cullmann.io/themes/blowfish/assets/lib/mermaid/flowDiagram-b5e7ba30.js

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2024-06-26 21:44:28 +02:00
import { p as parser$1, f as flowDb } from "./flowDb-ba9bd7fa.js";
import { h as has, f as forEach, G as Graph } from "./graph-fe24fab6.js";
import { j as d3select, n as curveLinear, o as getStylesFromArray, p as evaluate, c as getConfig, r as renderKatex, f as common, l as log, q as interpolateToCurve, t as setupGraphViewbox } from "./mermaid-dcacb631.js";
import { u as uniqueId, r as range, p as pick, l as layout, d as defaults } from "./layout-163b9689.js";
import { a as applyStyle, b as addHtmlLabel, i as isSubgraph, c as applyTransition, e as edgeToId, d as applyClass, s as selectAll, f as flowRendererV2, g as flowStyles } from "./styles-727cdd61.js";
import { l as line } from "./line-87f517ef.js";
import "./index-fc479858.js";
import "./clone-9ea6bfeb.js";
import "./edges-ce5cfb7c.js";
import "./createText-b70fe78a.js";
import "./channel-f9001828.js";
import "./array-b7dcf730.js";
import "./path-39bad7e2.js";
function responseText(response) {
if (!response.ok)
throw new Error(response.status + " " + response.statusText);
return response.text();
}
function text(input, init) {
return fetch(input, init).then(responseText);
}
function parser(type) {
return (input, init) => text(input, init).then((text2) => new DOMParser().parseFromString(text2, type));
}
var svg = parser("image/svg+xml");
var arrows = {
normal,
vee,
undirected
};
function setArrows(value) {
arrows = value;
}
function normal(parent, id, edge, type) {
var marker = parent.append("marker").attr("id", id).attr("viewBox", "0 0 10 10").attr("refX", 9).attr("refY", 5).attr("markerUnits", "strokeWidth").attr("markerWidth", 8).attr("markerHeight", 6).attr("orient", "auto");
var path = marker.append("path").attr("d", "M 0 0 L 10 5 L 0 10 z").style("stroke-width", 1).style("stroke-dasharray", "1,0");
applyStyle(path, edge[type + "Style"]);
if (edge[type + "Class"]) {
path.attr("class", edge[type + "Class"]);
}
}
function vee(parent, id, edge, type) {
var marker = parent.append("marker").attr("id", id).attr("viewBox", "0 0 10 10").attr("refX", 9).attr("refY", 5).attr("markerUnits", "strokeWidth").attr("markerWidth", 8).attr("markerHeight", 6).attr("orient", "auto");
var path = marker.append("path").attr("d", "M 0 0 L 10 5 L 0 10 L 4 5 z").style("stroke-width", 1).style("stroke-dasharray", "1,0");
applyStyle(path, edge[type + "Style"]);
if (edge[type + "Class"]) {
path.attr("class", edge[type + "Class"]);
}
}
function undirected(parent, id, edge, type) {
var marker = parent.append("marker").attr("id", id).attr("viewBox", "0 0 10 10").attr("refX", 9).attr("refY", 5).attr("markerUnits", "strokeWidth").attr("markerWidth", 8).attr("markerHeight", 6).attr("orient", "auto");
var path = marker.append("path").attr("d", "M 0 5 L 10 5").style("stroke-width", 1).style("stroke-dasharray", "1,0");
applyStyle(path, edge[type + "Style"]);
if (edge[type + "Class"]) {
path.attr("class", edge[type + "Class"]);
}
}
function addSVGLabel(root, node) {
var domNode = root;
domNode.node().appendChild(node.label);
applyStyle(domNode, node.labelStyle);
return domNode;
}
function addTextLabel(root, node) {
var domNode = root.append("text");
var lines = processEscapeSequences(node.label).split("\n");
for (var i = 0; i < lines.length; i++) {
domNode.append("tspan").attr("xml:space", "preserve").attr("dy", "1em").attr("x", "1").text(lines[i]);
}
applyStyle(domNode, node.labelStyle);
return domNode;
}
function processEscapeSequences(text2) {
var newText = "";
var escaped = false;
var ch;
for (var i = 0; i < text2.length; ++i) {
ch = text2[i];
if (escaped) {
switch (ch) {
case "n":
newText += "\n";
break;
default:
newText += ch;
}
escaped = false;
} else if (ch === "\\") {
escaped = true;
} else {
newText += ch;
}
}
return newText;
}
function addLabel(root, node, location2) {
var label = node.label;
var labelSvg = root.append("g");
if (node.labelType === "svg") {
addSVGLabel(labelSvg, node);
