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gradio-webrtc/backend/fastrtc/templates/component/blockDiagram-JOT3LUYC-DC6f4uVN.js
Freddy Boulton 3abe0a4d8a Fix interactive video (#350) 
* n

* remove template

* Add templates

* remove print
2025-06-13 12:22:38 -04:00

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case 4:
g.getLogger().debug(".", u.yytext);
break;
case 5:
g.getLogger().debug("_", u.yytext);
break;
case 6:
return 5;
case 7:
return u.yytext = -1, 28;
case 8:
return u.yytext = u.yytext.replace(/columns\s+/, ""), g.getLogger().debug("COLUMNS (LEX)", u.yytext), 28;
case 9:
this.pushState("md_string");
break;
case 10:
return "MD_STR";
case 11:
this.popState();
break;
case 12:
this.pushState("string");
break;
case 13:
g.getLogger().debug("LEX: POPPING STR:", u.yytext), this.popState();
break;
case 14:
return g.getLogger().debug("LEX: STR end:", u.yytext), "STR";
case 15:
return u.yytext = u.yytext.replace(/space\:/, ""), g.getLogger().debug("SPACE NUM (LEX)", u.yytext), 21;
case 16:
return u.yytext = "1", g.getLogger().debug("COLUMNS (LEX)", u.yytext), 21;
case 17:
return 43;
case 18:
return "LINKSTYLE";
case 19:
return "INTERPOLATE";
case 20:
return this.pushState("CLASSDEF"), 40;
case 21:
return this.popState(), this.pushState("CLASSDEFID"), "DEFAULT_CLASSDEF_ID";
case 22:
return this.popState(), this.pushState("CLASSDEFID"), 41;
case 23:
return this.popState(), 42;
case 24:
return this.pushState("CLASS"), 44;
case 25:
return this.popState(), this.pushState("CLASS_STYLE"), 45;
case 26:
return this.popState(), 46;
case 27:
return this.pushState("STYLE_STMNT"), 47;
case 28:
return this.popState(), this.pushState("STYLE_DEFINITION"), 48;
case 29:
return this.popState(), 49;
case 30:
return this.pushState("acc_title"), "acc_title";
case 31:
return this.popState(), "acc_title_value";
case 32:
return this.pushState("acc_descr"), "acc_descr";
case 33:
return this.popState(), "acc_descr_value";
case 34:
this.pushState("acc_descr_multiline");
break;
case 35:
this.popState();
break;
case 36:
return "acc_descr_multiline_value";
case 37:
return 30;
case 38:
return this.popState(), g.getLogger().debug("Lex: (("), "NODE_DEND";
case 39:
return this.popState(), g.getLogger().debug("Lex: (("), "NODE_DEND";
case 40:
return this.popState(), g.getLogger().debug("Lex: ))"), "NODE_DEND";
case 41:
return this.popState(), g.getLogger().debug("Lex: (("), "NODE_DEND";
case 42:
return this.popState(), g.getLogger().debug("Lex: (("), "NODE_DEND";
case 43:
return this.popState(), g.getLogger().debug("Lex: (-"), "NODE_DEND";
case 44:
return this.popState(), g.getLogger().debug("Lex: -)"), "NODE_DEND";
case 45:
return this.popState(), g.getLogger().debug("Lex: (("), "NODE_DEND";
case 46:
return this.popState(), g.getLogger().debug("Lex: ]]"), "NODE_DEND";
case 47:
return this.popState(), g.getLogger().debug("Lex: ("), "NODE_DEND";
case 48:
return this.popState(), g.getLogger().debug("Lex: ])"), "NODE_DEND";
case 49:
return this.popState(), g.getLogger().debug("Lex: /]"), "NODE_DEND";
case 50:
return this.popState(), g.getLogger().debug("Lex: /]"), "NODE_DEND";
case 51:
return this.popState(), g.getLogger().debug("Lex: )]"), "NODE_DEND";
case 52:
return this.popState(), g.getLogger().debug("Lex: )"), "NODE_DEND";
case 53:
return this.popState(), g.getLogger().debug("Lex: ]>"), "NODE_DEND";
case 54:
return this.popState(), g.getLogger().debug("Lex: ]"), "NODE_DEND";
case 55:
return g.getLogger().debug("Lexa: -)"), this.pushState("NODE"), 36;
case 56:
return g.getLogger().debug("Lexa: (-"), this.pushState("NODE"), 36;
case 57:
return g.getLogger().debug("Lexa: ))"), this.pushState("NODE"), 36;
case 58:
return g.getLogger().debug("Lexa: )"), this.pushState("NODE"), 36;
case 59:
return g.getLogger().debug("Lex: ((("), this.pushState("NODE"), 36;
case 60:
return g.getLogger().debug("Lexa: )"), this.pushState("NODE"), 36;
case 61:
return g.getLogger().debug("Lexa: )"), this.pushState("NODE"), 36;
case 62:
return g.getLogger().debug("Lexa: )"), this.pushState("NODE"), 36;
case 63:
return g.getLogger().debug("Lexc: >"), this.pushState("NODE"), 36;
case 64:
return g.getLogger().debug("Lexa: (["), this.pushState("NODE"), 36;
case 65:
return g.getLogger().debug("Lexa: )"), this.pushState("NODE"), 36;
case 66:
return this.pushState("NODE"), 36;
case 67:
return this.pushState("NODE"), 36;
case 68:
return this.pushState("NODE"), 36;
case 69:
return this.pushState("NODE"), 36;
case 70:
return this.pushState("NODE"), 36;
case 71:
return this.pushState("NODE"), 36;
case 72:
return this.pushState("NODE"), 36;
case 73:
return g.getLogger().debug("Lexa: ["), this.pushState("NODE"), 36;
case 74:
return this.pushState("BLOCK_ARROW"), g.getLogger().debug("LEX ARR START"), 38;
case 75:
return g.getLogger().debug("Lex: NODE_ID", u.yytext), 32;
case 76:
return g.getLogger().debug("Lex: EOF", u.yytext), 8;
case 77:
this.pushState("md_string");
break;
case 78:
this.pushState("md_string");
break;
case 79:
