parent.insert("g").attr("class", classes).attr("id", node.domId || node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const topLine = shapeSvg.insert("line");
const bottomLine = shapeSvg.insert("line");
let maxWidth = 0;
let maxHeight = rowPadding;
const labelContainer = shapeSvg.insert("g").attr("class", "label");
let verticalPos = 0;
const hasInterface = node.classData.annotations && node.classData.annotations[0];
const interfaceLabelText = node.classData.annotations[0] ? "«" + node.classData.annotations[0] + "»" : "";
const interfaceLabel = labelContainer.node().appendChild(createLabel$1(interfaceLabelText, node.labelStyle, true, true));
let interfaceBBox = interfaceLabel.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = interfaceLabel.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(interfaceLabel);
interfaceBBox = div.getBoundingClientRect();
dv.attr("width", interfaceBBox.width);
dv.attr("height", interfaceBBox.height);
}
if (node.classData.annotations[0]) {
maxHeight += interfaceBBox.height + rowPadding;
maxWidth += interfaceBBox.width;
}
let classTitleString = node.classData.label;
if (node.classData.type !== void 0 && node.classData.type !== "") {
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels) {
classTitleString += "&lt;" + node.classData.type + "&gt;";
} else {
classTitleString += "<" + node.classData.type + ">";
}
}
const classTitleLabel = labelContainer.node().appendChild(createLabel$1(classTitleString, node.labelStyle, true, true));
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(classTitleLabel).attr("class", "classTitle");
let classTitleBBox = classTitleLabel.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = classTitleLabel.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(classTitleLabel);
classTitleBBox = div.getBoundingClientRect();
dv.attr("width", classTitleBBox.width);
dv.attr("height", classTitleBBox.height);
}
maxHeight += classTitleBBox.height + rowPadding;
if (classTitleBBox.width > maxWidth) {
maxWidth = classTitleBBox.width;
}
const classAttributes = [];
node.classData.members.forEach((member) => {
const parsedInfo = member.getDisplayDetails();
let parsedText = parsedInfo.displayText;
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels) {
parsedText = parsedText.replace(/</g, "&lt;").replace(/>/g, "&gt;");
}
const lbl = labelContainer.node().appendChild(
createLabel$1(
parsedText,
parsedInfo.cssStyle ? parsedInfo.cssStyle : node.labelStyle,
true,
true
)
);
let bbox = lbl.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = lbl.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(lbl);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
if (bbox.width > maxWidth) {
maxWidth = bbox.width;
}
maxHeight += bbox.height + rowPadding;
classAttributes.push(lbl);
});
maxHeight += lineHeight;
const classMethods = [];
node.classData.methods.forEach((member) => {
const parsedInfo = member.getDisplayDetails();
let displayText = parsedInfo.displayText;
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels) {
displayText = displayText.replace(/</g, "&lt;").replace(/>/g, "&gt;");
}
const lbl = labelContainer.node().appendChild(
createLabel$1(
displayText,
parsedInfo.cssStyle ? parsedInfo.cssStyle : node.labelStyle,
true,
true
)
);
let bbox = lbl.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels)) {
const div = lbl.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(lbl);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
if (bbox.width > maxWidth) {
maxWidth = bbox.width;
}
maxHeight += bbox.height + rowPadding;
classMethods.push(lbl);
});
maxHeight += lineHeight;
if (hasInterface) {
let diffX2 = (maxWidth - interfaceBBox.width) / 2;
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(interfaceLabel).attr(
"transform",
"translate( " + (-1 * maxWidth / 2 + diffX2) + ", " + -1 * maxHeight / 2 + ")"
);
verticalPos = interfaceBBox.height + rowPadding;
}
let diffX = (maxWidth - classTitleBBox.width) / 2;
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(classTitleLabel).attr(
"transform",
"translate( " + (-1 * maxWidth / 2 + diffX) + ", " + (-1 * maxHeight / 2 + verticalPos) + ")"
);
verticalPos += classTitleBBox.height + rowPadding;
topLine.attr("class", "divider").attr("x1", -maxWidth / 2 - halfPadding).attr("x2", maxWidth / 2 + halfPadding).attr("y1", -maxHeight / 2 - halfPadding + lineHeight + verticalPos).attr("y2", -maxHeight / 2 - halfPadding + lineHeight + verticalPos);
verticalPos += lineHeight;
classAttributes.forEach((lbl) => {
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(lbl).attr(
"transform",
"translate( " + -maxWidth / 2 + ", " + (-1 * maxHeight / 2 + verticalPos + lineHeight / 2) + ")"
);
const memberBBox = lbl == null ? void 0 : lbl.getBBox();
verticalPos += ((memberBBox == null ? void 0 : memberBBox.height) ?? 0) + rowPadding;
});
verticalPos += lineHeight;
bottomLine.attr("class", "divider").attr("x1", -maxWidth / 2 - halfPadding).attr("x2", maxWidth / 2 + halfPadding).attr("y1", -maxHeight / 2 - halfPadding + lineHeight + verticalPos).attr("y2", -maxHeight / 2 - halfPadding + lineHeight + verticalPos);
verticalPos += lineHeight;
classMethods.forEach((lbl) => {
(0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(lbl).attr(
"transform",
"translate( " + -maxWidth / 2 + ", " + (-1 * maxHeight / 2 + verticalPos) + ")"
);
const memberBBox = lbl == null ? void 0 : lbl.getBBox();
verticalPos += ((memberBBox == null ? void 0 : memberBBox.height) ?? 0) + rowPadding;
});
rect2.attr("class", "outer title-state").attr("x", -maxWidth / 2 - halfPadding).attr("y", -(maxHeight / 2) - halfPadding).attr("width", maxWidth + node.padding).attr("height", maxHeight + node.padding);
updateNodeBounds(node, rect2);
node.intersect = function(point2) {
return intersect.rect(node, point2);
};
return shapeSvg;
};
const shapes = {
rhombus: question,
question,
rect,
labelRect,
rectWithTitle,
choice,
circle,
doublecircle,
stadium,
hexagon,
rect_left_inv_arrow,
lean_right,
lean_left,
trapezoid,
inv_trapezoid,
rect_right_inv_arrow,
cylinder,
start,
end,
note: note$1,
subroutine,
fork: forkJoin,
join: forkJoin,
class_box
};
let nodeElems = {};
const insertNode = async (elem, node, dir) => {
let newEl;
let el;
if (node.link) {
let target;
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().securityLevel === "sandbox") {
target = "_top";
} else if (node.linkTarget) {
target = node.linkTarget || "_blank";
}
newEl = elem.insert("svg:a").attr("xlink:href", node.link).attr("target", target);
el = await shapes[node.shape](newEl, node, dir);
} else {
el = await shapes[node.shape](elem, node, dir);
newEl = el;
}
if (node.tooltip) {
el.attr("title", node.tooltip);
}
if (node.class) {
el.attr("class", "node default " + node.class);
}
nodeElems[node.id] = newEl;
if (node.haveCallback) {
nodeElems[node.id].attr("class", nodeElems[node.id].attr("class") + " clickable");
}
return newEl;
};
const setNodeElem = (elem, node) => {
nodeElems[node.id] = elem;
};
const clear$1 = () => {
nodeElems = {};
};
const positionNode = (node) => {
const el = nodeElems[node.id];
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.trace(
"Transforming node",
node.diff,
node,
"translate(" + (node.x - node.width / 2 - 5) + ", " + node.width / 2 + ")"
);
const padding = 8;
const diff = node.diff || 0;
if (node.clusterNode) {
el.attr(
"transform",
"translate(" + (node.x + diff - node.width / 2) + ", " + (node.y - node.height / 2 - padding) + ")"
);
} else {
el.attr("transform", "translate(" + node.x + ", " + node.y + ")");
}
return diff;
};
const markerOffsets = {
aggregation: 18,
extension: 18,
composition: 18,
dependency: 6,
lollipop: 13.5,
arrow_point: 5.3
};
function calculateDeltaAndAngle(point1, point2) {
point1 = pointTransformer(point1);
point2 = pointTransformer(point2);
const [x1, y1] = [point1.x, point1.y];
const [x2, y2] = [point2.x, point2.y];
const deltaX = x2 - x1;
const deltaY = y2 - y1;
return { angle: Math.atan(deltaY / deltaX), deltaX, deltaY };
}
const pointTransformer = (data) => {
if (Array.isArray(data)) {
return { x: data[0], y: data[1] };
}
return data;
};
const getLineFunctionsWithOffset = (edge) => {
return {
x: function(d, i, data) {
let offset = 0;
if (i === 0 && Object.hasOwn(markerOffsets, edge.arrowTypeStart)) {
const { angle, deltaX } = calculateDeltaAndAngle(data[0], data[1]);
offset = markerOffsets[edge.arrowTypeStart] * Math.cos(angle) * (deltaX >= 0 ? 1 : -1);
} else if (i === data.length - 1 && Object.hasOwn(markerOffsets, edge.arrowTypeEnd)) {
const { angle, deltaX } = calculateDeltaAndAngle(
data[data.length - 1],
data[data.length - 2]
);
offset = markerOffsets[edge.arrowTypeEnd] * Math.cos(angle) * (deltaX >= 0 ? 1 : -1);
}
return pointTransformer(d).x + offset;
},
y: function(d, i, data) {
let offset = 0;
if (i === 0 && Object.hasOwn(markerOffsets, edge.arrowTypeStart)) {
const { angle, deltaY } = calculateDeltaAndAngle(data[0], data[1]);
offset = markerOffsets[edge.arrowTypeStart] * Math.abs(Math.sin(angle)) * (deltaY >= 0 ? 1 : -1);
} else if (i === data.length - 1 && Object.hasOwn(markerOffsets, edge.arrowTypeEnd)) {
const { angle, deltaY } = calculateDeltaAndAngle(
data[data.length - 1],
data[data.length - 2]
);
offset = markerOffsets[edge.arrowTypeEnd] * Math.abs(Math.sin(angle)) * (deltaY >= 0 ? 1 : -1);
}
return pointTransformer(d).y + offset;
}
};
};
let edgeLabels = {};
let terminalLabels = {};
const clear = () => {
edgeLabels = {};
terminalLabels = {};
};
const insertEdgeLabel = (elem, edge) => {
const useHtmlLabels = (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels);
const labelElement = edge.labelType === "markdown" ? (0,_createText_aebacdfe_js__WEBPACK_IMPORTED_MODULE_2__.a)(elem, edge.label, {
style: edge.labelStyle,
useHtmlLabels,
addSvgBackground: true
}) : createLabel$1(edge.label, edge.labelStyle);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("abc82", edge, edge.labelType);
const edgeLabel = elem.insert("g").attr("class", "edgeLabel");
const label = edgeLabel.insert("g").attr("class", "label");
label.node().appendChild(labelElement);
let bbox = labelElement.getBBox();
if (useHtmlLabels) {
const div = labelElement.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .select */ .Ys)(labelElement);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
label.attr("transform", "translate(" + -bbox.width / 2 + ", " + -bbox.height / 2 + ")");
edgeLabels[edge.id] = edgeLabel;
edge.width = bbox.width;
edge.height = bbox.height;
let fo;
if (edge.startLabelLeft) {
const startLabelElement = createLabel$1(edge.startLabelLeft, edge.labelStyle);
const startEdgeLabelLeft = elem.insert("g").attr("class", "edgeTerminals");
const inner = startEdgeLabelLeft.insert("g").attr("class", "inner");
fo = inner.node().appendChild(startLabelElement);
const slBox = startLabelElement.getBBox();
inner.attr("transform", "translate(" + -slBox.width / 2 + ", " + -slBox.height / 2 + ")");
if (!terminalLabels[edge.id]) {