} else if (typeof label !== "string" || node.labelType === "html") {
addHtmlLabel(labelSvg, node);
} else {
addTextLabel(labelSvg, node);
}
var labelBBox = labelSvg.node().getBBox();
var y;
switch (location2) {
case "top":
y = -node.height / 2;
break;
case "bottom":
y = node.height / 2 - labelBBox.height;
break;
default:
y = -labelBBox.height / 2;
}
labelSvg.attr("transform", "translate(" + -labelBBox.width / 2 + "," + y + ")");
return labelSvg;
}
var createClusters = function(selection, g) {
var clusters = g.nodes().filter(function(v) {
return isSubgraph(g, v);
});
var svgClusters = selection.selectAll("g.cluster").data(clusters, function(v) {
return v;
});
applyTransition(svgClusters.exit(), g).style("opacity", 0).remove();
var enterSelection = svgClusters.enter().append("g").attr("class", "cluster").attr("id", function(v) {
var node = g.node(v);
return node.id;
}).style("opacity", 0).each(function(v) {
var node = g.node(v);
var thisGroup = d3select(this);
d3select(this).append("rect");
var labelGroup = thisGroup.append("g").attr("class", "label");
addLabel(labelGroup, node, node.clusterLabelPos);
});
svgClusters = svgClusters.merge(enterSelection);
svgClusters = applyTransition(svgClusters, g).style("opacity", 1);
svgClusters.selectAll("rect").each(function(c) {
var node = g.node(c);
var domCluster = d3select(this);
applyStyle(domCluster, node.style);
});
return svgClusters;
};
function setCreateClusters(value) {
createClusters = value;
}
let createEdgeLabels = function(selection, g) {
var svgEdgeLabels = selection.selectAll("g.edgeLabel").data(g.edges(), function(e) {
return edgeToId(e);
}).classed("update", true);
svgEdgeLabels.exit().remove();
svgEdgeLabels.enter().append("g").classed("edgeLabel", true).style("opacity", 0);
svgEdgeLabels = selection.selectAll("g.edgeLabel");
svgEdgeLabels.each(function(e) {
var root = d3select(this);
root.select(".label").remove();
var edge = g.edge(e);
var label = addLabel(root, g.edge(e), 0).classed("label", true);
var bbox = label.node().getBBox();
if (edge.labelId) {
label.attr("id", edge.labelId);
}
if (!has(edge, "width")) {
edge.width = bbox.width;
}
if (!has(edge, "height")) {
edge.height = bbox.height;
}
});
var exitSelection;
if (svgEdgeLabels.exit) {
exitSelection = svgEdgeLabels.exit();
} else {
exitSelection = svgEdgeLabels.selectAll(null);
}
applyTransition(exitSelection, g).style("opacity", 0).remove();
return svgEdgeLabels;
};
function setCreateEdgeLabels(value) {
createEdgeLabels = value;
}
function intersectNode(node, point) {
return node.intersect(point);
}
var createEdgePaths = function(selection, g, arrows2) {
var previousPaths = selection.selectAll("g.edgePath").data(g.edges(), function(e) {
return edgeToId(e);
}).classed("update", true);
var newPaths = enter(previousPaths, g);
exit(previousPaths, g);
var svgPaths = previousPaths.merge !== void 0 ? previousPaths.merge(newPaths) : previousPaths;
applyTransition(svgPaths, g).style("opacity", 1);
svgPaths.each(function(e) {
var domEdge = d3select(this);
var edge = g.edge(e);
edge.elem = this;
if (edge.id) {
domEdge.attr("id", edge.id);
}
applyClass(
domEdge,
edge["class"],
(domEdge.classed("update") ? "update " : "") + "edgePath"
);
});
svgPaths.selectAll("path.path").each(function(e) {
var edge = g.edge(e);
edge.arrowheadId = uniqueId("arrowhead");
var domEdge = d3select(this).attr("marker-end", function() {
return "url(" + makeFragmentRef(location.href, edge.arrowheadId) + ")";
}).style("fill", "none");
applyTransition(domEdge, g).attr("d", function(e2) {
return calcPoints(g, e2);
});
applyStyle(domEdge, edge.style);
});
svgPaths.selectAll("defs *").remove();
svgPaths.selectAll("defs").each(function(e) {
var edge = g.edge(e);
var arrowhead = arrows2[edge.arrowhead];
arrowhead(d3select(this), edge.arrowheadId, edge, "arrowhead");
});
return svgPaths;
};
function setCreateEdgePaths(value) {
createEdgePaths = value;
}
function makeFragmentRef(url, fragmentId) {
var baseUrl = url.split("#")[0];
return baseUrl + "#" + fragmentId;
}
function calcPoints(g, e) {