return "NODE_DESCR";
case 80:
this.popState();
break;
case 81:
g.getLogger().debug("Lex: Starting string"), this.pushState("string");
break;
case 82:
g.getLogger().debug("LEX ARR: Starting string"), this.pushState("string");
break;
case 83:
return g.getLogger().debug("LEX: NODE_DESCR:", u.yytext), "NODE_DESCR";
case 84:
g.getLogger().debug("LEX POPPING"), this.popState();
break;
case 85:
g.getLogger().debug("Lex: =>BAE"), this.pushState("ARROW_DIR");
break;
case 86:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (right): dir:", u.yytext), "DIR";
case 87:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (left):", u.yytext), "DIR";
case 88:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (x):", u.yytext), "DIR";
case 89:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (y):", u.yytext), "DIR";
case 90:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (up):", u.yytext), "DIR";
case 91:
return u.yytext = u.yytext.replace(/^,\s*/, ""), g.getLogger().debug("Lex (down):", u.yytext), "DIR";
case 92:
return u.yytext = "]>", g.getLogger().debug("Lex (ARROW_DIR end):", u.yytext), this.popState(), this.popState(), "BLOCK_ARROW_END";
case 93:
return g.getLogger().debug("Lex: LINK", "#" + u.yytext + "#"), 15;
case 94:
return g.getLogger().debug("Lex: LINK", u.yytext), 15;
case 95:
return g.getLogger().debug("Lex: LINK", u.yytext), 15;
case 96:
return g.getLogger().debug("Lex: LINK", u.yytext), 15;
case 97:
return g.getLogger().debug("Lex: START_LINK", u.yytext), this.pushState("LLABEL"), 16;
case 98:
return g.getLogger().debug("Lex: START_LINK", u.yytext), this.pushState("LLABEL"), 16;
case 99:
return g.getLogger().debug("Lex: START_LINK", u.yytext), this.pushState("LLABEL"), 16;
case 100:
this.pushState("md_string");
break;
case 101:
return g.getLogger().debug("Lex: Starting string"), this.pushState("string"), "LINK_LABEL";
case 102:
return this.popState(), g.getLogger().debug("Lex: LINK", "#" + u.yytext + "#"), 15;
case 103:
return this.popState(), g.getLogger().debug("Lex: LINK", u.yytext), 15;
case 104:
return this.popState(), g.getLogger().debug("Lex: LINK", u.yytext), 15;
case 105:
return g.getLogger().debug("Lex: COLON", u.yytext), u.yytext = u.yytext.slice(1), 27;
}
}, "anonymous"),
rules: [/^(?:block-beta\b)/, /^(?:block\s+)/, /^(?:block\n+)/, /^(?:block:)/, /^(?:[\s]+)/, /^(?:[\n]+)/, /^(?:((\u000D\u000A)|(\u000A)))/, /^(?:columns\s+auto\b)/, /^(?:columns\s+[\d]+)/, /^(?:["][`])/, /^(?:[^`"]+)/, /^(?:[`]["])/, /^(?:["])/, /^(?:["])/, /^(?:[^"]*)/, /^(?:space[:]\d+)/, /^(?:space\b)/, /^(?:default\b)/, /^(?:linkStyle\b)/, /^(?:interpolate\b)/, /^(?:classDef\s+)/, /^(?:DEFAULT\s+)/, /^(?:\w+\s+)/, /^(?:[^\n]*)/, /^(?:class\s+)/, /^(?:(\w+)+((,\s*\w+)*))/, /^(?:[^\n]*)/, /^(?:style\s+)/, /^(?:(\w+)+((,\s*\w+)*))/, /^(?:[^\n]*)/, /^(?:accTitle\s*:\s*)/, /^(?:(?!\n||)*[^\n]*)/, /^(?:accDescr\s*:\s*)/, /^(?:(?!\n||)*[^\n]*)/, /^(?:accDescr\s*\{\s*)/, /^(?:[\}])/, /^(?:[^\}]*)/, /^(?:end\b\s*)/, /^(?:\(\(\()/, /^(?:\)\)\))/, /^(?:[\)]\))/, /^(?:\}\})/, /^(?:\})/, /^(?:\(-)/, /^(?:-\))/, /^(?:\(\()/, /^(?:\]\])/, /^(?:\()/, /^(?:\]\))/, /^(?:\\\])/, /^(?:\/\])/, /^(?:\)\])/, /^(?:[\)])/, /^(?:\]>)/, /^(?:[\]])/, /^(?:-\))/, /^(?:\(-)/, /^(?:\)\))/, /^(?:\))/, /^(?:\(\(\()/, /^(?:\(\()/, /^(?:\{\{)/, /^(?:\{)/, /^(?:>)/, /^(?:\(\[)/, /^(?:\()/, /^(?:\[\[)/, /^(?:\[\|)/, /^(?:\[\()/, /^(?:\)\)\))/, /^(?:\[\\)/, /^(?:\[\/)/, /^(?:\[\\)/, /^(?:\[)/, /^(?:<\[)/, /^(?:[^\(\[\n\-\)\{\}\s\<\>:]+)/, /^(?:$)/, /^(?:["][`])/, /^(?:["][`])/, /^(?:[^`"]+)/, /^(?:[`]["])/, /^(?:["])/, /^(?:["])/, /^(?:[^"]+)/, /^(?:["])/, /^(?:\]>\s*\()/, /^(?:,?\s*right\s*)/, /^(?:,?\s*left\s*)/, /^(?:,?\s*x\s*)/, /^(?:,?\s*y\s*)/, /^(?:,?\s*up\s*)/, /^(?:,?\s*down\s*)/, /^(?:\)\s*)/, /^(?:\s*[xo<]?--+[-xo>]\s*)/, /^(?:\s*[xo<]?==+[=xo>]\s*)/, /^(?:\s*[xo<]?-?\.+-[xo>]?\s*)/, /^(?:\s*~~[\~]+\s*)/, /^(?:\s*[xo<]?--\s*)/, /^(?:\s*[xo<]?==\s*)/, /^(?:\s*[xo<]?-\.\s*)/, /^(?:["][`])/, /^(?:["])/, /^(?:\s*[xo<]?--+[-xo>]\s*)/, /^(?:\s*[xo<]?==+[=xo>]\s*)/, /^(?:\s*[xo<]?-?\.+-[xo>]?\s*)/, /^(?::\d+)/],
conditions: { STYLE_DEFINITION: { rules: [29], inclusive: !1 }, STYLE_STMNT: { rules: [28], inclusive: !1 }, CLASSDEFID: { rules: [23], inclusive: !1 }, CLASSDEF: { rules: [21, 22], inclusive: !1 }, CLASS_STYLE: { rules: [26], inclusive: !1 }, CLASS: { rules: [25], inclusive: !1 }, LLABEL: { rules: [100, 101, 102, 103, 104], inclusive: !1 }, ARROW_DIR: { rules: [86, 87, 88, 89, 90, 91, 92], inclusive: !1 }, BLOCK_ARROW: { rules: [77, 82, 85], inclusive: !1 }, NODE: { rules: [38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 78, 81], inclusive: !1 }, md_string: { rules: [10, 11, 79, 80], inclusive: !1 }, space: { rules: [], inclusive: !1 }, string: { rules: [13, 14, 83, 84], inclusive: !1 }, acc_descr_multiline: { rules: [35, 36], inclusive: !1 }, acc_descr: { rules: [33], inclusive: !1 }, acc_title: { rules: [31], inclusive: !1 }, INITIAL: { rules: [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 12, 15, 16, 17, 18, 19, 20, 24, 27, 30, 32, 34, 37, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 93, 94, 95, 96, 97, 98, 99, 105], inclusive: !0 } }