terminalLabels[edge.id] = {};
}
terminalLabels[edge.id].startLeft = startEdgeLabelLeft;
setTerminalWidth(fo, edge.startLabelLeft);
}
if (edge.startLabelRight) {
const startLabelElement = createLabel$1(edge.startLabelRight, edge.labelStyle);
const startEdgeLabelRight = elem.insert("g").attr("class", "edgeTerminals");
const inner = startEdgeLabelRight.insert("g").attr("class", "inner");
fo = startEdgeLabelRight.node().appendChild(startLabelElement);
inner.node().appendChild(startLabelElement);
const slBox = startLabelElement.getBBox();
inner.attr("transform", "translate(" + -slBox.width / 2 + ", " + -slBox.height / 2 + ")");
if (!terminalLabels[edge.id]) {
terminalLabels[edge.id] = {};
}
terminalLabels[edge.id].startRight = startEdgeLabelRight;
setTerminalWidth(fo, edge.startLabelRight);
}
if (edge.endLabelLeft) {
const endLabelElement = createLabel$1(edge.endLabelLeft, edge.labelStyle);
const endEdgeLabelLeft = elem.insert("g").attr("class", "edgeTerminals");
const inner = endEdgeLabelLeft.insert("g").attr("class", "inner");
fo = inner.node().appendChild(endLabelElement);
const slBox = endLabelElement.getBBox();
inner.attr("transform", "translate(" + -slBox.width / 2 + ", " + -slBox.height / 2 + ")");
endEdgeLabelLeft.node().appendChild(endLabelElement);
if (!terminalLabels[edge.id]) {
terminalLabels[edge.id] = {};
}
terminalLabels[edge.id].endLeft = endEdgeLabelLeft;
setTerminalWidth(fo, edge.endLabelLeft);
}
if (edge.endLabelRight) {
const endLabelElement = createLabel$1(edge.endLabelRight, edge.labelStyle);
const endEdgeLabelRight = elem.insert("g").attr("class", "edgeTerminals");
const inner = endEdgeLabelRight.insert("g").attr("class", "inner");
fo = inner.node().appendChild(endLabelElement);
const slBox = endLabelElement.getBBox();
inner.attr("transform", "translate(" + -slBox.width / 2 + ", " + -slBox.height / 2 + ")");
endEdgeLabelRight.node().appendChild(endLabelElement);
if (!terminalLabels[edge.id]) {
terminalLabels[edge.id] = {};
}
terminalLabels[edge.id].endRight = endEdgeLabelRight;
setTerminalWidth(fo, edge.endLabelRight);
}
return labelElement;
};
function setTerminalWidth(fo, value) {
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.htmlLabels && fo) {
fo.style.width = value.length * 9 + "px";
fo.style.height = "12px";
}
}
const positionEdgeLabel = (edge, paths) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("Moving label abc78 ", edge.id, edge.label, edgeLabels[edge.id]);
let path = paths.updatedPath ? paths.updatedPath : paths.originalPath;
if (edge.label) {
const el = edgeLabels[edge.id];
let x = edge.x;
let y = edge.y;
if (path) {
const pos = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.u.calcLabelPosition(path);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info(
"Moving label " + edge.label + " from (",
x,
",",
y,
") to (",
pos.x,
",",
pos.y,
") abc78"
);
if (paths.updatedPath) {
x = pos.x;
y = pos.y;
}
}
el.attr("transform", "translate(" + x + ", " + y + ")");
}
if (edge.startLabelLeft) {
const el = terminalLabels[edge.id].startLeft;
let x = edge.x;
let y = edge.y;
if (path) {
const pos = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.u.calcTerminalLabelPosition(edge.arrowTypeStart ? 10 : 0, "start_left", path);
x = pos.x;
y = pos.y;
}
el.attr("transform", "translate(" + x + ", " + y + ")");
}
if (edge.startLabelRight) {
const el = terminalLabels[edge.id].startRight;
let x = edge.x;
let y = edge.y;
if (path) {
const pos = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.u.calcTerminalLabelPosition(
edge.arrowTypeStart ? 10 : 0,
"start_right",
path
);
x = pos.x;
y = pos.y;
}
el.attr("transform", "translate(" + x + ", " + y + ")");
}
if (edge.endLabelLeft) {
const el = terminalLabels[edge.id].endLeft;
let x = edge.x;
let y = edge.y;
if (path) {
const pos = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.u.calcTerminalLabelPosition(edge.arrowTypeEnd ? 10 : 0, "end_left", path);
x = pos.x;
y = pos.y;
}
el.attr("transform", "translate(" + x + ", " + y + ")");
}
if (edge.endLabelRight) {
const el = terminalLabels[edge.id].endRight;
let x = edge.x;
let y = edge.y;
if (path) {
const pos = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.u.calcTerminalLabelPosition(edge.arrowTypeEnd ? 10 : 0, "end_right", path);
x = pos.x;
y = pos.y;
}
el.attr("transform", "translate(" + x + ", " + y + ")");
}
};
const outsideNode = (node, point2) => {
const x = node.x;
const y = node.y;
const dx = Math.abs(point2.x - x);
const dy = Math.abs(point2.y - y);
const w = node.width / 2;
const h = node.height / 2;
if (dx >= w || dy >= h) {
return true;
}
return false;
};
const intersection = (node, outsidePoint, insidePoint) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn(`intersection calc abc89:
outsidePoint: ${JSON.stringify(outsidePoint)}
insidePoint : ${JSON.stringify(insidePoint)}
node : x:${node.x} y:${node.y} w:${node.width} h:${node.height}`);
const x = node.x;
const y = node.y;
const dx = Math.abs(x - insidePoint.x);
const w = node.width / 2;
let r = insidePoint.x < outsidePoint.x ? w - dx : w + dx;
const h = node.height / 2;
const Q = Math.abs(outsidePoint.y - insidePoint.y);
const R = Math.abs(outsidePoint.x - insidePoint.x);
if (Math.abs(y - outsidePoint.y) * w > Math.abs(x - outsidePoint.x) * h) {
let q = insidePoint.y < outsidePoint.y ? outsidePoint.y - h - y : y - h - outsidePoint.y;
r = R * q / Q;
const res = {
x: insidePoint.x < outsidePoint.x ? insidePoint.x + r : insidePoint.x - R + r,
y: insidePoint.y < outsidePoint.y ? insidePoint.y + Q - q : insidePoint.y - Q + q
};
if (r === 0) {
res.x = outsidePoint.x;
res.y = outsidePoint.y;
}
if (R === 0) {
res.x = outsidePoint.x;
}
if (Q === 0) {
res.y = outsidePoint.y;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn(`abc89 topp/bott calc, Q ${Q}, q ${q}, R ${R}, r ${r}`, res);
return res;
} else {
if (insidePoint.x < outsidePoint.x) {
r = outsidePoint.x - w - x;
} else {
r = x - w - outsidePoint.x;
}
let q = Q * r / R;
let _x = insidePoint.x < outsidePoint.x ? insidePoint.x + R - r : insidePoint.x - R + r;
let _y = insidePoint.y < outsidePoint.y ? insidePoint.y + q : insidePoint.y - q;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn(`sides calc abc89, Q ${Q}, q ${q}, R ${R}, r ${r}`, { _x, _y });
if (r === 0) {
_x = outsidePoint.x;
_y = outsidePoint.y;
}
if (R === 0) {
_x = outsidePoint.x;
}
if (Q === 0) {
_y = outsidePoint.y;
}
return { x: _x, y: _y };
}
};
const cutPathAtIntersect = (_points, boundryNode) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 cutPathAtIntersect", _points, boundryNode);
let points = [];
let lastPointOutside = _points[0];
let isInside = false;
_points.forEach((point2) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("abc88 checking point", point2, boundryNode);
if (!outsideNode(boundryNode, point2) && !isInside) {
const inter = intersection(boundryNode, lastPointOutside, point2);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 inside", point2, lastPointOutside, inter);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 intersection", inter);
let pointPresent = false;
points.forEach((p) => {
pointPresent = pointPresent || p.x === inter.x && p.y === inter.y;
});
if (!points.some((e) => e.x === inter.x && e.y === inter.y)) {
points.push(inter);
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 no intersect", inter, points);
}
isInside = true;
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 outside", point2, lastPointOutside);
lastPointOutside = point2;
if (!isInside) {
points.push(point2);
}
}
});
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.warn("abc88 returning points", points);
return points;
};
const insertEdge = function(elem, e, edge, clusterDb, diagramType, graph, id) {
let points = edge.points;
let pointsHasChanged = false;
const tail = graph.node(e.v);
var head = graph.node(e.w);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("abc88 InsertEdge: ", edge);
if (head.intersect && tail.intersect) {
points = points.slice(1, edge.points.length - 1);
points.unshift(tail.intersect(points[0]));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info(
"Last point",
points[points.length - 1],
head,
head.intersect(points[points.length - 1])
);
points.push(head.intersect(points[points.length - 1]));
}
if (edge.toCluster) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("to cluster abc88", clusterDb[edge.toCluster]);
points = cutPathAtIntersect(edge.points, clusterDb[edge.toCluster].node);
pointsHasChanged = true;
}
if (edge.fromCluster) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("from cluster abc88", clusterDb[edge.fromCluster]);
points = cutPathAtIntersect(points.reverse(), clusterDb[edge.fromCluster].node).reverse();
pointsHasChanged = true;
}
const lineData = points.filter((p) => !Number.isNaN(p.y));
let curve = d3__WEBPACK_IMPORTED_MODULE_0__/* .curveBasis */ .$0Z;
if (edge.curve && (diagramType === "graph" || diagramType === "flowchart")) {
curve = edge.curve;
}
const { x, y } = getLineFunctionsWithOffset(edge);
const lineFunction = (0,d3__WEBPACK_IMPORTED_MODULE_0__/* .line */ .jvg)().x(x).y(y).curve(curve);
let strokeClasses;
switch (edge.thickness) {
case "normal":
strokeClasses = "edge-thickness-normal";
break;
case "thick":
strokeClasses = "edge-thickness-thick";
break;
case "invisible":
strokeClasses = "edge-thickness-thick";
break;
default:
strokeClasses = "";
}
switch (edge.pattern) {
case "solid":
strokeClasses += " edge-pattern-solid";
break;
case "dotted":
strokeClasses += " edge-pattern-dotted";
break;
case "dashed":
strokeClasses += " edge-pattern-dashed";
break;
}
const svgPath = elem.append("path").attr("d", lineFunction(lineData)).attr("id", edge.id).attr("class", " " + strokeClasses + (edge.classes ? " " + edge.classes : "")).attr("style", edge.style);
let url = "";
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().flowchart.arrowMarkerAbsolute || (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.c)().state.arrowMarkerAbsolute) {
url = window.location.protocol + "//" + window.location.host + window.location.pathname + window.location.search;
url = url.replace(/\(/g, "\\(");
url = url.replace(/\)/g, "\\)");
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("arrowTypeStart", edge.arrowTypeStart);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_1__.l.info("arrowTypeEnd", edge.arrowTypeEnd);
switch (edge.arrowTypeStart) {
case "arrow_cross":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-crossStart)"
);
break;
case "arrow_point":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-pointStart)"
);
break;
case "arrow_barb":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-barbStart)"
);
break;
case "arrow_circle":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-circleStart)"
);
break;
case "aggregation":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-aggregationStart)"
);
break;
case "extension":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-extensionStart)"
);
break;