var edge = g.edge(e);
var tail = g.node(e.v);
var head = g.node(e.w);
var points = edge.points.slice(1, edge.points.length - 1);
points.unshift(intersectNode(tail, points[0]));
points.push(intersectNode(head, points[points.length - 1]));
return createLine(edge, points);
}
function createLine(edge, points) {
var line$1 = (line || svg.line)().x(function(d) {
return d.x;
}).y(function(d) {
return d.y;
});
(line$1.curve || line$1.interpolate)(edge.curve);
return line$1(points);
}
function getCoords(elem) {
var bbox = elem.getBBox();
var matrix = elem.ownerSVGElement.getScreenCTM().inverse().multiply(elem.getScreenCTM()).translate(bbox.width / 2, bbox.height / 2);
return { x: matrix.e, y: matrix.f };
}
function enter(svgPaths, g) {
var svgPathsEnter = svgPaths.enter().append("g").attr("class", "edgePath").style("opacity", 0);
svgPathsEnter.append("path").attr("class", "path").attr("d", function(e) {
var edge = g.edge(e);
var sourceElem = g.node(e.v).elem;
var points = range(edge.points.length).map(function() {
return getCoords(sourceElem);
});
return createLine(edge, points);
});
svgPathsEnter.append("defs");
return svgPathsEnter;
}
function exit(svgPaths, g) {
var svgPathExit = svgPaths.exit();
applyTransition(svgPathExit, g).style("opacity", 0).remove();
}
var createNodes = function(selection, g, shapes2) {
var simpleNodes = g.nodes().filter(function(v) {
return !isSubgraph(g, v);
});
var svgNodes = selection.selectAll("g.node").data(simpleNodes, function(v) {
return v;
}).classed("update", true);
svgNodes.exit().remove();
svgNodes.enter().append("g").attr("class", "node").style("opacity", 0);
svgNodes = selection.selectAll("g.node");
svgNodes.each(function(v) {
var node = g.node(v);
var thisGroup = d3select(this);
applyClass(
thisGroup,
node["class"],
(thisGroup.classed("update") ? "update " : "") + "node"
);
thisGroup.select("g.label").remove();
var labelGroup = thisGroup.append("g").attr("class", "label");
var labelDom = addLabel(labelGroup, node);
var shape = shapes2[node.shape];
var bbox = pick(labelDom.node().getBBox(), "width", "height");
node.elem = this;
if (node.id) {
thisGroup.attr("id", node.id);
}
if (node.labelId) {
labelGroup.attr("id", node.labelId);
}
if (has(node, "width")) {
bbox.width = node.width;
}
if (has(node, "height")) {
bbox.height = node.height;
}
bbox.width += node.paddingLeft + node.paddingRight;
bbox.height += node.paddingTop + node.paddingBottom;
labelGroup.attr(
"transform",
"translate(" + (node.paddingLeft - node.paddingRight) / 2 + "," + (node.paddingTop - node.paddingBottom) / 2 + ")"
);
var root = d3select(this);
root.select(".label-container").remove();
var shapeSvg = shape(root, bbox, node).classed("label-container", true);
applyStyle(shapeSvg, node.style);
var shapeBBox = shapeSvg.node().getBBox();
node.width = shapeBBox.width;
node.height = shapeBBox.height;
});
var exitSelection;
if (svgNodes.exit) {
exitSelection = svgNodes.exit();
} else {
exitSelection = svgNodes.selectAll(null);
}
applyTransition(exitSelection, g).style("opacity", 0).remove();
return svgNodes;
};
function setCreateNodes(value) {
createNodes = value;
}
function positionClusters(selection, g) {
var created = selection.filter(function() {
return !d3select(this).classed("update");
});
function translate(v) {
var node = g.node(v);
return "translate(" + node.x + "," + node.y + ")";
}
created.attr("transform", translate);
applyTransition(selection, g).style("opacity", 1).attr("transform", translate);
applyTransition(created.selectAll("rect"), g).attr("width", function(v) {
return g.node(v).width;
}).attr("height", function(v) {
return g.node(v).height;
}).attr("x", function(v) {
var node = g.node(v);
return -node.width / 2;
}).attr("y", function(v) {
var node = g.node(v);
return -node.height / 2;
});
}
function positionEdgeLabels(selection, g) {
var created = selection.filter(function() {
return !d3select(this).classed("update");
});
function translate(e) {
var edge = g.edge(e);
return has(edge, "x") ? "translate(" + edge.x + "," + edge.y + ")" : "";
}