};
return N;
}();
v.lexer = T;
function k() {
this.yy = {};
}
return d(k, "Parser"), k.prototype = v, v.Parser = k, new k();
}();
yt.parser = yt;
var Ee = yt, V = /* @__PURE__ */ new Map(), St = [], bt = /* @__PURE__ */ new Map(), Ct = "color", Bt = "fill", _e = "bgFill", Ht = ",", ke = z(), ct = /* @__PURE__ */ new Map(), De = /* @__PURE__ */ d((e) => me.sanitizeText(e, ke), "sanitizeText"), Ne = /* @__PURE__ */ d(function(e, t = "") {
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const i = n.replace(/([^;]*);/, "$1").trim();
if (RegExp(Ct).exec(n)) {
const s = i.replace(Bt, _e).replace(Ct, Bt);
r.textStyles.push(s);
}
r.styles.push(i);
});
}, "addStyleClass"), Te = /* @__PURE__ */ d(function(e, t = "") {
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t != null && (r.styles = t.split(Ht));
}, "addStyle2Node"), Ce = /* @__PURE__ */ d(function(e, t) {
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n.classes || (n.classes = []), n.classes.push(t);
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}, "setCssClass"), Kt = /* @__PURE__ */ d((e, t) => {
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Ne(i.id, i.css);
continue;
}
if (i.type === "applyClass") {
Ce(i.id, (i == null ? void 0 : i.styleClass) ?? "");
continue;
}
if (i.type === "applyStyles") {
i != null && i.stylesStr && Te(i.id, i == null ? void 0 : i.stylesStr);
continue;
}
if (i.type === "column-setting")
t.columns = i.columns ?? -1;
else if (i.type === "edge") {
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bt.set(i.id, a), i.id = a + "-" + i.id, St.push(i);
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const a = V.get(i.id);
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const s = i.width ?? 1;
for (let l = 0; l < s; l++) {
const o = Le(i);
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t.children = n;
}, "populateBlockDatabase"), vt = [], rt = { id: "root", type: "composite", children: [], columns: -1 }, Be = /* @__PURE__ */ d(() => {
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}, "clear");
function Xt(e) {
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return "circle";
case ">]":
return "rect_left_inv_arrow";
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return "diamond";
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return "hexagon";
case "([])":
return "stadium";
case "[[]]":
return "subroutine";
case "[()]":
return "cylinder";
case "((()))":
return "doublecircle";
case "[//]":
return "lean_right";
case "[\\\\]":
return "lean_left";
case "[/\\]":
return "trapezoid";
case "[\\/]":
return "inv_trapezoid";
case "<[]>":
return "block_arrow";
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return "na";
}
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d(Xt, "typeStr2Type");
function Ut(e) {
switch (L.debug("typeStr2Type", e), e) {
case "==":
return "thick";
default:
return "normal";
}
}
d(Ut, "edgeTypeStr2Type");
function jt(e) {
switch (e.trim()) {
case "--x":
return "arrow_cross";
case "--o":
return "arrow_circle";
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return "arrow_point";
}
}
d(jt, "edgeStrToEdgeData");
var It = 0, Ie = /* @__PURE__ */ d(() => (It++, "id-" + Math.random().toString(36).substr(2, 12) + "-" + It), "generateId"), Oe = /* @__PURE__ */ d((e) => {
rt.children = e, Kt(e, rt), vt = rt.children;
}, "setHierarchy"), Re = /* @__PURE__ */ d((e) => {
const t = V.get(e);
return t ? t.columns ? t.columns : t.children ? t.children.length : -1 : -1;
}, "getColumns"), ze = /* @__PURE__ */ d(() => [...V.values()], "getBlocksFlat"), Ae = /* @__PURE__ */ d(() => vt || [], "getBlocks"), Me = /* @__PURE__ */ d(() => St, "getEdges"), Fe = /* @__PURE__ */ d((e) => V.get(e), "getBlock"), We = /* @__PURE__ */ d((e) => {
V.set(e.id, e);
}, "setBlock"), Pe = /* @__PURE__ */ d(() => console, "getLogger"), Ye = /* @__PURE__ */ d(function() {
return ct;
}, "getClasses"), He = {
getConfig: /* @__PURE__ */ d(() => at().block, "getConfig"),
typeStr2Type: Xt,
edgeTypeStr2Type: Ut,
edgeStrToEdgeData: jt,
getLogger: Pe,
getBlocksFlat: ze,
getBlocks: Ae,
getEdges: Me,
setHierarchy: Oe,
getBlock: Fe,
setBlock: We,
getColumns: Re,
getClasses: Ye,
clear: Be,
generateId: Ie
}, Ke = He, nt = /* @__PURE__ */ d((e, t) => {
const r = ve, n = r(e, "r"), i = r(e, "g"), a = r(e, "b");
return ye(n, i, a, t);
}, "fade"), Xe = /* @__PURE__ */ d((e) => `.label {
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.cluster-label span,p {
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}
.label text,span,p {
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color: ${e.nodeTextColor || e.textColor};
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.node rect,
.node circle,
.node ellipse,
.node polygon,
.node path {
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stroke: ${e.nodeBorder};