case "composition":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-compositionStart)"
);
break;
case "dependency":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-dependencyStart)"
);
break;
case "lollipop":
svgPath.attr(
"marker-start",
"url(" + url + "#" + id + "_" + diagramType + "-lollipopStart)"
);
break;
}
switch (edge.arrowTypeEnd) {
case "arrow_cross":
svgPath.attr("marker-end", "url(" + url + "#" + id + "_" + diagramType + "-crossEnd)");
break;
case "arrow_point":
svgPath.attr("marker-end", "url(" + url + "#" + id + "_" + diagramType + "-pointEnd)");
break;
case "arrow_barb":
svgPath.attr("marker-end", "url(" + url + "#" + id + "_" + diagramType + "-barbEnd)");
break;
case "arrow_circle":
svgPath.attr("marker-end", "url(" + url + "#" + id + "_" + diagramType + "-circleEnd)");
break;
case "aggregation":
svgPath.attr(
"marker-end",
"url(" + url + "#" + id + "_" + diagramType + "-aggregationEnd)"
);
break;
case "extension":
svgPath.attr(
"marker-end",
"url(" + url + "#" + id + "_" + diagramType + "-extensionEnd)"
);
break;
case "composition":
svgPath.attr(
"marker-end",
"url(" + url + "#" + id + "_" + diagramType + "-compositionEnd)"
);
break;
case "dependency":
svgPath.attr(
"marker-end",
"url(" + url + "#" + id + "_" + diagramType + "-dependencyEnd)"
);
break;
case "lollipop":
svgPath.attr(
"marker-end",
"url(" + url + "#" + id + "_" + diagramType + "-lollipopEnd)"
);
break;
}
let paths = {};
if (pointsHasChanged) {
paths.updatedPath = points;
}
paths.originalPath = edge.points;
return paths;
};
/***/ }),
/***/ 87936:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ r: () => (/* binding */ render)
/* harmony export */ });
/* harmony import */ var dagre_d3_es_src_dagre_index_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(41644);
/* harmony import */ var dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(39354);
/* harmony import */ var _edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__ = __webpack_require__(25269);
/* harmony import */ var _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__ = __webpack_require__(85322);
/* harmony import */ var dagre_d3_es_src_graphlib_index_js__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(45625);
/* harmony import */ var _createText_aebacdfe_js__WEBPACK_IMPORTED_MODULE_5__ = __webpack_require__(54511);
/* harmony import */ var d3__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(64218);
let clusterDb = {};
let descendants = {};
let parents = {};
const clear$1 = () => {
descendants = {};
parents = {};
clusterDb = {};
};
const isDescendant = (id, ancenstorId) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("In isDecendant", ancenstorId, " ", id, " = ", descendants[ancenstorId].includes(id));
if (descendants[ancenstorId].includes(id)) {
return true;
}
return false;
};
const edgeInCluster = (edge, clusterId) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Decendants of ", clusterId, " is ", descendants[clusterId]);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge is ", edge);
if (edge.v === clusterId) {
return false;
}
if (edge.w === clusterId) {
return false;
}
if (!descendants[clusterId]) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Tilt, ", clusterId, ",not in decendants");
return false;
}
return descendants[clusterId].includes(edge.v) || isDescendant(edge.v, clusterId) || isDescendant(edge.w, clusterId) || descendants[clusterId].includes(edge.w);
};
const copy = (clusterId, graph, newGraph, rootId) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(
"Copying children of ",
clusterId,
"root",
rootId,
"data",
graph.node(clusterId),
rootId
);
const nodes = graph.children(clusterId) || [];
if (clusterId !== rootId) {
nodes.push(clusterId);
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Copying (nodes) clusterId", clusterId, "nodes", nodes);
nodes.forEach((node) => {
if (graph.children(node).length > 0) {
copy(node, graph, newGraph, rootId);
} else {
const data = graph.node(node);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("cp ", node, " to ", rootId, " with parent ", clusterId);
newGraph.setNode(node, data);
if (rootId !== graph.parent(node)) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Setting parent", node, graph.parent(node));
newGraph.setParent(node, graph.parent(node));
}
if (clusterId !== rootId && node !== clusterId) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Setting parent", node, clusterId);
newGraph.setParent(node, clusterId);
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("In copy ", clusterId, "root", rootId, "data", graph.node(clusterId), rootId);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug(
"Not Setting parent for node=",
node,
"cluster!==rootId",
clusterId !== rootId,
"node!==clusterId",
node !== clusterId
);
}
const edges = graph.edges(node);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Copying Edges", edges);
edges.forEach((edge) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge", edge);
const data2 = graph.edge(edge.v, edge.w, edge.name);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge data", data2, rootId);
try {
if (edgeInCluster(edge, rootId)) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Copying as ", edge.v, edge.w, data2, edge.name);
newGraph.setEdge(edge.v, edge.w, data2, edge.name);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("newGraph edges ", newGraph.edges(), newGraph.edge(newGraph.edges()[0]));
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info(
"Skipping copy of edge ",
edge.v,
"-->",
edge.w,
" rootId: ",
rootId,
" clusterId:",
clusterId
);
}
} catch (e) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.error(e);
}
});
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Removing node", node);
graph.removeNode(node);
});
};
const extractDescendants = (id, graph) => {
const children = graph.children(id);
let res = [...children];
for (const child of children) {
parents[child] = id;
res = [...res, ...extractDescendants(child, graph)];
}
return res;
};
const findNonClusterChild = (id, graph) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Searching", id);
const children = graph.children(id);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Searching children of id ", id, children);
if (children.length < 1) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("This is a valid node", id);
return id;
}
for (const child of children) {
const _id = findNonClusterChild(child, graph);
if (_id) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Found replacement for", id, " => ", _id);
return _id;
}
}
};
const getAnchorId = (id) => {
if (!clusterDb[id]) {
return id;
}
if (!clusterDb[id].externalConnections) {
return id;
}
if (clusterDb[id]) {
return clusterDb[id].id;
}
return id;
};
const adjustClustersAndEdges = (graph, depth) => {
if (!graph || depth > 10) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Opting out, no graph ");
return;
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Opting in, graph ");
}
graph.nodes().forEach(function(id) {
const children = graph.children(id);
if (children.length > 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(
"Cluster identified",
id,
" Replacement id in edges: ",
findNonClusterChild(id, graph)
);
descendants[id] = extractDescendants(id, graph);
clusterDb[id] = { id: findNonClusterChild(id, graph), clusterData: graph.node(id) };
}
});
graph.nodes().forEach(function(id) {
const children = graph.children(id);
const edges = graph.edges();
if (children.length > 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Cluster identified", id, descendants);
edges.forEach((edge) => {
if (edge.v !== id && edge.w !== id) {
const d1 = isDescendant(edge.v, id);
const d2 = isDescendant(edge.w, id);
if (d1 ^ d2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Edge: ", edge, " leaves cluster ", id);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Decendants of XXX ", id, ": ", descendants[id]);
clusterDb[id].externalConnections = true;
}
}
});
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Not a cluster ", id, descendants);
}
});
graph.edges().forEach(function(e) {
const edge = graph.edge(e);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(graph.edge(e)));
let v = e.v;
let w = e.w;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(
"Fix XXX",
clusterDb,
"ids:",
e.v,
e.w,
"Translating: ",
clusterDb[e.v],
" --- ",
clusterDb[e.w]
);
if (clusterDb[e.v] && clusterDb[e.w] && clusterDb[e.v] === clusterDb[e.w]) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Fixing and trixing link to self - removing XXX", e.v, e.w, e.name);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Fixing and trixing - removing XXX", e.v, e.w, e.name);
v = getAnchorId(e.v);
w = getAnchorId(e.w);
graph.removeEdge(e.v, e.w, e.name);
const specialId = e.w + "---" + e.v;
graph.setNode(specialId, {
domId: specialId,
id: specialId,
labelStyle: "",
labelText: edge.label,
padding: 0,
shape: "labelRect",
style: ""
});
const edge1 = structuredClone(edge);
const edge2 = structuredClone(edge);
edge1.label = "";
edge1.arrowTypeEnd = "none";
edge2.label = "";
edge1.fromCluster = e.v;
edge2.toCluster = e.v;
graph.setEdge(v, specialId, edge1, e.name + "-cyclic-special");
graph.setEdge(specialId, w, edge2, e.name + "-cyclic-special");
} else if (clusterDb[e.v] || clusterDb[e.w]) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Fixing and trixing - removing XXX", e.v, e.w, e.name);
v = getAnchorId(e.v);
w = getAnchorId(e.w);
graph.removeEdge(e.v, e.w, e.name);
if (v !== e.v) {
edge.fromCluster = e.v;
}
if (w !== e.w) {
edge.toCluster = e.w;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Fix Replacing with XXX", v, w, e.name);
graph.setEdge(v, w, edge, e.name);
}
});
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Adjusted Graph", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph));
extractor(graph, 0);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace(clusterDb);
};
const extractor = (graph, depth) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("extractor - ", depth, dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph), graph.children("D"));
if (depth > 10) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.error("Bailing out");
return;
}
let nodes = graph.nodes();
let hasChildren = false;
for (const node of nodes) {
const children = graph.children(node);
hasChildren = hasChildren || children.length > 0;
}
if (!hasChildren) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Done, no node has children", graph.nodes());
return;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Nodes = ", nodes, depth);
for (const node of nodes) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug(
"Extracting node",
node,
clusterDb,
clusterDb[node] && !clusterDb[node].externalConnections,
!graph.parent(node),
graph.node(node),
graph.children("D"),
" Depth ",
depth
);
if (!clusterDb[node]) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Not a cluster", node, depth);