created.attr("transform", translate);
applyTransition(selection, g).style("opacity", 1).attr("transform", translate);
}
function positionNodes(selection, g) {
var created = selection.filter(function() {
return !d3select(this).classed("update");
});
function translate(v) {
var node = g.node(v);
return "translate(" + node.x + "," + node.y + ")";
}
created.attr("transform", translate);
applyTransition(selection, g).style("opacity", 1).attr("transform", translate);
}
function intersectEllipse(node, rx, ry, point) {
var cx = node.x;
var cy = node.y;
var px = cx - point.x;
var py = cy - point.y;
var det = Math.sqrt(rx * rx * py * py + ry * ry * px * px);
var dx = Math.abs(rx * ry * px / det);
if (point.x < cx) {
dx = -dx;
}
var dy = Math.abs(rx * ry * py / det);
if (point.y < cy) {
dy = -dy;
}
return { x: cx + dx, y: cy + dy };
}
function intersectCircle(node, rx, point) {
return intersectEllipse(node, rx, rx, point);
}
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, point) {
var x1 = node.x;
var y1 = node.y;
var intersections = [];
var minX = Number.POSITIVE_INFINITY;
var minY = Number.POSITIVE_INFINITY;
polyPoints.forEach(function(entry) {
minX = Math.min(minX, entry.x);
minY = Math.min(minY, entry.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 intersect = intersectLine(
node,
point,
{ x: left + p1.x, y: top + p1.y },
{ x: left + p2.x, y: top + p2.y }
);
if (intersect) {
intersections.push(intersect);
}
}
if (!intersections.length) {
console.log("NO INTERSECTION FOUND, RETURN NODE CENTER", node);
return node;
}
if (intersections.length > 1) {
intersections.sort(function(p, q) {
var pdx = p.x - point.x;
var pdy = p.y - point.y;
var distp = Math.sqrt(pdx * pdx + pdy * pdy);
var qdx = q.x - point.x;
var qdy = q.y - point.y;
var distq = Math.sqrt(qdx * qdx + qdy * qdy);
return distp < distq ? -1 : distp === distq ? 0 : 1;
});
}
return intersections[0];
}
function intersectRect(node, point) {
var x = node.x;
var y = node.y;
var dx = point.x - x;
var dy = point.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 };
}
var shapes = {
rect,
ellipse,
circle,
diamond
};
function setShapes(value) {
shapes = value;
}
function rect(parent, bbox, node) {
var shapeSvg = parent.insert("rect", ":first-child").attr("rx", node.rx).attr("ry", node.ry).attr("x", -bbox.width / 2).attr("y", -bbox.height / 2).attr("width", bbox.width).attr("height", bbox.height);
node.intersect = function(point) {
return intersectRect(node, point);
};
return shapeSvg;
}
function ellipse(parent, bbox, node) {
var rx = bbox.width / 2;
var ry = bbox.height / 2;
var shapeSvg = parent.insert("ellipse", ":first-child").attr("x", -bbox.width / 2).attr("y", -bbox.height / 2).attr("rx", rx).attr("ry", ry);
node.intersect = function(point) {
return intersectEllipse(node, rx, ry, point);
};
return shapeSvg;
}
function circle(parent, bbox, node) {
var r = Math.max(bbox.width, bbox.height) / 2;
var shapeSvg = parent.insert("circle", ":first-child").attr("x", -bbox.width / 2).attr("y", -bbox.height / 2).attr("r", r);
node.intersect = function(point) {
return intersectCircle(node, r, point);
};
return shapeSvg;
}
function diamond(parent, bbox, node) {
var w = bbox.width * Math.SQRT2 / 2;
var h = bbox.height * Math.SQRT2 / 2;
var points = [
{ x: 0, y: -h },
{ x: -w, y: 0 },
{ x: 0, y: h },
{ x: w, y: 0 }
];
var shapeSvg = parent.insert("polygon", ":first-child").attr(
"points",
points.map(function(p) {
return p.x + "," + p.y;
}).join(" ")
);
node.intersect = function(p) {
return intersectPolygon(node, points, p);
};
return shapeSvg;
}
function render() {
var fn = function(svg2, g) {
preProcessGraph(g);
var outputGroup = createOrSelectGroup(svg2, "output");
var clustersGroup = createOrSelectGroup(outputGroup, "clusters");
var edgePathsGroup = createOrSelectGroup(outputGroup, "edgePaths");
var edgeLabels = createEdgeLabels(createOrSelectGroup(outputGroup, "edgeLabels"), g);
var nodes = createNodes(createOrSelectGroup(outputGroup, "nodes"), g, shapes);
layout(g);
positionNodes(nodes, g);
positionEdgeLabels(edgeLabels, g);