stroke-width: 1px;
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.flowchart-label text {
text-anchor: middle;
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// .flowchart-label .text-outer-tspan {
// text-anchor: middle;
// }
// .flowchart-label .text-inner-tspan {
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.node .label {
text-align: center;
}
.node.clickable {
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.arrowheadPath {
fill: ${e.arrowheadColor};
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.edgePath .path {
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stroke-width: 2.0px;
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.flowchart-link {
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fill: none;
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.edgeLabel {
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rect {
opacity: 0.5;
background-color: ${e.edgeLabelBackground};
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text-align: center;
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/* For html labels only */
.labelBkg {
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// background-color:
}
.node .cluster {
// fill: ${nt(e.mainBkg, 0.5)};
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stroke: ${nt(e.clusterBorder, 0.2)};
box-shadow: rgba(50, 50, 93, 0.25) 0px 13px 27px -5px, rgba(0, 0, 0, 0.3) 0px 8px 16px -8px;
stroke-width: 1px;
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.cluster text {
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.cluster span,p {
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/* .cluster div {
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} */
div.mermaidTooltip {
position: absolute;
text-align: center;
max-width: 200px;
padding: 2px;
font-family: ${e.fontFamily};
font-size: 12px;
background: ${e.tertiaryColor};
border: 1px solid ${e.border2};
border-radius: 2px;
pointer-events: none;
z-index: 100;
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.flowchartTitleText {
text-anchor: middle;
font-size: 18px;
fill: ${e.textColor};
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`, "getStyles"), Ue = Xe, je = /* @__PURE__ */ d((e, t, r, n) => {
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rr[i](e, r, n);
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}, "insertMarkers"), Ve = /* @__PURE__ */ d((e, t, r) => {
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}, "extension"), Ge = /* @__PURE__ */ d((e, t, r) => {
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}, "composition"), Ze = /* @__PURE__ */ d((e, t, r) => {
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}, "point"), $e = /* @__PURE__ */ d((e, t, r) => {
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extension: Ve,
composition: Ge,
aggregation: Ze,
dependency: qe,
lollipop: Je,
point: Qe,
circle: $e,
cross: tr,
barb: er
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return { px: t, py: 0 };
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return { px: r, py: n };
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const { width: i, height: a, x: s, y: l } = n.size ?? { width: 0, height: 0, x: 0, y: 0 };
L.debug(
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n.id,
"width:",
i,
"height:",
a,
"x:",
s,
"y:",
l,
n.type
), n.type !== "space" && (i > t && (t = i / (e.widthInColumns ?? 1)), a > r && (r = a));
}
return { width: t, height: r };
}, "getMaxChildSize");
function ot(e, t, r = 0, n = 0) {
var s, l, o, f, h, y, b, m, E, D, v;
L.debug(
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e.id,
(s = e == null ? void 0 : e.size) == null ? void 0 : s.x,
"block width =",
e == null ? void 0 : e.size,
"sieblingWidth",
r
), (l = e == null ? void 0 : e.size) != null && l.width || (e.size = {
width: r,
height: n,
x: 0,
y: 0
});
let i = 0, a = 0;
if (((o = e.children) == null ? void 0 : o.length) > 0) {
for (const S of e.children)
ot(S, t);
const T = sr(e);
i = T.width, a = T.height, L.debug("setBlockSizes abc95 maxWidth of", e.id, ":s children is ", i, a);
for (const S of e.children)
S.size && (L.debug(
`abc95 Setting size of children of ${e.id} id=${S.id} ${i} ${a} ${JSON.stringify(S.size)}`
), S.size.width = i * (S.widthInColumns ?? 1) + I * ((S.widthInColumns ?? 1) - 1), S.size.height = a, S.size.x = 0, S.size.y = 0, L.debug(
`abc95 updating size of ${e.id} children child:${S.id} maxWidth:${i} maxHeight:${a}`
));
for (const S of e.children)
ot(S, t, i, a);
const k = e.columns ?? -1;
let N = 0;
for (const S of e.children)
N += S.widthInColumns ?? 1;
let x = e.children.length;
k > 0 && k < N && (x = k);
const g = Math.ceil(N / x);
let u = x * (i + I) + I, w = g * (a + I) + I;
if (u < r) {
L.debug(
`Detected to small siebling: abc95 ${e.id} sieblingWidth ${r} sieblingHeight ${n} width ${u}`
), u = r, w = n;
const S = (r - x * I - I) / x, c = (n - g * I - I) / g;