} else if (!clusterDb[node].externalConnections && // !graph.parent(node) &&
graph.children(node) && graph.children(node).length > 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(
"Cluster without external connections, without a parent and with children",
node,
depth
);
const graphSettings = graph.graph();
let dir = graphSettings.rankdir === "TB" ? "LR" : "TB";
if (clusterDb[node] && clusterDb[node].clusterData && clusterDb[node].clusterData.dir) {
dir = clusterDb[node].clusterData.dir;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Fixing dir", clusterDb[node].clusterData.dir, dir);
}
const clusterGraph = new dagre_d3_es_src_graphlib_index_js__WEBPACK_IMPORTED_MODULE_2__/* .Graph */ .k({
multigraph: true,
compound: true
}).setGraph({
rankdir: dir,
// Todo: set proper spacing
nodesep: 50,
ranksep: 50,
marginx: 8,
marginy: 8
}).setDefaultEdgeLabel(function() {
return {};
});
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Old graph before copy", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph));
copy(node, graph, clusterGraph, node);
graph.setNode(node, {
clusterNode: true,
id: node,
clusterData: clusterDb[node].clusterData,
labelText: clusterDb[node].labelText,
graph: clusterGraph
});
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("New graph after copy node: (", node, ")", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(clusterGraph));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug("Old graph after copy", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph));
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(
"Cluster ** ",
node,
" **not meeting the criteria !externalConnections:",
!clusterDb[node].externalConnections,
" no parent: ",
!graph.parent(node),
" children ",
graph.children(node) && graph.children(node).length > 0,
graph.children("D"),
depth
);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.debug(clusterDb);
}
}
nodes = graph.nodes();
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("New list of nodes", nodes);
for (const node of nodes) {
const data = graph.node(node);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn(" Now next level", node, data);
if (data.clusterNode) {
extractor(data.graph, depth + 1);
}
}
};
const sorter = (graph, nodes) => {
if (nodes.length === 0) {
return [];
}
let result = Object.assign(nodes);
nodes.forEach((node) => {
const children = graph.children(node);
const sorted = sorter(graph, children);
result = [...result, ...sorted];
});
return result;
};
const sortNodesByHierarchy = (graph) => sorter(graph, graph.children());
const rect = (parent, node) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Creating subgraph rect for ", node.id, node);
const shapeSvg = parent.insert("g").attr("class", "cluster" + (node.class ? " " + node.class : "")).attr("id", node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const useHtmlLabels = (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.c)().flowchart.htmlLabels);
const label = shapeSvg.insert("g").attr("class", "cluster-label");
const text = node.labelType === "markdown" ? (0,_createText_aebacdfe_js__WEBPACK_IMPORTED_MODULE_5__.a)(label, node.labelText, { style: node.labelStyle, useHtmlLabels }) : label.node().appendChild((0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.c)(node.labelText, node.labelStyle, void 0, true));
let bbox = text.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.c)().flowchart.htmlLabels)) {
const div = text.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_3__/* .select */ .Ys)(text);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
const padding = 0 * node.padding;
const halfPadding = padding / 2;
const width = node.width <= bbox.width + padding ? bbox.width + padding : node.width;
if (node.width <= bbox.width + padding) {
node.diff = (bbox.width - node.width) / 2 - node.padding / 2;
} else {
node.diff = -node.padding / 2;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Data ", node, JSON.stringify(node));
rect2.attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("x", node.x - width / 2).attr("y", node.y - node.height / 2 - halfPadding).attr("width", width).attr("height", node.height + padding);
if (useHtmlLabels) {
label.attr(
"transform",
// This puts the labal on top of the box instead of inside it
"translate(" + (node.x - bbox.width / 2) + ", " + (node.y - node.height / 2) + ")"
);
} else {
label.attr(
"transform",
// This puts the labal on top of the box instead of inside it
"translate(" + node.x + ", " + (node.y - node.height / 2) + ")"
);
}
const rectBox = rect2.node().getBBox();
node.width = rectBox.width;
node.height = rectBox.height;
node.intersect = function(point) {
return (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.i)(node, point);
};
return shapeSvg;
};
const noteGroup = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", "note-cluster").attr("id", node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const padding = 0 * node.padding;
const halfPadding = padding / 2;
rect2.attr("rx", node.rx).attr("ry", node.ry).attr("x", node.x - node.width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding).attr("width", node.width + padding).attr("height", node.height + padding).attr("fill", "none");
const rectBox = rect2.node().getBBox();
node.width = rectBox.width;
node.height = rectBox.height;
node.intersect = function(point) {
return (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.i)(node, point);
};
return shapeSvg;
};
const roundedWithTitle = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", node.classes).attr("id", node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const label = shapeSvg.insert("g").attr("class", "cluster-label");
const innerRect = shapeSvg.append("rect");
const text = label.node().appendChild((0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.c)(node.labelText, node.labelStyle, void 0, true));
let bbox = text.getBBox();
if ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.c)().flowchart.htmlLabels)) {
const div = text.children[0];
const dv = (0,d3__WEBPACK_IMPORTED_MODULE_3__/* .select */ .Ys)(text);
bbox = div.getBoundingClientRect();
dv.attr("width", bbox.width);
dv.attr("height", bbox.height);
}
bbox = text.getBBox();
const padding = 0 * node.padding;
const halfPadding = padding / 2;
const width = node.width <= bbox.width + node.padding ? bbox.width + node.padding : node.width;
if (node.width <= bbox.width + node.padding) {
node.diff = (bbox.width + node.padding * 0 - node.width) / 2;
} else {
node.diff = -node.padding / 2;
}
rect2.attr("class", "outer").attr("x", node.x - width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding).attr("width", width + padding).attr("height", node.height + padding);
innerRect.attr("class", "inner").attr("x", node.x - width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding + bbox.height - 1).attr("width", width + padding).attr("height", node.height + padding - bbox.height - 3);
label.attr(
"transform",
"translate(" + (node.x - bbox.width / 2) + ", " + (node.y - node.height / 2 - node.padding / 3 + ((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.m)((0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.c)().flowchart.htmlLabels) ? 5 : 3)) + ")"
);
const rectBox = rect2.node().getBBox();
node.height = rectBox.height;
node.intersect = function(point) {
return (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.i)(node, point);
};
return shapeSvg;
};
const divider = (parent, node) => {
const shapeSvg = parent.insert("g").attr("class", node.classes).attr("id", node.id);
const rect2 = shapeSvg.insert("rect", ":first-child");
const padding = 0 * node.padding;
const halfPadding = padding / 2;
rect2.attr("class", "divider").attr("x", node.x - node.width / 2 - halfPadding).attr("y", node.y - node.height / 2).attr("width", node.width + padding).attr("height", node.height + padding);
const rectBox = rect2.node().getBBox();
node.width = rectBox.width;
node.height = rectBox.height;
node.diff = -node.padding / 2;
node.intersect = function(point) {
return (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.i)(node, point);
};
return shapeSvg;
};
const shapes = { rect, roundedWithTitle, noteGroup, divider };
let clusterElems = {};
const insertCluster = (elem, node) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Inserting cluster");
const shape = node.shape || "rect";
clusterElems[node.id] = shapes[shape](elem, node);
};
const clear = () => {
clusterElems = {};
};
const recursiveRender = async (_elem, graph, diagramtype, id, parentCluster) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Graph in recursive render: XXX", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph), parentCluster);
const dir = graph.graph().rankdir;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Dir in recursive render - dir:", dir);
const elem = _elem.insert("g").attr("class", "root");
if (!graph.nodes()) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("No nodes found for", graph);
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Recursive render XXX", graph.nodes());
}
if (graph.edges().length > 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Recursive edges", graph.edge(graph.edges()[0]));
}
const clusters = elem.insert("g").attr("class", "clusters");
const edgePaths = elem.insert("g").attr("class", "edgePaths");
const edgeLabels = elem.insert("g").attr("class", "edgeLabels");
const nodes = elem.insert("g").attr("class", "nodes");
await Promise.all(
graph.nodes().map(async function(v) {
const node = graph.node(v);
if (parentCluster !== void 0) {
const data = JSON.parse(JSON.stringify(parentCluster.clusterData));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Setting data for cluster XXX (", v, ") ", data, parentCluster);
graph.setNode(parentCluster.id, data);
if (!graph.parent(v)) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.trace("Setting parent", v, parentCluster.id);
graph.setParent(v, parentCluster.id, data);
}
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("(Insert) Node XXX" + v + ": " + JSON.stringify(graph.node(v)));
if (node && node.clusterNode) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Cluster identified", v, node.width, graph.node(v));
const o = await recursiveRender(nodes, node.graph, diagramtype, id, graph.node(v));
const newEl = o.elem;
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.u)(node, newEl);
node.diff = o.diff || 0;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Node bounds (abc123)", v, node, node.width, node.x, node.y);
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.s)(newEl, node);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Recursive render complete ", newEl, node);
} else {
if (graph.children(v).length > 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Cluster - the non recursive path XXX", v, node.id, node, graph);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info(findNonClusterChild(node.id, graph));