createEdgePaths(edgePathsGroup, g, arrows);
var clusters = createClusters(clustersGroup, g);
positionClusters(clusters, g);
postProcessGraph(g);
};
fn.createNodes = function(value) {
if (!arguments.length)
return createNodes;
setCreateNodes(value);
return fn;
};
fn.createClusters = function(value) {
if (!arguments.length)
return createClusters;
setCreateClusters(value);
return fn;
};
fn.createEdgeLabels = function(value) {
if (!arguments.length)
return createEdgeLabels;
setCreateEdgeLabels(value);
return fn;
};
fn.createEdgePaths = function(value) {
if (!arguments.length)
return createEdgePaths;
setCreateEdgePaths(value);
return fn;
};
fn.shapes = function(value) {
if (!arguments.length)
return shapes;
setShapes(value);
return fn;
};
fn.arrows = function(value) {
if (!arguments.length)
return arrows;
setArrows(value);
return fn;
};
return fn;
}
var NODE_DEFAULT_ATTRS = {
paddingLeft: 10,
paddingRight: 10,
paddingTop: 10,
paddingBottom: 10,
rx: 0,
ry: 0,
shape: "rect"
};
var EDGE_DEFAULT_ATTRS = {
arrowhead: "normal",
curve: curveLinear
};
function preProcessGraph(g) {
g.nodes().forEach(function(v) {
var node = g.node(v);
if (!has(node, "label") && !g.children(v).length) {
node.label = v;
}
if (has(node, "paddingX")) {
defaults(node, {
paddingLeft: node.paddingX,
paddingRight: node.paddingX
});
}
if (has(node, "paddingY")) {
defaults(node, {
paddingTop: node.paddingY,
paddingBottom: node.paddingY
});
}
if (has(node, "padding")) {
defaults(node, {
paddingLeft: node.padding,
paddingRight: node.padding,
paddingTop: node.padding,
paddingBottom: node.padding
});
}
defaults(node, NODE_DEFAULT_ATTRS);
forEach(["paddingLeft", "paddingRight", "paddingTop", "paddingBottom"], function(k) {
node[k] = Number(node[k]);
});
if (has(node, "width")) {
node._prevWidth = node.width;
}
if (has(node, "height")) {
node._prevHeight = node.height;
}
});
g.edges().forEach(function(e) {
var edge = g.edge(e);
if (!has(edge, "label")) {
edge.label = "";
}
defaults(edge, EDGE_DEFAULT_ATTRS);
});
}
function postProcessGraph(g) {
forEach(g.nodes(), function(v) {
var node = g.node(v);
if (has(node, "_prevWidth")) {
node.width = node._prevWidth;
} else {
delete node.width;
}
if (has(node, "_prevHeight")) {
node.height = node._prevHeight;
} else {
delete node.height;
}
delete node._prevWidth;
delete node._prevHeight;
});
}
function createOrSelectGroup(root, name) {
var selection = root.select("g." + name);
if (selection.empty()) {
selection = root.append("g").attr("class", name);
}
return selection;
}
function question(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
const s = (w + h) * 0.9;
const points = [
{ x: s / 2, y: 0 },
{ x: s, y: -s / 2 },
{ x: s / 2, y: -s },
{ x: 0, y: -s / 2 }
];
const shapeSvg = insertPolygonShape(parent, s, s, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function hexagon(parent, bbox, node) {
const f = 4;
const h = bbox.height;
const m = h / f;
const w = bbox.width + 2 * m;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function rect_left_inv_arrow(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function lean_right(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function lean_left(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function trapezoid(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function inv_trapezoid(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function rect_right_inv_arrow(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function stadium(parent, bbox, node) {
const h = bbox.height;
const w = bbox.width + h / 4;
const shapeSvg = parent.insert("rect", ":first-child").attr("rx", h / 2).attr("ry", h / 2).attr("x", -w / 2).attr("y", -h / 2).attr("width", w).attr("height", h);
node.intersect = function(point) {
return intersectRect(node, point);
};
return shapeSvg;
}
function subroutine(parent, bbox, node) {
const w = bbox.width;
const h = bbox.height;
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 shapeSvg = insertPolygonShape(parent, w, h, points);
node.intersect = function(point) {