L.debug("Size indata abc88", e.id, "childWidth", S, "maxWidth", i), L.debug("Size indata abc88", e.id, "childHeight", c, "maxHeight", a), L.debug("Size indata abc88 xSize", x, "padding", I);
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_.size && (_.size.width = S, _.size.height = c, _.size.x = 0, _.size.y = 0);
}
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`abc95 (finale calc) ${e.id} xSize ${x} ySize ${g} columns ${k}${e.children.length} width=${Math.max(u, ((f = e.size) == null ? void 0 : f.width) || 0)}`
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u = ((y = e == null ? void 0 : e.size) == null ? void 0 : y.width) || 0;
const S = k > 0 ? Math.min(e.children.length, k) : e.children.length;
if (S > 0) {
const c = (u - S * I - I) / S;
L.debug("abc95 (growing to fit) width", e.id, u, (b = e.size) == null ? void 0 : b.width, c);
for (const _ of e.children)
_.size && (_.size.width = c);
}
}
e.size = {
width: u,
height: w,
x: 0,
y: 0
};
}
L.debug(
"setBlockSizes abc94 (done)",
e.id,
(m = e == null ? void 0 : e.size) == null ? void 0 : m.x,
(E = e == null ? void 0 : e.size) == null ? void 0 : E.width,
(D = e == null ? void 0 : e.size) == null ? void 0 : D.y,
(v = e == null ? void 0 : e.size) == null ? void 0 : v.height
);
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d(ot, "setBlockSizes");
function Et(e, t) {
var n, i, a, s, l, o, f, h, y, b, m, E, D, v, T, k, N;
L.debug(
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);
const r = e.columns ?? -1;
if (L.debug("layoutBlocks columns abc95", e.id, "=>", r, e), e.children && // find max width of children
e.children.length > 0) {
const x = ((l = (s = e == null ? void 0 : e.children[0]) == null ? void 0 : s.size) == null ? void 0 : l.width) ?? 0, g = e.children.length * x + (e.children.length - 1) * I;
L.debug("widthOfChildren 88", g, "posX");
let u = 0;
L.debug("abc91 block?.size?.x", e.id, (o = e == null ? void 0 : e.size) == null ? void 0 : o.x);
let w = (f = e == null ? void 0 : e.size) != null && f.x ? ((h = e == null ? void 0 : e.size) == null ? void 0 : h.x) + (-((y = e == null ? void 0 : e.size) == null ? void 0 : y.width) / 2 || 0) : -I, S = 0;
for (const c of e.children) {
const _ = e;
if (!c.size)
continue;
const { width: p, height: A } = c.size, { px: O, py: X } = Vt(r, u);
if (X != S && (S = X, w = (b = e == null ? void 0 : e.size) != null && b.x ? ((m = e == null ? void 0 : e.size) == null ? void 0 : m.x) + (-((E = e == null ? void 0 : e.size) == null ? void 0 : E.width) / 2 || 0) : -I, L.debug("New row in layout for block", e.id, " and child ", c.id, S)), L.debug(
`abc89 layout blocks (child) id: ${c.id} Pos: ${u} (px, py) ${O},${X} (${(D = _ == null ? void 0 : _.size) == null ? void 0 : D.x},${(v = _ == null ? void 0 : _.size) == null ? void 0 : v.y}) parent: ${_.id} width: ${p}${I}`
), _.size) {
const W = p / 2;
c.size.x = w + I + W, L.debug(
`abc91 layout blocks (calc) px, pyid:${c.id} startingPos=X${w} new startingPosX${c.size.x} ${W} padding=${I} width=${p} halfWidth=${W} => x:${c.size.x} y:${c.size.y} ${c.widthInColumns} (width * (child?.w || 1)) / 2 ${p * ((c == null ? void 0 : c.widthInColumns) ?? 1) / 2}`
), w = c.size.x + W, c.size.y = _.size.y - _.size.height / 2 + X * (A + I) + A / 2 + I, L.debug(
`abc88 layout blocks (calc) px, pyid:${c.id}startingPosX${w}${I}${W}=>x:${c.size.x}y:${c.size.y}${c.widthInColumns}(width * (child?.w || 1)) / 2${p * ((c == null ? void 0 : c.widthInColumns) ?? 1) / 2}`
);
}
c.children && Et(c), u += (c == null ? void 0 : c.widthInColumns) ?? 1, L.debug("abc88 columnsPos", c, u);
}
}
L.debug(
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);
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d(Et, "layoutBlocks");
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const { x: a, y: s, width: l, height: o } = e.size;
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}
if (e.children)
for (const a of e.children)
({ minX: t, minY: r, maxX: n, maxY: i } = _t(a, { minX: t, minY: r, maxX: n, maxY: i }));
return { minX: t, minY: r, maxX: n, maxY: i };
}
d(_t, "findBounds");
function Gt(e) {
const t = e.getBlock("root");
if (!t)
return;
ot(t, e, 0, 0), Et(t), L.debug("getBlocks", JSON.stringify(t, null, 2));
const { minX: r, minY: n, maxX: i, maxY: a } = _t(t), s = a - n, l = i - r;
return { x: r, y: n, width: l, height: s };
}
d(Gt, "layout");
function wt(e, t) {
t && e.attr("style", t);
}
d(wt, "applyStyle");
function Zt(e) {
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return a.html(n), wt(a, e.labelStyle), a.attr("class", i), wt(r, e.labelStyle), r.style("display", "inline-block"), r.style("white-space", "nowrap"), r.attr("xmlns", "http://www.w3.org/1999/xhtml"), t.node();
}
d(Zt, "addHtmlLabel");
var ir = /* @__PURE__ */ d((e, t, r, n) => {
let i = e || "";
if (typeof i == "object" && (i = i[0]), Z(z().flowchart.htmlLabels)) {
i = i.replace(/\\n|\n/g, "<br />"), L.debug("vertexText" + i);
const a = {
isNode: n,
label: we(xt(i)),
labelStyle: t.replace("fill:", "color:")