clusterDb[node.id] = { id: findNonClusterChild(node.id, graph), node };
} else {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Node - the non recursive path", v, node.id, node);
await (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.e)(nodes, graph.node(v), dir);
}
}
})
);
graph.edges().forEach(function(e) {
const edge = graph.edge(e.v, e.w, e.name);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge " + e.v + " -> " + e.w + ": ", e, " ", JSON.stringify(graph.edge(e)));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Fix", clusterDb, "ids:", e.v, e.w, "Translateing: ", clusterDb[e.v], clusterDb[e.w]);
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.f)(edgeLabels, edge);
});
graph.edges().forEach(function(e) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e));
});
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("#############################################");
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("### Layout ###");
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("#############################################");
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info(graph);
(0,dagre_d3_es_src_dagre_index_js__WEBPACK_IMPORTED_MODULE_0__/* .layout */ .bK)(graph);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Graph after layout:", dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph));
let diff = 0;
sortNodesByHierarchy(graph).forEach(function(v) {
const node = graph.node(v);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Position " + v + ": " + JSON.stringify(graph.node(v)));
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info(
"Position " + v + ": (" + node.x,
"," + node.y,
") width: ",
node.width,
" height: ",
node.height
);
if (node && node.clusterNode) {
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.p)(node);
} else {
if (graph.children(v).length > 0) {
insertCluster(clusters, node);
clusterDb[node.id].node = node;
} else {
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.p)(node);
}
}
});
graph.edges().forEach(function(e) {
const edge = graph.edge(e);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(edge), edge);
const paths = (0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.g)(edgePaths, e, edge, clusterDb, diagramtype, graph, id);
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.h)(edge, paths);
});
graph.nodes().forEach(function(v) {
const n = graph.node(v);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.info(v, n.type, n.diff);
if (n.type === "group") {
diff = n.diff;
}
});
return { elem, diff };
};
const render = async (elem, graph, markers, diagramtype, id) => {
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.a)(elem, markers, diagramtype, id);
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.b)();
(0,_edges_80f1ebb6_js__WEBPACK_IMPORTED_MODULE_6__.d)();
clear();
clear$1();
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Graph at first:", JSON.stringify(dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph)));
adjustClustersAndEdges(graph);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_4__.l.warn("Graph after:", JSON.stringify(dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_1__/* .write */ .c(graph)));
await recursiveRender(elem, graph, diagramtype, id);
};
/***/ }),
/***/ 45943:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ diagram: () => (/* binding */ diagram)
/* harmony export */ });
/* harmony import */ var _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__ = __webpack_require__(41504);
/* harmony import */ var dagre_d3_es_src_graphlib_index_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(45625);
/* harmony import */ var d3__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(64218);
/* harmony import */ var _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__ = __webpack_require__(85322);
/* harmony import */ var _index_67a42d7d_js__WEBPACK_IMPORTED_MODULE_9__ = __webpack_require__(87936);
/* harmony import */ var dayjs__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(27484);
/* harmony import */ var _braintree_sanitize_url__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(17967);
/* harmony import */ var dompurify__WEBPACK_IMPORTED_MODULE_4__ = __webpack_require__(20683);
/* harmony import */ var dagre_d3_es_src_dagre_index_js__WEBPACK_IMPORTED_MODULE_5__ = __webpack_require__(41644);
/* harmony import */ var dagre_d3_es_src_graphlib_json_js__WEBPACK_IMPORTED_MODULE_6__ = __webpack_require__(39354);
const SHAPE_STATE = "rect";
const SHAPE_STATE_WITH_DESC = "rectWithTitle";
const SHAPE_START = "start";
const SHAPE_END = "end";
const SHAPE_DIVIDER = "divider";
const SHAPE_GROUP = "roundedWithTitle";
const SHAPE_NOTE = "note";
const SHAPE_NOTEGROUP = "noteGroup";
const CSS_DIAGRAM = "statediagram";
const CSS_STATE = "state";
const CSS_DIAGRAM_STATE = `${CSS_DIAGRAM}-${CSS_STATE}`;
const CSS_EDGE = "transition";
const CSS_NOTE = "note";
const CSS_NOTE_EDGE = "note-edge";
const CSS_EDGE_NOTE_EDGE = `${CSS_EDGE} ${CSS_NOTE_EDGE}`;
const CSS_DIAGRAM_NOTE = `${CSS_DIAGRAM}-${CSS_NOTE}`;
const CSS_CLUSTER = "cluster";
const CSS_DIAGRAM_CLUSTER = `${CSS_DIAGRAM}-${CSS_CLUSTER}`;
const CSS_CLUSTER_ALT = "cluster-alt";
const CSS_DIAGRAM_CLUSTER_ALT = `${CSS_DIAGRAM}-${CSS_CLUSTER_ALT}`;
const PARENT = "parent";
const NOTE = "note";
const DOMID_STATE = "state";
const DOMID_TYPE_SPACER = "----";
const NOTE_ID = `${DOMID_TYPE_SPACER}${NOTE}`;
const PARENT_ID = `${DOMID_TYPE_SPACER}${PARENT}`;
const G_EDGE_STYLE = "fill:none";
const G_EDGE_ARROWHEADSTYLE = "fill: #333";
const G_EDGE_LABELPOS = "c";
const G_EDGE_LABELTYPE = "text";
const G_EDGE_THICKNESS = "normal";
let nodeDb = {};
let graphItemCount = 0;
const setConf = function(cnf) {
const keys = Object.keys(cnf);
for (const key of keys) {
cnf[key];
}
};
const getClasses = function(text, diagramObj) {
diagramObj.db.extract(diagramObj.db.getRootDocV2());
return diagramObj.db.getClasses();
};
function getClassesFromDbInfo(dbInfoItem) {
if (dbInfoItem === void 0 || dbInfoItem === null) {
return "";
} else {
if (dbInfoItem.classes) {
return dbInfoItem.classes.join(" ");
} else {
return "";
}
}
}
function stateDomId(itemId = "", counter = 0, type = "", typeSpacer = DOMID_TYPE_SPACER) {
const typeStr = type !== null && type.length > 0 ? `${typeSpacer}${type}` : "";
return `${DOMID_STATE}-${itemId}${typeStr}-${counter}`;
}
const setupNode = (g, parent, parsedItem, diagramStates, diagramDb, altFlag) => {
const itemId = parsedItem.id;
const classStr = getClassesFromDbInfo(diagramStates[itemId]);
if (itemId !== "root") {
let shape = SHAPE_STATE;
if (parsedItem.start === true) {
shape = SHAPE_START;
}
if (parsedItem.start === false) {
shape = SHAPE_END;
}
if (parsedItem.type !== _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.D) {
shape = parsedItem.type;
}
if (!nodeDb[itemId]) {
nodeDb[itemId] = {
id: itemId,
shape,
description: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.e.sanitizeText(itemId, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.c)()),
classes: `${classStr} ${CSS_DIAGRAM_STATE}`
};
}
const newNode = nodeDb[itemId];
if (parsedItem.description) {
if (Array.isArray(newNode.description)) {
newNode.shape = SHAPE_STATE_WITH_DESC;
newNode.description.push(parsedItem.description);
} else {
if (newNode.description.length > 0) {
newNode.shape = SHAPE_STATE_WITH_DESC;
if (newNode.description === itemId) {
newNode.description = [parsedItem.description];
} else {
newNode.description = [newNode.description, parsedItem.description];
}
} else {
newNode.shape = SHAPE_STATE;
newNode.description = parsedItem.description;
}
}
newNode.description = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.e.sanitizeTextOrArray(newNode.description, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.c)());
}
if (newNode.description.length === 1 && newNode.shape === SHAPE_STATE_WITH_DESC) {
newNode.shape = SHAPE_STATE;
}
if (!newNode.type && parsedItem.doc) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.info("Setting cluster for ", itemId, getDir(parsedItem));
newNode.type = "group";
newNode.dir = getDir(parsedItem);
newNode.shape = parsedItem.type === _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.a ? SHAPE_DIVIDER : SHAPE_GROUP;
newNode.classes = newNode.classes + " " + CSS_DIAGRAM_CLUSTER + " " + (altFlag ? CSS_DIAGRAM_CLUSTER_ALT : "");
}
const nodeData = {
labelStyle: "",
shape: newNode.shape,
labelText: newNode.description,
// typeof newNode.description === 'object'
// ? newNode.description[0]
// : newNode.description,
classes: newNode.classes,
style: "",
//styles.style,
id: itemId,
dir: newNode.dir,
domId: stateDomId(itemId, graphItemCount),
type: newNode.type,
padding: 15
//getConfig().flowchart.padding
};
nodeData.centerLabel = true;
if (parsedItem.note) {
const noteData = {
labelStyle: "",
shape: SHAPE_NOTE,
labelText: parsedItem.note.text,
classes: CSS_DIAGRAM_NOTE,
// useHtmlLabels: false,
style: "",
// styles.style,
id: itemId + NOTE_ID + "-" + graphItemCount,
domId: stateDomId(itemId, graphItemCount, NOTE),
type: newNode.type,
padding: 15
//getConfig().flowchart.padding
};
const groupData = {
labelStyle: "",
shape: SHAPE_NOTEGROUP,
labelText: parsedItem.note.text,
classes: newNode.classes,
style: "",
// styles.style,
id: itemId + PARENT_ID,
domId: stateDomId(itemId, graphItemCount, PARENT),
type: "group",
padding: 0
//getConfig().flowchart.padding
};
graphItemCount++;
const parentNodeId = itemId + PARENT_ID;
g.setNode(parentNodeId, groupData);
g.setNode(noteData.id, noteData);
g.setNode(itemId, nodeData);
g.setParent(itemId, parentNodeId);
g.setParent(noteData.id, parentNodeId);
let from = itemId;
let to = noteData.id;
if (parsedItem.note.position === "left of") {
from = noteData.id;
to = itemId;
}
g.setEdge(from, to, {
arrowhead: "none",
arrowType: "",
style: G_EDGE_STYLE,
labelStyle: "",
classes: CSS_EDGE_NOTE_EDGE,
arrowheadStyle: G_EDGE_ARROWHEADSTYLE,
labelpos: G_EDGE_LABELPOS,
labelType: G_EDGE_LABELTYPE,
thickness: G_EDGE_THICKNESS
});
} else {
g.setNode(itemId, nodeData);
}
}
if (parent && parent.id !== "root") {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.trace("Setting node ", itemId, " to be child of its parent ", parent.id);
g.setParent(itemId, parent.id);
}
if (parsedItem.doc) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.trace("Adding nodes children ");
setupDoc(g, parsedItem, parsedItem.doc, diagramStates, diagramDb, !altFlag);
}
};
const setupDoc = (g, parentParsedItem, doc, diagramStates, diagramDb, altFlag) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.trace("items", doc);
doc.forEach((item) => {
switch (item.stmt) {
case _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.b:
setupNode(g, parentParsedItem, item, diagramStates, diagramDb, altFlag);
break;
case _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.D:
setupNode(g, parentParsedItem, item, diagramStates, diagramDb, altFlag);