return intersectPolygon(node, points, point);
};
return shapeSvg;
}
function cylinder(parent, bbox, node) {
const w = bbox.width;
const rx = w / 2;
const ry = rx / (2.5 + w / 50);
const h = bbox.height + ry;
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 shapeSvg = parent.attr("label-offset-y", ry).insert("path", ":first-child").attr("d", shape).attr("transform", "translate(" + -w / 2 + "," + -(h / 2 + ry) + ")");
node.intersect = function(point) {
const pos = intersectRect(node, point);
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 (point.y - node.y > 0) {
y = -y;
}
pos.y += y;
}
return pos;
};
return shapeSvg;
}
function addToRender(render2) {
render2.shapes().question = question;
render2.shapes().hexagon = hexagon;
render2.shapes().stadium = stadium;
render2.shapes().subroutine = subroutine;
render2.shapes().cylinder = cylinder;
render2.shapes().rect_left_inv_arrow = rect_left_inv_arrow;
render2.shapes().lean_right = lean_right;
render2.shapes().lean_left = lean_left;
render2.shapes().trapezoid = trapezoid;
render2.shapes().inv_trapezoid = inv_trapezoid;
render2.shapes().rect_right_inv_arrow = rect_right_inv_arrow;
}
function addToRenderV2(addShape) {
addShape({ question });
addShape({ hexagon });
addShape({ stadium });
addShape({ subroutine });
addShape({ cylinder });
addShape({ rect_left_inv_arrow });
addShape({ lean_right });
addShape({ lean_left });
addShape({ trapezoid });
addShape({ inv_trapezoid });
addShape({ rect_right_inv_arrow });
}
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("transform", "translate(" + -w / 2 + "," + h / 2 + ")");
}
const flowChartShapes = {
addToRender,
addToRenderV2
};
const conf = {};
const setConf = function(cnf) {
const keys = Object.keys(cnf);
for (const key of keys) {
conf[key] = cnf[key];
}
};
const addVertices = async function(vert, g, svgId, root, _doc, diagObj) {
const svg2 = !root ? d3select(`[id="${svgId}"]`) : root.select(`[id="${svgId}"]`);
const doc = !_doc ? document : _doc;
const keys = Object.keys(vert);
for (const id of keys) {
const vertex = vert[id];
let classStr = "default";
if (vertex.classes.length > 0) {
classStr = vertex.classes.join(" ");
}
const styles = getStylesFromArray(vertex.styles);
let vertexText = vertex.text !== void 0 ? vertex.text : vertex.id;
let vertexNode;
if (evaluate(getConfig().flowchart.htmlLabels)) {
const node = {
label: await renderKatex(
vertexText.replace(
/fa[blrs]?:fa-[\w-]+/g,
// cspell:disable-line
(s) => `<i class='${s.replace(":", " ")}'></i>`
),
getConfig()
)
};
vertexNode = addHtmlLabel(svg2, node).node();
vertexNode.parentNode.removeChild(vertexNode);
} else {
const svgLabel = doc.createElementNS("http://www.w3.org/2000/svg", "text");
svgLabel.setAttribute("style", styles.labelStyle.replace("color:", "fill:"));
const rows = vertexText.split(common.lineBreakRegex);
for (const row of rows) {
const tspan = doc.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", "1");
tspan.textContent = row;
svgLabel.appendChild(tspan);
}
vertexNode = svgLabel;
}
let radius = 0;
let _shape = "";
switch (vertex.type) {
case "round":
radius = 5;
_shape = "rect";
break;
case "square":
_shape = "rect";
break;
case "diamond":
_shape = "question";
break;
case "hexagon":
_shape = "hexagon";
break;
case "odd":
_shape = "rect_left_inv_arrow";
break;
case "lean_right":
_shape = "lean_right";
break;
case "lean_left":
_shape = "lean_left";
break;
case "trapezoid":
_shape = "trapezoid";
break;
case "inv_trapezoid":
_shape = "inv_trapezoid";
break;
case "odd_right":
_shape = "rect_left_inv_arrow";
break;
case "circle":
_shape = "circle";
break;
case "ellipse":
_shape = "ellipse";
break;
case "stadium":
_shape = "stadium";
break;
case "subroutine":
_shape = "subroutine";
break;
case "cylinder":
_shape = "cylinder";
break;
case "group":
_shape = "rect";
break;
default:
_shape = "rect";
}
log.warn("Adding node", vertex.id, vertex.domId);
g.setNode(diagObj.db.lookUpDomId(vertex.id), {
labelType: "svg",
labelStyle: styles.labelStyle,
shape: _shape,
label: vertexNode,
rx: radius,
ry: radius,