};
return Zt(a);
} else {
const a = document.createElementNS("http://www.w3.org/2000/svg", "text");
a.setAttribute("style", t.replace("color:", "fill:"));
let s = [];
typeof i == "string" ? s = i.split(/\\n|\n|<br\s*\/?>/gi) : Array.isArray(i) ? s = i : s = [];
for (const l of s) {
const o = document.createElementNS("http://www.w3.org/2000/svg", "tspan");
o.setAttributeNS("http://www.w3.org/XML/1998/namespace", "xml:space", "preserve"), o.setAttribute("dy", "1em"), o.setAttribute("x", "0"), r ? o.setAttribute("class", "title-row") : o.setAttribute("class", "row"), o.textContent = l.trim(), a.appendChild(o);
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return a;
}
}, "createLabel"), j = ir, nr = /* @__PURE__ */ d((e, t, r, n, i) => {
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}, "addEdgeMarkers"), lr = {
arrow_cross: "cross",
arrow_point: "point",
arrow_barb: "barb",
arrow_circle: "circle",
aggregation: "aggregation",
extension: "extension",
composition: "composition",
dependency: "dependency",
lollipop: "lollipop"
}, Ot = /* @__PURE__ */ d((e, t, r, n, i, a) => {
const s = lr[r];
if (!s) {
L.warn(`Unknown arrow type: ${r}`);
return;
}
const l = t === "start" ? "Start" : "End";
e.attr(`marker-${t}`, `url(${n}#${i}_${a}-${s}${l})`);
}, "addEdgeMarker"), mt = {}, P = {}, cr = /* @__PURE__ */ d((e, t) => {
const r = z(), n = Z(r.flowchart.htmlLabels), i = t.labelType === "markdown" ? Yt(
e,
t.label,
{
style: t.labelStyle,
useHtmlLabels: n,
addSvgBackground: !0
},
r
) : j(t.label, t.labelStyle), a = e.insert("g").attr("class", "edgeLabel"), s = a.insert("g").attr("class", "label");
s.node().appendChild(i);
let l = i.getBBox();
if (n) {
const f = i.children[0], h = R(i);
l = f.getBoundingClientRect(), h.attr("width", l.width), h.attr("height", l.height);
}
s.attr("transform", "translate(" + -l.width / 2 + ", " + -l.height / 2 + ")"), mt[t.id] = a, t.width = l.width, t.height = l.height;
let o;
if (t.startLabelLeft) {
const f = j(t.startLabelLeft, t.labelStyle), h = e.insert("g").attr("class", "edgeTerminals"), y = h.insert("g").attr("class", "inner");
o = y.node().appendChild(f);
const b = f.getBBox();
y.attr("transform", "translate(" + -b.width / 2 + ", " + -b.height / 2 + ")"), P[t.id] || (P[t.id] = {}), P[t.id].startLeft = h, et(o, t.startLabelLeft);
}
if (t.startLabelRight) {
const f = j(t.startLabelRight, t.labelStyle), h = e.insert("g").attr("class", "edgeTerminals"), y = h.insert("g").attr("class", "inner");
o = h.node().appendChild(f), y.node().appendChild(f);
const b = f.getBBox();
y.attr("transform", "translate(" + -b.width / 2 + ", " + -b.height / 2 + ")"), P[t.id] || (P[t.id] = {}), P[t.id].startRight = h, et(o, t.startLabelRight);
}
if (t.endLabelLeft) {
const f = j(t.endLabelLeft, t.labelStyle), h = e.insert("g").attr("class", "edgeTerminals"), y = h.insert("g").attr("class", "inner");
o = y.node().appendChild(f);
const b = f.getBBox();
y.attr("transform", "translate(" + -b.width / 2 + ", " + -b.height / 2 + ")"), h.node().appendChild(f), P[t.id] || (P[t.id] = {}), P[t.id].endLeft = h, et(o, t.endLabelLeft);
}
if (t.endLabelRight) {
const f = j(t.endLabelRight, t.labelStyle), h = e.insert("g").attr("class", "edgeTerminals"), y = h.insert("g").attr("class", "inner");
o = y.node().appendChild(f);
const b = f.getBBox();
y.attr("transform", "translate(" + -b.width / 2 + ", " + -b.height / 2 + ")"), h.node().appendChild(f), P[t.id] || (P[t.id] = {}), P[t.id].endRight = h, et(o, t.endLabelRight);
}
return i;
}, "insertEdgeLabel");
function et(e, t) {
z().flowchart.htmlLabels && e && (e.style.width = t.length * 9 + "px", e.style.height = "12px");
}
d(et, "setTerminalWidth");
var or = /* @__PURE__ */ d((e, t) => {
L.debug("Moving label abc88 ", e.id, e.label, mt[e.id], t);
let r = t.updatedPath ? t.updatedPath : t.originalPath;
const n = z(), { subGraphTitleTotalMargin: i } = ge(n);
if (e.label) {
const a = mt[e.id];
let s = e.x, l = e.y;
if (r) {
const o = tt.calcLabelPosition(r);
L.debug(
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s,
",",
l,
") to (",
o.x,
",",
o.y,
") abc88"
), t.updatedPath && (s = o.x, l = o.y);
}
a.attr("transform", `translate(${s}, ${l + i / 2})`);
}
if (e.startLabelLeft) {
const a = P[e.id].startLeft;
let s = e.x, l = e.y;
if (r) {
const o = tt.calcTerminalLabelPosition(e.arrowTypeStart ? 10 : 0, "start_left", r);
s = o.x, l = o.y;
}
a.attr("transform", `translate(${s}, ${l})`);
}
if (e.startLabelRight) {
const a = P[e.id].startRight;
let s = e.x, l = e.y;
if (r) {
const o = tt.calcTerminalLabelPosition(
e.arrowTypeStart ? 10 : 0,
"start_right",
r
);
s = o.x, l = o.y;
}
a.attr("transform", `translate(${s}, ${l})`);
}
if (e.endLabelLeft) {
const a = P[e.id].endLeft;
let s = e.x, l = e.y;
if (r) {
const o = tt.calcTerminalLabelPosition(e.arrowTypeEnd ? 10 : 0, "end_left", r);
s = o.x, l = o.y;
}
a.attr("transform", `translate(${s}, ${l})`);
}
if (e.endLabelRight) {
const a = P[e.id].endRight;
let s = e.x, l = e.y;
if (r) {