break;
case _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.S:
{
setupNode(g, parentParsedItem, item.state1, diagramStates, diagramDb, altFlag);
setupNode(g, parentParsedItem, item.state2, diagramStates, diagramDb, altFlag);
const edgeData = {
id: "edge" + graphItemCount,
arrowhead: "normal",
arrowTypeEnd: "arrow_barb",
style: G_EDGE_STYLE,
labelStyle: "",
label: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.e.sanitizeText(item.description, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.c)()),
arrowheadStyle: G_EDGE_ARROWHEADSTYLE,
labelpos: G_EDGE_LABELPOS,
labelType: G_EDGE_LABELTYPE,
thickness: G_EDGE_THICKNESS,
classes: CSS_EDGE
};
g.setEdge(item.state1.id, item.state2.id, edgeData, graphItemCount);
graphItemCount++;
}
break;
}
});
};
const getDir = (parsedItem, defaultDir = _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.c) => {
let dir = defaultDir;
if (parsedItem.doc) {
for (let i = 0; i < parsedItem.doc.length; i++) {
const parsedItemDoc = parsedItem.doc[i];
if (parsedItemDoc.stmt === "dir") {
dir = parsedItemDoc.value;
}
}
}
return dir;
};
const draw = async function(text, id, _version, diag) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.info("Drawing state diagram (v2)", id);
nodeDb = {};
diag.db.getDirection();
const { securityLevel, state: conf } = (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.c)();
const nodeSpacing = conf.nodeSpacing || 50;
const rankSpacing = conf.rankSpacing || 50;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.info(diag.db.getRootDocV2());
diag.db.extract(diag.db.getRootDocV2());
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.info(diag.db.getRootDocV2());
const diagramStates = diag.db.getStates();
const g = new dagre_d3_es_src_graphlib_index_js__WEBPACK_IMPORTED_MODULE_0__/* .Graph */ .k({
multigraph: true,
compound: true
}).setGraph({
rankdir: getDir(diag.db.getRootDocV2()),
nodesep: nodeSpacing,
ranksep: rankSpacing,
marginx: 8,
marginy: 8
}).setDefaultEdgeLabel(function() {
return {};
});
setupNode(g, void 0, diag.db.getRootDocV2(), diagramStates, diag.db, true);
let sandboxElement;
if (securityLevel === "sandbox") {
sandboxElement = (0,d3__WEBPACK_IMPORTED_MODULE_1__/* .select */ .Ys)("#i" + id);
}
const root = securityLevel === "sandbox" ? (0,d3__WEBPACK_IMPORTED_MODULE_1__/* .select */ .Ys)(sandboxElement.nodes()[0].contentDocument.body) : (0,d3__WEBPACK_IMPORTED_MODULE_1__/* .select */ .Ys)("body");
const svg = root.select(`[id="${id}"]`);
const element = root.select("#" + id + " g");
await (0,_index_67a42d7d_js__WEBPACK_IMPORTED_MODULE_9__.r)(element, g, ["barb"], CSS_DIAGRAM, id);
const padding = 8;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.u.insertTitle(svg, "statediagramTitleText", conf.titleTopMargin, diag.db.getDiagramTitle());
const bounds = svg.node().getBBox();
const width = bounds.width + padding * 2;
const height = bounds.height + padding * 2;
svg.attr("class", CSS_DIAGRAM);
const svgBounds = svg.node().getBBox();
(0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.i)(svg, height, width, conf.useMaxWidth);
const vBox = `${svgBounds.x - padding} ${svgBounds.y - padding} ${width} ${height}`;
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_8__.l.debug(`viewBox ${vBox}`);
svg.attr("viewBox", vBox);
const labels = document.querySelectorAll('[id="' + id + '"] .edgeLabel .label');
for (const label of labels) {
const dim = label.getBBox();
const rect = document.createElementNS("http://www.w3.org/2000/svg", SHAPE_STATE);
rect.setAttribute("rx", 0);
rect.setAttribute("ry", 0);
rect.setAttribute("width", dim.width);
rect.setAttribute("height", dim.height);
label.insertBefore(rect, label.firstChild);
}
};
const renderer = {
setConf,
getClasses,
draw
};
const diagram = {
parser: _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.p,
db: _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.d,
renderer,
styles: _styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.s,
init: (cnf) => {
if (!cnf.state) {
cnf.state = {};
}
cnf.state.arrowMarkerAbsolute = cnf.arrowMarkerAbsolute;
_styles_bbc3fe3b_js__WEBPACK_IMPORTED_MODULE_7__.d.clear();
}
};
/***/ }),
/***/ 41504:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __webpack_require__) => {
/* harmony export */ __webpack_require__.d(__webpack_exports__, {
/* harmony export */ D: () => (/* binding */ DEFAULT_STATE_TYPE),
/* harmony export */ S: () => (/* binding */ STMT_RELATION),
/* harmony export */ a: () => (/* binding */ DIVIDER_TYPE),
/* harmony export */ b: () => (/* binding */ STMT_STATE),
/* harmony export */ c: () => (/* binding */ DEFAULT_NESTED_DOC_DIR),
/* harmony export */ d: () => (/* binding */ db),
/* harmony export */ p: () => (/* binding */ parser$1),
/* harmony export */ s: () => (/* binding */ styles)
/* harmony export */ });
/* harmony import */ var _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(85322);
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, 2], $V1 = [1, 3], $V2 = [1, 4], $V3 = [2, 4], $V4 = [1, 9], $V5 = [1, 11], $V6 = [1, 15], $V7 = [1, 16], $V8 = [1, 17], $V9 = [1, 18], $Va = [1, 30], $Vb = [1, 19], $Vc = [1, 20], $Vd = [1, 21], $Ve = [1, 22], $Vf = [1, 23], $Vg = [1, 25], $Vh = [1, 26], $Vi = [1, 27], $Vj = [1, 28], $Vk = [1, 29], $Vl = [1, 32], $Vm = [1, 33], $Vn = [1, 34], $Vo = [1, 35], $Vp = [1, 31], $Vq = [1, 4, 5, 15, 16, 18, 20, 21, 23, 24, 25, 26, 27, 28, 32, 34, 36, 37, 41, 44, 45, 46, 47, 50], $Vr = [1, 4, 5, 13, 14, 15, 16, 18, 20, 21, 23, 24, 25, 26, 27, 28, 32, 34, 36, 37, 41, 44, 45, 46, 47, 50], $Vs = [4, 5, 15, 16, 18, 20, 21, 23, 24, 25, 26, 27, 28, 32, 34, 36, 37, 41, 44, 45, 46, 47, 50];
var parser2 = {
trace: function trace() {
},
yy: {},
symbols_: { "error": 2, "start": 3, "SPACE": 4, "NL": 5, "SD": 6, "document": 7, "line": 8, "statement": 9, "classDefStatement": 10, "cssClassStatement": 11, "idStatement": 12, "DESCR": 13, "-->": 14, "HIDE_EMPTY": 15, "scale": 16, "WIDTH": 17, "COMPOSIT_STATE": 18, "STRUCT_START": 19, "STRUCT_STOP": 20, "STATE_DESCR": 21, "AS": 22, "ID": 23, "FORK": 24, "JOIN": 25, "CHOICE": 26, "CONCURRENT": 27, "note": 28, "notePosition": 29, "NOTE_TEXT": 30, "direction": 31, "acc_title": 32, "acc_title_value": 33, "acc_descr": 34, "acc_descr_value": 35, "acc_descr_multiline_value": 36, "classDef": 37, "CLASSDEF_ID": 38, "CLASSDEF_STYLEOPTS": 39, "DEFAULT": 40, "class": 41, "CLASSENTITY_IDS": 42, "STYLECLASS": 43, "direction_tb": 44, "direction_bt": 45, "direction_rl": 46, "direction_lr": 47, "eol": 48, ";": 49, "EDGE_STATE": 50, "STYLE_SEPARATOR": 51, "left_of": 52, "right_of": 53, "$accept": 0, "$end": 1 },
terminals_: { 2: "error", 4: "SPACE", 5: "NL", 6: "SD", 13: "DESCR", 14: "-->", 15: "HIDE_EMPTY", 16: "scale", 17: "WIDTH", 18: "COMPOSIT_STATE", 19: "STRUCT_START", 20: "STRUCT_STOP", 21: "STATE_DESCR", 22: "AS", 23: "ID", 24: "FORK", 25: "JOIN", 26: "CHOICE", 27: "CONCURRENT", 28: "note", 30: "NOTE_TEXT", 32: "acc_title", 33: "acc_title_value", 34: "acc_descr", 35: "acc_descr_value", 36: "acc_descr_multiline_value", 37: "classDef", 38: "CLASSDEF_ID", 39: "CLASSDEF_STYLEOPTS", 40: "DEFAULT", 41: "class", 42: "CLASSENTITY_IDS", 43: "STYLECLASS", 44: "direction_tb", 45: "direction_bt", 46: "direction_rl", 47: "direction_lr", 49: ";", 50: "EDGE_STATE", 51: "STYLE_SEPARATOR", 52: "left_of", 53: "right_of" },
productions_: [0, [3, 2], [3, 2], [3, 2], [7, 0], [7, 2], [8, 2], [8, 1], [8, 1], [9, 1], [9, 1], [9, 1], [9, 2], [9, 3], [9, 4], [9, 1], [9, 2], [9, 1], [9, 4], [9, 3], [9, 6], [9, 1], [9, 1], [9, 1], [9, 1], [9, 4], [9, 4], [9, 1], [9, 2], [9, 2], [9, 1], [10, 3], [10, 3], [11, 3], [31, 1], [31, 1], [31, 1], [31, 1], [48, 1], [48, 1], [12, 1], [12, 1], [12, 3], [12, 3], [29, 1], [29, 1]],
performAction: function anonymous(yytext, yyleng, yylineno, yy, yystate, $$, _$) {
var $0 = $$.length - 1;
switch (yystate) {
case 3:
yy.setRootDoc($$[$0]);
return $$[$0];
case 4:
this.$ = [];
break;
case 5:
if ($$[$0] != "nl") {
$$[$0 - 1].push($$[$0]);
this.$ = $$[$0 - 1];
}
break;
case 6:
case 7:
this.$ = $$[$0];
break;
case 8:
this.$ = "nl";
break;
case 11:
this.$ = $$[$0];
break;
case 12:
const stateStmt = $$[$0 - 1];
stateStmt.description = yy.trimColon($$[$0]);
this.$ = stateStmt;
break;
case 13:
this.$ = { stmt: "relation", state1: $$[$0 - 2], state2: $$[$0] };
break;
case 14:
const relDescription = yy.trimColon($$[$0]);
this.$ = { stmt: "relation", state1: $$[$0 - 3], state2: $$[$0 - 1], description: relDescription };
break;
case 18:
this.$ = { stmt: "state", id: $$[$0 - 3], type: "default", description: "", doc: $$[$0 - 1] };
break;
case 19:
var id = $$[$0];
var description = $$[$0 - 2].trim();
if ($$[$0].match(":")) {
var parts = $$[$0].split(":");
id = parts[0];
description = [description, parts[1]];
}
this.$ = { stmt: "state", id, type: "default", description };
break;
case 20:
this.$ = { stmt: "state", id: $$[$0 - 3], type: "default", description: $$[$0 - 5], doc: $$[$0 - 1] };
break;
case 21:
this.$ = { stmt: "state", id: $$[$0], type: "fork" };
break;
case 22:
this.$ = { stmt: "state", id: $$[$0], type: "join" };
break;
case 23:
this.$ = { stmt: "state", id: $$[$0], type: "choice" };
break;
case 24:
this.$ = { stmt: "state", id: yy.getDividerId(), type: "divider" };
break;
case 25:
this.$ = { stmt: "state", id: $$[$0 - 1].trim(), note: { position: $$[$0 - 2].trim(), text: $$[$0].trim() } };
break;
case 28:
this.$ = $$[$0].trim();
yy.setAccTitle(this.$);
break;
case 29:
case 30:
this.$ = $$[$0].trim();
yy.setAccDescription(this.$);
break;
case 31:
case 32:
this.$ = { stmt: "classDef", id: $$[$0 - 1].trim(), classes: $$[$0].trim() };
break;
case 33:
this.$ = { stmt: "applyClass", id: $$[$0 - 1].trim(), styleClass: $$[$0].trim() };
break;
case 34:
yy.setDirection("TB");
this.$ = { stmt: "dir", value: "TB" };
break;
case 35:
yy.setDirection("BT");
this.$ = { stmt: "dir", value: "BT" };
break;
case 36:
yy.setDirection("RL");
this.$ = { stmt: "dir", value: "RL" };
break;
case 37:
yy.setDirection("LR");
this.$ = { stmt: "dir", value: "LR" };
break;
case 40:
case 41:
this.$ = { stmt: "state", id: $$[$0].trim(), type: "default", description: "" };
break;
case 42:
this.$ = { stmt: "state", id: $$[$0 - 2].trim(), classes: [$$[$0].trim()], type: "default", description: "" };
break;
case 43:
this.$ = { stmt: "state", id: $$[$0 - 2].trim(), classes: [$$[$0].trim()], type: "default", description: "" };
break;
}
},