class: classStr,
style: styles.style,
id: diagObj.db.lookUpDomId(vertex.id)
});
}
};
const addEdges = async function(edges, g, diagObj) {
let cnt = 0;
let defaultStyle;
let defaultLabelStyle;
if (edges.defaultStyle !== void 0) {
const defaultStyles = getStylesFromArray(edges.defaultStyle);
defaultStyle = defaultStyles.style;
defaultLabelStyle = defaultStyles.labelStyle;
}
for (const edge of edges) {
cnt++;
const linkId = "L-" + edge.start + "-" + edge.end;
const linkNameStart = "LS-" + edge.start;
const linkNameEnd = "LE-" + edge.end;
const edgeData = {};
if (edge.type === "arrow_open") {
edgeData.arrowhead = "none";
} else {
edgeData.arrowhead = "normal";
}
let style = "";
let labelStyle = "";
if (edge.style !== void 0) {
const styles = getStylesFromArray(edge.style);
style = styles.style;
labelStyle = styles.labelStyle;
} else {
switch (edge.stroke) {
case "normal":
style = "fill:none";
if (defaultStyle !== void 0) {
style = defaultStyle;
}
if (defaultLabelStyle !== void 0) {
labelStyle = defaultLabelStyle;
}
break;
case "dotted":
style = "fill:none;stroke-width:2px;stroke-dasharray:3;";
break;
case "thick":
style = " stroke-width: 3.5px;fill:none";
break;
}
}
edgeData.style = style;
edgeData.labelStyle = labelStyle;
if (edge.interpolate !== void 0) {
edgeData.curve = interpolateToCurve(edge.interpolate, curveLinear);
} else if (edges.defaultInterpolate !== void 0) {
edgeData.curve = interpolateToCurve(edges.defaultInterpolate, curveLinear);
} else {
edgeData.curve = interpolateToCurve(conf.curve, curveLinear);
}
if (edge.text === void 0) {
if (edge.style !== void 0) {
edgeData.arrowheadStyle = "fill: #333";
}
} else {
edgeData.arrowheadStyle = "fill: #333";
edgeData.labelpos = "c";
if (evaluate(getConfig().flowchart.htmlLabels)) {
edgeData.labelType = "html";
edgeData.label = `<span id="L-${linkId}" class="edgeLabel L-${linkNameStart}' L-${linkNameEnd}" style="${edgeData.labelStyle}">${await renderKatex(
edge.text.replace(
/fa[blrs]?:fa-[\w-]+/g,
// cspell:disable-line
(s) => `<i class='${s.replace(":", " ")}'></i>`
),
getConfig()
)}</span>`;
} else {
edgeData.labelType = "text";
edgeData.label = edge.text.replace(common.lineBreakRegex, "\n");
if (edge.style === void 0) {
edgeData.style = edgeData.style || "stroke: #333; stroke-width: 1.5px;fill:none";
}
edgeData.labelStyle = edgeData.labelStyle.replace("color:", "fill:");
}
}
edgeData.id = linkId;
edgeData.class = linkNameStart + " " + linkNameEnd;
edgeData.minlen = edge.length || 1;
g.setEdge(diagObj.db.lookUpDomId(edge.start), diagObj.db.lookUpDomId(edge.end), edgeData, cnt);
}
};
const getClasses = function(text2, diagObj) {
log.info("Extracting classes");
return diagObj.db.getClasses();
};
const draw = async function(text2, id, _version, diagObj) {
log.info("Drawing flowchart");
const { securityLevel, flowchart: conf2 } = getConfig();
let sandboxElement;
if (securityLevel === "sandbox") {
sandboxElement = d3select("#i" + id);
}
const root = securityLevel === "sandbox" ? d3select(sandboxElement.nodes()[0].contentDocument.body) : d3select("body");
const doc = securityLevel === "sandbox" ? sandboxElement.nodes()[0].contentDocument : document;
let dir = diagObj.db.getDirection();
if (dir === void 0) {
dir = "TD";
}
const nodeSpacing = conf2.nodeSpacing || 50;
const rankSpacing = conf2.rankSpacing || 50;
const g = new Graph({
multigraph: true,
compound: true
}).setGraph({
rankdir: dir,
nodesep: nodeSpacing,
ranksep: rankSpacing,
marginx: 8,
marginy: 8
}).setDefaultEdgeLabel(function() {
return {};
});
let subG;
const subGraphs = diagObj.db.getSubGraphs();
for (let i2 = subGraphs.length - 1; i2 >= 0; i2--) {
subG = subGraphs[i2];
diagObj.db.addVertex(subG.id, subG.title, "group", void 0, subG.classes);
}
const vert = diagObj.db.getVertices();
log.warn("Get vertices", vert);
const edges = diagObj.db.getEdges();
let i = 0;
for (i = subGraphs.length - 1; i >= 0; i--) {
subG = subGraphs[i];
selectAll("cluster").append("text");
for (let j = 0; j < subG.nodes.length; j++) {
log.warn(
"Setting subgraph",
subG.nodes[j],