const o = tt.calcTerminalLabelPosition(e.arrowTypeEnd ? 10 : 0, "end_right", r);
s = o.x, l = o.y;
}
a.attr("transform", `translate(${s}, ${l})`);
}
}, "positionEdgeLabel"), hr = /* @__PURE__ */ d((e, t) => {
const r = e.x, n = e.y, i = Math.abs(t.x - r), a = Math.abs(t.y - n), s = e.width / 2, l = e.height / 2;
return i >= s || a >= l;
}, "outsideNode"), dr = /* @__PURE__ */ d((e, t, r) => {
L.debug(`intersection calc abc89:
outsidePoint: ${JSON.stringify(t)}
insidePoint : ${JSON.stringify(r)}
node : x:${e.x} y:${e.y} w:${e.width} h:${e.height}`);
const n = e.x, i = e.y, a = Math.abs(n - r.x), s = e.width / 2;
let l = r.x < t.x ? s - a : s + a;
const o = e.height / 2, f = Math.abs(t.y - r.y), h = Math.abs(t.x - r.x);
if (Math.abs(i - t.y) * s > Math.abs(n - t.x) * o) {
let y = r.y < t.y ? t.y - o - i : i - o - t.y;
l = h * y / f;
const b = {
x: r.x < t.x ? r.x + l : r.x - h + l,
y: r.y < t.y ? r.y + f - y : r.y - f + y
};
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{ x: 0, y: -a }
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{ x: l - s, y: -a },
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function Lt(e, t) {
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t,
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L.info("Classes = ", t.classes);
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{ x: 0, y: -s / 2 }
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{ x: n / 2, y: 0 },
{ x: 0, y: -n / 2 },
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{ x: l - s, y: -a },
{ x: s, y: -a },
{ x: 0, y: -a / 2 }
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{ x: -a / 2, y: -a },
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{ x: i - a / 6, y: 0 },
{ x: i + 2 * a / 6, y: -a },
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{ x: i + 2 * a / 6, y: -a },
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return B(t, f), t.intersect = function(h) {
const y = C.rect(t, h), b = y.x - t.x;
if (a != 0 && (Math.abs(b) < t.width / 2 || Math.abs(b) == t.width / 2 && Math.abs(y.y - t.y) > t.height / 2 - s)) {
let m = s * s * (1 - b * b / (a * a));
m != 0 && (m = Math.sqrt(m)), m = s - m, h.y - t.y > 0 && (m = -m), y.y += m;
}
return y;
}, r;
}, "cylinder"), Or = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n, halfPadding: i } = await F(
e,
t,
"node " + t.classes + " " + t.class,
!0
), a = r.insert("rect", ":first-child"), s = t.positioned ? t.width : n.width + t.padding, l = t.positioned ? t.height : n.height + t.padding, o = t.positioned ? -s / 2 : -n.width / 2 - i, f = t.positioned ? -l / 2 : -n.height / 2 - i;
if (a.attr("class", "basic label-container").attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("x", o).attr("y", f).attr("width", s).attr("height", l), t.props) {
const h = new Set(Object.keys(t.props));
t.props.borders && (ht(a, t.props.borders, s, l), h.delete("borders")), h.forEach((y) => {
L.warn(`Unknown node property ${y}`);
});
}
return B(t, a), t.intersect = function(h) {
return C.rect(t, h);
}, r;
}, "rect"), Rr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n, halfPadding: i } = await F(
e,
t,
"node " + t.classes,
!0
), a = r.insert("rect", ":first-child"), s = t.positioned ? t.width : n.width + t.padding, l = t.positioned ? t.height : n.height + t.padding, o = t.positioned ? -s / 2 : -n.width / 2 - i, f = t.positioned ? -l / 2 : -n.height / 2 - i;
if (a.attr("class", "basic cluster composite label-container").attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("x", o).attr("y", f).attr("width", s).attr("height", l), t.props) {
const h = new Set(Object.keys(t.props));
t.props.borders && (ht(a, t.props.borders, s, l), h.delete("borders")), h.forEach((y) => {
L.warn(`Unknown node property ${y}`);
});
}
return B(t, a), t.intersect = function(h) {
return C.rect(t, h);
}, r;
}, "composite"), zr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r } = await F(e, t, "label", !0);
L.trace("Classes = ", t.class);
const n = r.insert("rect", ":first-child"), i = 0, a = 0;
if (n.attr("width", i).attr("height", a), r.attr("class", "label edgeLabel"), t.props) {
const s = new Set(Object.keys(t.props));
t.props.borders && (ht(n, t.props.borders, i, a), s.delete("borders")), s.forEach((l) => {
L.warn(`Unknown node property ${l}`);
});
}
return B(t, n), t.intersect = function(s) {
return C.rect(t, s);
}, r;
}, "labelRect");
function ht(e, t, r, n) {
const i = [], a = /* @__PURE__ */ d((l) => {
i.push(l, 0);
}, "addBorder"), s = /* @__PURE__ */ d((l) => {
i.push(0, l);
}, "skipBorder");
t.includes("t") ? (L.debug("add top border"), a(r)) : s(r), t.includes("r") ? (L.debug("add right border"), a(n)) : s(n), t.includes("b") ? (L.debug("add bottom border"), a(r)) : s(r), t.includes("l") ? (L.debug("add left border"), a(n)) : s(n), e.attr("stroke-dasharray", i.join(" "));
}
d(ht, "applyNodePropertyBorders");
var Ar = /* @__PURE__ */ d((e, t) => {
let r;
t.classes ? r = "node " + t.classes : r = "node default";