table: [{ 3: 1, 4: $V0, 5: $V1, 6: $V2 }, { 1: [3] }, { 3: 5, 4: $V0, 5: $V1, 6: $V2 }, { 3: 6, 4: $V0, 5: $V1, 6: $V2 }, o([1, 4, 5, 15, 16, 18, 21, 23, 24, 25, 26, 27, 28, 32, 34, 36, 37, 41, 44, 45, 46, 47, 50], $V3, { 7: 7 }), { 1: [2, 1] }, { 1: [2, 2] }, { 1: [2, 3], 4: $V4, 5: $V5, 8: 8, 9: 10, 10: 12, 11: 13, 12: 14, 15: $V6, 16: $V7, 18: $V8, 21: $V9, 23: $Va, 24: $Vb, 25: $Vc, 26: $Vd, 27: $Ve, 28: $Vf, 31: 24, 32: $Vg, 34: $Vh, 36: $Vi, 37: $Vj, 41: $Vk, 44: $Vl, 45: $Vm, 46: $Vn, 47: $Vo, 50: $Vp }, o($Vq, [2, 5]), { 9: 36, 10: 12, 11: 13, 12: 14, 15: $V6, 16: $V7, 18: $V8, 21: $V9, 23: $Va, 24: $Vb, 25: $Vc, 26: $Vd, 27: $Ve, 28: $Vf, 31: 24, 32: $Vg, 34: $Vh, 36: $Vi, 37: $Vj, 41: $Vk, 44: $Vl, 45: $Vm, 46: $Vn, 47: $Vo, 50: $Vp }, o($Vq, [2, 7]), o($Vq, [2, 8]), o($Vq, [2, 9]), o($Vq, [2, 10]), o($Vq, [2, 11], { 13: [1, 37], 14: [1, 38] }), o($Vq, [2, 15]), { 17: [1, 39] }, o($Vq, [2, 17], { 19: [1, 40] }), { 22: [1, 41] }, o($Vq, [2, 21]), o($Vq, [2, 22]), o($Vq, [2, 23]), o($Vq, [2, 24]), { 29: 42, 30: [1, 43], 52: [1, 44], 53: [1, 45] }, o($Vq, [2, 27]), { 33: [1, 46] }, { 35: [1, 47] }, o($Vq, [2, 30]), { 38: [1, 48], 40: [1, 49] }, { 42: [1, 50] }, o($Vr, [2, 40], { 51: [1, 51] }), o($Vr, [2, 41], { 51: [1, 52] }), o($Vq, [2, 34]), o($Vq, [2, 35]), o($Vq, [2, 36]), o($Vq, [2, 37]), o($Vq, [2, 6]), o($Vq, [2, 12]), { 12: 53, 23: $Va, 50: $Vp }, o($Vq, [2, 16]), o($Vs, $V3, { 7: 54 }), { 23: [1, 55] }, { 23: [1, 56] }, { 22: [1, 57] }, { 23: [2, 44] }, { 23: [2, 45] }, o($Vq, [2, 28]), o($Vq, [2, 29]), { 39: [1, 58] }, { 39: [1, 59] }, { 43: [1, 60] }, { 23: [1, 61] }, { 23: [1, 62] }, o($Vq, [2, 13], { 13: [1, 63] }), { 4: $V4, 5: $V5, 8: 8, 9: 10, 10: 12, 11: 13, 12: 14, 15: $V6, 16: $V7, 18: $V8, 20: [1, 64], 21: $V9, 23: $Va, 24: $Vb, 25: $Vc, 26: $Vd, 27: $Ve, 28: $Vf, 31: 24, 32: $Vg, 34: $Vh, 36: $Vi, 37: $Vj, 41: $Vk, 44: $Vl, 45: $Vm, 46: $Vn, 47: $Vo, 50: $Vp }, o($Vq, [2, 19], { 19: [1, 65] }), { 30: [1, 66] }, { 23: [1, 67] }, o($Vq, [2, 31]), o($Vq, [2, 32]), o($Vq, [2, 33]), o($Vr, [2, 42]), o($Vr, [2, 43]), o($Vq, [2, 14]), o($Vq, [2, 18]), o($Vs, $V3, { 7: 68 }), o($Vq, [2, 25]), o($Vq, [2, 26]), { 4: $V4, 5: $V5, 8: 8, 9: 10, 10: 12, 11: 13, 12: 14, 15: $V6, 16: $V7, 18: $V8, 20: [1, 69], 21: $V9, 23: $Va, 24: $Vb, 25: $Vc, 26: $Vd, 27: $Ve, 28: $Vf, 31: 24, 32: $Vg, 34: $Vh, 36: $Vi, 37: $Vj, 41: $Vk, 44: $Vl, 45: $Vm, 46: $Vn, 47: $Vo, 50: $Vp }, o($Vq, [2, 20])],
defaultActions: { 5: [2, 1], 6: [2, 2], 44: [2, 44], 45: [2, 45] },
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:
return 40;
case 1:
return 44;
case 2:
return 45;
case 3:
return 46;
case 4:
return 47;
case 5:
break;
case 6:
break;
case 7:
return 5;
case 8:
break;
case 9:
break;
case 10:
break;
case 11:
break;
case 12:
this.pushState("SCALE");
return 16;
case 13:
return 17;
case 14:
this.popState();
break;
case 15:
this.begin("acc_title");
return 32;
case 16:
this.popState();
return "acc_title_value";
case 17:
this.begin("acc_descr");
return 34;
case 18:
this.popState();
return "acc_descr_value";
case 19:
this.begin("acc_descr_multiline");
break;
case 20:
this.popState();
break;
case 21:
return "acc_descr_multiline_value";
case 22:
this.pushState("CLASSDEF");
return 37;
case 23:
this.popState();
this.pushState("CLASSDEFID");
return "DEFAULT_CLASSDEF_ID";
case 24:
this.popState();
this.pushState("CLASSDEFID");
return 38;
case 25:
this.popState();
return 39;
case 26:
this.pushState("CLASS");
return 41;
case 27:
this.popState();
this.pushState("CLASS_STYLE");
return 42;
case 28:
this.popState();
return 43;
case 29:
this.pushState("SCALE");
return 16;
case 30:
return 17;
case 31:
this.popState();
break;
case 32:
this.pushState("STATE");
break;
case 33:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -8).trim();
return 24;
case 34:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -8).trim();
return 25;
case 35:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -10).trim();
return 26;
case 36:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -8).trim();
return 24;
case 37:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -8).trim();
return 25;
case 38:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -10).trim();
return 26;
case 39:
return 44;
case 40:
return 45;
case 41:
return 46;
case 42:
return 47;
case 43:
this.pushState("STATE_STRING");
break;
case 44:
this.pushState("STATE_ID");
return "AS";
case 45:
this.popState();
return "ID";
case 46:
this.popState();
break;
case 47:
return "STATE_DESCR";
case 48:
return 18;
case 49:
this.popState();
break;
case 50:
this.popState();
this.pushState("struct");
return 19;
case 51:
break;
case 52:
this.popState();
return 20;
case 53:
break;
case 54:
this.begin("NOTE");
return 28;
case 55:
this.popState();
this.pushState("NOTE_ID");
return 52;
case 56:
this.popState();
this.pushState("NOTE_ID");
return 53;
case 57:
this.popState();
this.pushState("FLOATING_NOTE");
break;
case 58:
this.popState();
this.pushState("FLOATING_NOTE_ID");
return "AS";
case 59:
break;
case 60:
return "NOTE_TEXT";
case 61:
this.popState();
return "ID";
case 62:
this.popState();
this.pushState("NOTE_TEXT");
return 23;
case 63:
this.popState();
yy_.yytext = yy_.yytext.substr(2).trim();
return 30;
case 64:
this.popState();
yy_.yytext = yy_.yytext.slice(0, -8).trim();
return 30;
case 65:
return 6;
case 66:
return 6;
case 67:
return 15;
case 68:
return 50;
case 69:
return 23;
case 70:
yy_.yytext = yy_.yytext.trim();
return 13;
case 71:
return 14;
case 72:
return 27;
case 73:
return 51;
case 74:
return 5;
case 75:
return "INVALID";
}
},
rules: [/^(?:default\b)/i, /^(?:.*direction\s+TB[^\n]*)/i, /^(?:.*direction\s+BT[^\n]*)/i, /^(?:.*direction\s+RL[^\n]*)/i, /^(?:.*direction\s+LR[^\n]*)/i, /^(?:%%(?!\{)[^\n]*)/i, /^(?:[^\}]%%[^\n]*)/i, /^(?:[\n]+)/i, /^(?:[\s]+)/i, /^(?:((?!\n)\s)+)/i, /^(?:#[^\n]*)/i, /^(?:%[^\n]*)/i, /^(?:scale\s+)/i, /^(?:\d+)/i, /^(?:\s+width\b)/i, /^(?:accTitle\s*:\s*)/i, /^(?:(?!\n||)*[^\n]*)/i, /^(?:accDescr\s*:\s*)/i, /^(?:(?!\n||)*[^\n]*)/i, /^(?:accDescr\s*\{\s*)/i, /^(?:[\}])/i, /^(?:[^\}]*)/i, /^(?:classDef\s+)/i, /^(?:DEFAULT\s+)/i, /^(?:\w+\s+)/i, /^(?:[^\n]*)/i, /^(?:class\s+)/i, /^(?:(\w+)+((,\s*\w+)*))/i, /^(?:[^\n]*)/i, /^(?:scale\s+)/i, /^(?:\d+)/i, /^(?:\s+width\b)/i, /^(?:state\s+)/i, /^(?:.*<<fork>>)/i, /^(?:.*<<join>>)/i, /^(?:.*<<choice>>)/i, /^(?:.*\[\[fork\]\])/i, /^(?:.*\[\[join\]\])/i, /^(?:.*\[\[choice\]\])/i, /^(?:.*direction\s+TB[^\n]*)/i, /^(?:.*direction\s+BT[^\n]*)/i, /^(?:.*direction\s+RL[^\n]*)/i, /^(?:.*direction\s+LR[^\n]*)/i, /^(?:["])/i, /^(?:\s*as\s+)/i, /^(?:[^\n\{]*)/i, /^(?:["])/i, /^(?:[^"]*)/i, /^(?:[^\n\s\{]+)/i, /^(?:\n)/i, /^(?:\{)/i, /^(?:%%(?!\{)[^\n]*)/i, /^(?:\})/i, /^(?:[\n])/i, /^(?:note\s+)/i, /^(?:left of\b)/i, /^(?:right of\b)/i, /^(?:")/i, /^(?:\s*as\s*)/i, /^(?:["])/i, /^(?:[^"]*)/i, /^(?:[^\n]*)/i, /^(?:\s*[^:\n\s\-]+)/i, /^(?:\s*:[^:\n;]+)/i, /^(?:[\s\S]*?end note\b)/i, /^(?:stateDiagram\s+)/i, /^(?:stateDiagram-v2\s+)/i, /^(?:hide empty description\b)/i, /^(?:\[\*\])/i, /^(?:[^:\n\s\-\{]+)/i, /^(?:\s*:[^:\n;]+)/i, /^(?:-->)/i, /^(?:--)/i, /^(?::::)/i, /^(?:$)/i, /^(?:.)/i],
conditions: { "LINE": { "rules": [9, 10], "inclusive": false }, "struct": { "rules": [9, 10, 22, 26, 32, 39, 40, 41, 42, 51, 52, 53, 54, 68, 69, 70, 71, 72], "inclusive": false }, "FLOATING_NOTE_ID": { "rules": [61], "inclusive": false }, "FLOATING_NOTE": { "rules": [58, 59, 60], "inclusive": false }, "NOTE_TEXT": { "rules": [63, 64], "inclusive": false }, "NOTE_ID": { "rules": [62], "inclusive": false }, "NOTE": { "rules": [55, 56, 57], "inclusive": false }, "CLASS_STYLE": { "rules": [28], "inclusive": false }, "CLASS": { "rules": [27], "inclusive": false }, "CLASSDEFID": { "rules": [25], "inclusive": false }, "CLASSDEF": { "rules": [23, 24], "inclusive": false }, "acc_descr_multiline": { "rules": [20, 21], "inclusive": false }, "acc_descr": { "rules": [18], "inclusive": false }, "acc_title": { "rules": [16], "inclusive": false }, "SCALE": { "rules": [13, 14, 30, 31], "inclusive": false }, "ALIAS": { "rules": [], "inclusive": false }, "STATE_ID": { "rules": [45], "inclusive": false }, "STATE_STRING": { "rules": [46, 47], "inclusive": false }, "FORK_STATE": { "rules": [], "inclusive": false }, "STATE": { "rules": [9, 10, 33, 34, 35, 36, 37, 38, 43, 44, 48, 49, 50], "inclusive": false }, "ID": { "rules": [9, 10], "inclusive": false }, "INITIAL": { "rules": [0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 11, 12, 15, 17, 19, 22, 26, 29, 32, 50, 54, 65, 66, 67, 68, 69, 70, 71, 73, 74, 75], "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;
const DEFAULT_DIAGRAM_DIRECTION = "LR";
const DEFAULT_NESTED_DOC_DIR = "TB";
const STMT_STATE = "state";
const STMT_RELATION = "relation";
const STMT_CLASSDEF = "classDef";
const STMT_APPLYCLASS = "applyClass";
const DEFAULT_STATE_TYPE = "default";
const DIVIDER_TYPE = "divider";
const START_NODE = "[*]";
const START_TYPE = "start";
const END_NODE = START_NODE;
const END_TYPE = "end";
const COLOR_KEYWORD = "color";
const FILL_KEYWORD = "fill";
const BG_FILL = "bgFill";
const STYLECLASS_SEP = ",";
function newClassesList() {
return {};
}
let direction = DEFAULT_DIAGRAM_DIRECTION;
let rootDoc = [];
let classes = newClassesList();
const newDoc = () => {
return {
relations: [],
states: {},
documents: {}
};
};
let documents = {
root: newDoc()
};
let currentDocument = documents.root;
let startEndCount = 0;
let dividerCnt = 0;
const lineType = {
LINE: 0,
DOTTED_LINE: 1
};
const relationType = {
AGGREGATION: 0,
EXTENSION: 1,
COMPOSITION: 2,
DEPENDENCY: 3
};
const clone = (o) => JSON.parse(JSON.stringify(o));
const setRootDoc = (o) => {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Setting root doc", o);
rootDoc = o;
};
const getRootDoc = () => rootDoc;
const docTranslator = (parent, node, first) => {
if (node.stmt === STMT_RELATION) {
docTranslator(parent, node.state1, true);
docTranslator(parent, node.state2, false);
} else {
if (node.stmt === STMT_STATE) {
if (node.id === "[*]") {
node.id = first ? parent.id + "_start" : parent.id + "_end";
node.start = first;
} else {
node.id = node.id.trim();
}
}
if (node.doc) {
const doc = [];
let currentDoc = [];
let i;
for (i = 0; i < node.doc.length; i++) {
if (node.doc[i].type === DIVIDER_TYPE) {
const newNode = clone(node.doc[i]);
newNode.doc = clone(currentDoc);
doc.push(newNode);
currentDoc = [];
} else {
currentDoc.push(node.doc[i]);
}
}
if (doc.length > 0 && currentDoc.length > 0) {
const newNode = {
stmt: STMT_STATE,
id: (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.G)(),
type: "divider",
doc: clone(currentDoc)
};
doc.push(clone(newNode));
node.doc = doc;
}
node.doc.forEach((docNode) => docTranslator(node, docNode, true));
}
}
};
const getRootDocV2 = () => {
docTranslator({ id: "root" }, { id: "root", doc: rootDoc }, true);
return { id: "root", doc: rootDoc };
};
const extract = (_doc) => {
let doc;
if (_doc.doc) {
doc = _doc.doc;
} else {
doc = _doc;
}
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info(doc);
clear(true);
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Extract", doc);
doc.forEach((item) => {
switch (item.stmt) {
case STMT_STATE:
addState(
item.id.trim(),
item.type,
item.doc,
item.description,
item.note,
item.classes,
item.styles,
item.textStyles
);
break;
case STMT_RELATION:
addRelation(item.state1, item.state2, item.description);
break;
case STMT_CLASSDEF:
addStyleClass(item.id.trim(), item.classes);
break;
case STMT_APPLYCLASS:
setCssClass(item.id.trim(), item.styleClass);
break;
}
});
};
const addState = function(id, type = DEFAULT_STATE_TYPE, doc = null, descr = null, note = null, classes2 = null, styles2 = null, textStyles = null) {
const trimmedId = id == null ? void 0 : id.trim();
if (currentDocument.states[trimmedId] === void 0) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Adding state ", trimmedId, descr);
currentDocument.states[trimmedId] = {
id: trimmedId,
descriptions: [],
type,
doc,
note,
classes: [],
styles: [],
textStyles: []
};
} else {
if (!currentDocument.states[trimmedId].doc) {
currentDocument.states[trimmedId].doc = doc;
}
if (!currentDocument.states[trimmedId].type) {
currentDocument.states[trimmedId].type = type;
}
}
if (descr) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Setting state description", trimmedId, descr);
if (typeof descr === "string") {
addDescription(trimmedId, descr.trim());
}
if (typeof descr === "object") {
descr.forEach((des) => addDescription(trimmedId, des.trim()));
}
}
if (note) {
currentDocument.states[trimmedId].note = note;
currentDocument.states[trimmedId].note.text = _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.e.sanitizeText(
currentDocument.states[trimmedId].note.text,
(0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.c)()
);
}
if (classes2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Setting state classes", trimmedId, classes2);
const classesList = typeof classes2 === "string" ? [classes2] : classes2;
classesList.forEach((klass) => setCssClass(trimmedId, klass.trim()));
}
if (styles2) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Setting state styles", trimmedId, styles2);
const stylesList = typeof styles2 === "string" ? [styles2] : styles2;
stylesList.forEach((style) => setStyle(trimmedId, style.trim()));
}
if (textStyles) {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Setting state styles", trimmedId, styles2);
const textStylesList = typeof textStyles === "string" ? [textStyles] : textStyles;
textStylesList.forEach((textStyle) => setTextStyle(trimmedId, textStyle.trim()));
}
};
const clear = function(saveCommon) {
documents = {
root: newDoc()
};
currentDocument = documents.root;
startEndCount = 0;
classes = newClassesList();
if (!saveCommon) {
(0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.t)();
}
};
const getState = function(id) {
return currentDocument.states[id];
};
const getStates = function() {
return currentDocument.states;
};
const logDocuments = function() {
_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.l.info("Documents = ", documents);
};
const getRelations = function() {
return currentDocument.relations;
};
function startIdIfNeeded(id = "") {
let fixedId = id;
if (id === START_NODE) {
startEndCount++;
fixedId = `${START_TYPE}${startEndCount}`;
}
return fixedId;
}
function startTypeIfNeeded(id = "", type = DEFAULT_STATE_TYPE) {
return id === START_NODE ? START_TYPE : type;
}
function endIdIfNeeded(id = "") {
let fixedId = id;
if (id === END_NODE) {
startEndCount++;
fixedId = `${END_TYPE}${startEndCount}`;
}
return fixedId;
}
function endTypeIfNeeded(id = "", type = DEFAULT_STATE_TYPE) {
return id === END_NODE ? END_TYPE : type;
}
function addRelationObjs(item1, item2, relationTitle) {
let id1 = startIdIfNeeded(item1.id.trim());
let type1 = startTypeIfNeeded(item1.id.trim(), item1.type);
let id2 = startIdIfNeeded(item2.id.trim());
let type2 = startTypeIfNeeded(item2.id.trim(), item2.type);
addState(
id1,
type1,
item1.doc,
item1.description,
item1.note,
item1.classes,
item1.styles,
item1.textStyles
);
addState(
id2,
type2,
item2.doc,
item2.description,
item2.note,
item2.classes,
item2.styles,
item2.textStyles
);
currentDocument.relations.push({
id1,
id2,
relationTitle: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.e.sanitizeText(relationTitle, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.c)())
});
}
const addRelation = function(item1, item2, title) {
if (typeof item1 === "object") {
addRelationObjs(item1, item2, title);
} else {
const id1 = startIdIfNeeded(item1.trim());
const type1 = startTypeIfNeeded(item1);
const id2 = endIdIfNeeded(item2.trim());
const type2 = endTypeIfNeeded(item2);
addState(id1, type1);
addState(id2, type2);
currentDocument.relations.push({
id1,
id2,
title: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.e.sanitizeText(title, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.c)())
});
}
};
const addDescription = function(id, descr) {
const theState = currentDocument.states[id];
const _descr = descr.startsWith(":") ? descr.replace(":", "").trim() : descr;
theState.descriptions.push(_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.e.sanitizeText(_descr, (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.c)()));
};
const cleanupLabel = function(label) {
if (label.substring(0, 1) === ":") {
return label.substr(2).trim();
} else {
return label.trim();
}
};
const getDividerId = () => {
dividerCnt++;
return "divider-id-" + dividerCnt;
};
const addStyleClass = function(id, styleAttributes = "") {
if (classes[id] === void 0) {
classes[id] = { id, styles: [], textStyles: [] };
}
const foundClass = classes[id];
if (styleAttributes !== void 0 && styleAttributes !== null) {
styleAttributes.split(STYLECLASS_SEP).forEach((attrib) => {
const fixedAttrib = attrib.replace(/([^;]*);/, "$1").trim();
if (attrib.match(COLOR_KEYWORD)) {
const newStyle1 = fixedAttrib.replace(FILL_KEYWORD, BG_FILL);
const newStyle2 = newStyle1.replace(COLOR_KEYWORD, FILL_KEYWORD);
foundClass.textStyles.push(newStyle2);
}
foundClass.styles.push(fixedAttrib);
});
}
};
const getClasses = function() {
return classes;
};
const setCssClass = function(itemIds, cssClassName) {
itemIds.split(",").forEach(function(id) {
let foundState = getState(id);
if (foundState === void 0) {
const trimmedId = id.trim();
addState(trimmedId);
foundState = getState(trimmedId);
}
foundState.classes.push(cssClassName);
});
};
const setStyle = function(itemId, styleText) {
const item = getState(itemId);
if (item !== void 0) {
item.textStyles.push(styleText);
}
};
const setTextStyle = function(itemId, cssClassName) {
const item = getState(itemId);
if (item !== void 0) {
item.textStyles.push(cssClassName);
}
};
const getDirection = () => direction;
const setDirection = (dir) => {
direction = dir;
};
const trimColon = (str) => str && str[0] === ":" ? str.substr(1).trim() : str.trim();
const db = {
getConfig: () => (0,_mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.c)().state,
addState,
clear,
getState,
getStates,
getRelations,
getClasses,
getDirection,
addRelation,
getDividerId,
setDirection,
cleanupLabel,
lineType,
relationType,
logDocuments,
getRootDoc,
setRootDoc,
getRootDocV2,
extract,
trimColon,
getAccTitle: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.g,
setAccTitle: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.s,
getAccDescription: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.a,
setAccDescription: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.b,
addStyleClass,
setCssClass,
addDescription,
setDiagramTitle: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.q,
getDiagramTitle: _mermaid_934d9bea_js__WEBPACK_IMPORTED_MODULE_0__.r
};
const getStyles = (options) => `
defs #statediagram-barbEnd {
fill: ${options.transitionColor};
stroke: ${options.transitionColor};
}
g.stateGroup text {
fill: ${options.nodeBorder};
stroke: none;
font-size: 10px;
}
g.stateGroup text {
fill: ${options.textColor};
stroke: none;
font-size: 10px;
}
g.stateGroup .state-title {
font-weight: bolder;
fill: ${options.stateLabelColor};
}
g.stateGroup rect {
fill: ${options.mainBkg};
stroke: ${options.nodeBorder};
}
g.stateGroup line {
stroke: ${options.lineColor};
stroke-width: 1;
}
.transition {
stroke: ${options.transitionColor};
stroke-width: 1;
fill: none;
}
.stateGroup .composit {
fill: ${options.background};
border-bottom: 1px
}
.stateGroup .alt-composit {
fill: #e0e0e0;
border-bottom: 1px
}
.state-note {
stroke: ${options.noteBorderColor};
fill: ${options.noteBkgColor};
text {
fill: ${options.noteTextColor};
stroke: none;
font-size: 10px;
}
}
.stateLabel .box {
stroke: none;
stroke-width: 0;
fill: ${options.mainBkg};
opacity: 0.5;
}
.edgeLabel .label rect {
fill: ${options.labelBackgroundColor};
opacity: 0.5;
}
.edgeLabel .label text {
fill: ${options.transitionLabelColor || options.tertiaryTextColor};
}
.label div .edgeLabel {
color: ${options.transitionLabelColor || options.tertiaryTextColor};
}
.stateLabel text {
fill: ${options.stateLabelColor};
font-size: 10px;
font-weight: bold;
}
.node circle.state-start {
fill: ${options.specialStateColor};
stroke: ${options.specialStateColor};
}
.node .fork-join {
fill: ${options.specialStateColor};
stroke: ${options.specialStateColor};
}
.node circle.state-end {
fill: ${options.innerEndBackground};
stroke: ${options.background};
stroke-width: 1.5
}
.end-state-inner {
fill: ${options.compositeBackground || options.background};
// stroke: ${options.background};
stroke-width: 1.5
}
.node rect {
fill: ${options.stateBkg || options.mainBkg};
stroke: ${options.stateBorder || options.nodeBorder};
stroke-width: 1px;
}
.node polygon {
fill: ${options.mainBkg};
stroke: ${options.stateBorder || options.nodeBorder};;
stroke-width: 1px;
}
#statediagram-barbEnd {
fill: ${options.lineColor};
}
.statediagram-cluster rect {
fill: ${options.compositeTitleBackground};
stroke: ${options.stateBorder || options.nodeBorder};
stroke-width: 1px;
}
.cluster-label, .nodeLabel {
color: ${options.stateLabelColor};
}
.statediagram-cluster rect.outer {
rx: 5px;
ry: 5px;
}
.statediagram-state .divider {
stroke: ${options.stateBorder || options.nodeBorder};
}
.statediagram-state .title-state {
rx: 5px;
ry: 5px;
}
.statediagram-cluster.statediagram-cluster .inner {
fill: ${options.compositeBackground || options.background};
}
.statediagram-cluster.statediagram-cluster-alt .inner {
fill: ${options.altBackground ? options.altBackground : "#efefef"};
}
.statediagram-cluster .inner {
rx:0;
ry:0;
}
.statediagram-state rect.basic {
rx: 5px;
ry: 5px;
}
.statediagram-state rect.divider {
stroke-dasharray: 10,10;
fill: ${options.altBackground ? options.altBackground : "#efefef"};
}
.note-edge {
stroke-dasharray: 5;
}
.statediagram-note rect {
fill: ${options.noteBkgColor};
stroke: ${options.noteBorderColor};
stroke-width: 1px;
rx: 0;
ry: 0;
}
.statediagram-note rect {
fill: ${options.noteBkgColor};
stroke: ${options.noteBorderColor};
stroke-width: 1px;
rx: 0;
ry: 0;
}
.statediagram-note text {
fill: ${options.noteTextColor};
}
.statediagram-note .nodeLabel {
color: ${options.noteTextColor};
}
.statediagram .edgeLabel {
color: red; // ${options.noteTextColor};
}
#dependencyStart, #dependencyEnd {
fill: ${options.lineColor};
stroke: ${options.lineColor};
stroke-width: 1;
}
.statediagramTitleText {
text-anchor: middle;
font-size: 18px;
fill: ${options.textColor};
}
`;
const styles = getStyles;
/***/ })
};
;