diagObj.db.lookUpDomId(subG.nodes[j]),
diagObj.db.lookUpDomId(subG.id)
);
g.setParent(diagObj.db.lookUpDomId(subG.nodes[j]), diagObj.db.lookUpDomId(subG.id));
}
}
await addVertices(vert, g, id, root, doc, diagObj);
await addEdges(edges, g, diagObj);
const render$1 = new render();
flowChartShapes.addToRender(render$1);
render$1.arrows().none = function normal2(parent, id2, edge, type) {
const marker = parent.append("marker").attr("id", id2).attr("viewBox", "0 0 10 10").attr("refX", 9).attr("refY", 5).attr("markerUnits", "strokeWidth").attr("markerWidth", 8).attr("markerHeight", 6).attr("orient", "auto");
const path = marker.append("path").attr("d", "M 0 0 L 0 0 L 0 0 z");
applyStyle(path, edge[type + "Style"]);
};
render$1.arrows().normal = function normal2(parent, id2) {
const marker = parent.append("marker").attr("id", id2).attr("viewBox", "0 0 10 10").attr("refX", 9).attr("refY", 5).attr("markerUnits", "strokeWidth").attr("markerWidth", 8).attr("markerHeight", 6).attr("orient", "auto");
marker.append("path").attr("d", "M 0 0 L 10 5 L 0 10 z").attr("class", "arrowheadPath").style("stroke-width", 1).style("stroke-dasharray", "1,0");
};
const svg2 = root.select(`[id="${id}"]`);
const element = root.select("#" + id + " g");
render$1(element, g);
element.selectAll("g.node").attr("title", function() {
return diagObj.db.getTooltip(this.id);
});
diagObj.db.indexNodes("subGraph" + i);
for (i = 0; i < subGraphs.length; i++) {
subG = subGraphs[i];
if (subG.title !== "undefined") {
const clusterRects = doc.querySelectorAll(
"#" + id + ' [id="' + diagObj.db.lookUpDomId(subG.id) + '"] rect'
);
const clusterEl = doc.querySelectorAll(
"#" + id + ' [id="' + diagObj.db.lookUpDomId(subG.id) + '"]'
);
const xPos = clusterRects[0].x.baseVal.value;
const yPos = clusterRects[0].y.baseVal.value;
const _width = clusterRects[0].width.baseVal.value;
const cluster = d3select(clusterEl[0]);
const te = cluster.select(".label");
te.attr("transform", `translate(${xPos + _width / 2}, ${yPos + 14})`);
te.attr("id", id + "Text");
for (let j = 0; j < subG.classes.length; j++) {
clusterEl[0].classList.add(subG.classes[j]);
}
}
}
if (!conf2.htmlLabels) {
const labels = doc.querySelectorAll('[id="' + id + '"] .edgeLabel .label');
for (const label of labels) {
const dim = label.getBBox();
const rect2 = doc.createElementNS("http://www.w3.org/2000/svg", "rect");
rect2.setAttribute("rx", 0);
rect2.setAttribute("ry", 0);
rect2.setAttribute("width", dim.width);
rect2.setAttribute("height", dim.height);
label.insertBefore(rect2, label.firstChild);
}
}
setupGraphViewbox(g, svg2, conf2.diagramPadding, conf2.useMaxWidth);
const keys = Object.keys(vert);
keys.forEach(function(key) {
const vertex = vert[key];
if (vertex.link) {
const node = root.select("#" + id + ' [id="' + diagObj.db.lookUpDomId(key) + '"]');
if (node) {
const link = doc.createElementNS("http://www.w3.org/2000/svg", "a");
link.setAttributeNS("http://www.w3.org/2000/svg", "class", vertex.classes.join(" "));
link.setAttributeNS("http://www.w3.org/2000/svg", "href", vertex.link);
link.setAttributeNS("http://www.w3.org/2000/svg", "rel", "noopener");
if (securityLevel === "sandbox") {
link.setAttributeNS("http://www.w3.org/2000/svg", "target", "_top");
} else if (vertex.linkTarget) {
link.setAttributeNS("http://www.w3.org/2000/svg", "target", vertex.linkTarget);
}
const linkNode = node.insert(function() {
return link;
}, ":first-child");
const shape = node.select(".label-container");
if (shape) {
linkNode.append(function() {
return shape.node();
});
}
const label = node.select(".label");
if (label) {
linkNode.append(function() {
return label.node();
});
}
}
}
});
};
const flowRenderer = {
setConf,
addVertices,
addEdges,
getClasses,
draw
};
const diagram = {
parser: parser$1,
db: flowDb,
renderer: flowRendererV2,
styles: flowStyles,
init: (cnf) => {
if (!cnf.flowchart) {
cnf.flowchart = {};
}
cnf.flowchart.arrowMarkerAbsolute = cnf.arrowMarkerAbsolute;
flowRenderer.setConf(cnf.flowchart);
flowDb.clear();
flowDb.setGen("gen-1");
}
};
export {
diagram
};