const n = e.insert("g").attr("class", r).attr("id", t.domId || t.id), i = n.insert("rect", ":first-child"), a = n.insert("line"), s = n.insert("g").attr("class", "label"), l = t.labelText.flat ? t.labelText.flat() : t.labelText;
let o = "";
typeof l == "object" ? o = l[0] : o = l, L.info("Label text abc79", o, l, typeof l == "object");
const f = s.node().appendChild(j(o, t.labelStyle, !0, !0));
let h = { width: 0, height: 0 };
if (Z(z().flowchart.htmlLabels)) {
const D = f.children[0], v = R(f);
h = D.getBoundingClientRect(), v.attr("width", h.width), v.attr("height", h.height);
}
L.info("Text 2", l);
const y = l.slice(1, l.length);
let b = f.getBBox();
const m = s.node().appendChild(
j(y.join ? y.join("<br/>") : y, t.labelStyle, !0, !0)
);
if (Z(z().flowchart.htmlLabels)) {
const D = m.children[0], v = R(m);
h = D.getBoundingClientRect(), v.attr("width", h.width), v.attr("height", h.height);
}
const E = t.padding / 2;
return R(m).attr(
"transform",
"translate( " + // (titleBox.width - bbox.width) / 2 +
(h.width > b.width ? 0 : (b.width - h.width) / 2) + ", " + (b.height + E + 5) + ")"
), R(f).attr(
"transform",
"translate( " + // (titleBox.width - bbox.width) / 2 +
(h.width < b.width ? 0 : -(b.width - h.width) / 2) + ", 0)"
), h = s.node().getBBox(), s.attr(
"transform",
"translate(" + -h.width / 2 + ", " + (-h.height / 2 - E + 3) + ")"
), i.attr("class", "outer title-state").attr("x", -h.width / 2 - E).attr("y", -h.height / 2 - E).attr("width", h.width + t.padding).attr("height", h.height + t.padding), a.attr("class", "divider").attr("x1", -h.width / 2 - E).attr("x2", h.width / 2 + E).attr("y1", -h.height / 2 - E + b.height + E).attr("y2", -h.height / 2 - E + b.height + E), B(t, i), t.intersect = function(D) {
return C.rect(t, D);
}, n;
}, "rectWithTitle"), Mr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n } = await F(
e,
t,
K(t, void 0),
!0
), i = n.height + t.padding, a = n.width + i / 4 + t.padding, s = r.insert("rect", ":first-child").attr("style", t.style).attr("rx", i / 2).attr("ry", i / 2).attr("x", -a / 2).attr("y", -i / 2).attr("width", a).attr("height", i);
return B(t, s), t.intersect = function(l) {
return C.rect(t, l);
}, r;
}, "stadium"), Fr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n, halfPadding: i } = await F(
e,
t,
K(t, void 0),
!0
), a = r.insert("circle", ":first-child");
return a.attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("r", n.width / 2 + i).attr("width", n.width + t.padding).attr("height", n.height + t.padding), L.info("Circle main"), B(t, a), t.intersect = function(s) {
return L.info("Circle intersect", t, n.width / 2 + i, s), C.circle(t, n.width / 2 + i, s);
}, r;
}, "circle"), Wr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n, halfPadding: i } = await F(
e,
t,
K(t, void 0),
!0
), a = 5, s = r.insert("g", ":first-child"), l = s.insert("circle"), o = s.insert("circle");
return s.attr("class", t.class), l.attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("r", n.width / 2 + i + a).attr("width", n.width + t.padding + a * 2).attr("height", n.height + t.padding + a * 2), o.attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("r", n.width / 2 + i).attr("width", n.width + t.padding).attr("height", n.height + t.padding), L.info("DoubleCircle main"), B(t, l), t.intersect = function(f) {
return L.info("DoubleCircle intersect", t, n.width / 2 + i + a, f), C.circle(t, n.width / 2 + i + a, f);
}, r;
}, "doublecircle"), Pr = /* @__PURE__ */ d(async (e, t) => {
const { shapeSvg: r, bbox: n } = await F(
e,
t,
K(t, void 0),
!0
), i = n.width + t.padding, a = n.height + t.padding, s = [
{ x: 0, y: 0 },
{ x: i, y: 0 },
{ x: i, y: -a },
{ x: 0, y: -a },
{ x: 0, y: 0 },
{ x: -8, y: 0 },
{ x: i + 8, y: 0 },
{ x: i + 8, y: -a },
{ x: -8, y: -a },
{ x: -8, y: 0 }
], l = G(r, i, a, s);
return l.attr("style", t.style), B(t, l), t.intersect = function(o) {
return C.polygon(t, s, o);
}, r;
}, "subroutine"), Yr = /* @__PURE__ */ d((e, t) => {
const r = e.insert("g").attr("class", "node default").attr("id", t.domId || t.id), n = r.insert("circle", ":first-child");
return n.attr("class", "state-start").attr("r", 7).attr("width", 14).attr("height", 14), B(t, n), t.intersect = function(i) {
return C.circle(t, 7, i);
}, r;
}, "start"), Mt = /* @__PURE__ */ d((e, t, r) => {
const n = e.insert("g").attr("class", "node default").attr("id", t.domId || t.id);
let i = 70, a = 10;
r === "LR" && (i = 10, a = 70);
const s = n.append("rect").attr("x", -1 * i / 2).attr("y", -1 * a / 2).attr("width", i).attr("height", a).attr("class", "fork-join");
return B(t, s), t.height = t.height + t.padding / 2, t.width = t.width + t.padding / 2, t.intersect = function(l) {
return C.rect(t, l);
}, n;
}, "forkJoin"), Hr = /* @__PURE__ */ d((e, t) => {
const r = e.insert("g").attr("class", "node default").attr("id", t.domId || t.id), n = r.insert("circle", ":first-child"), i = r.insert("circle", ":first-child");
return i.attr("class", "state-start").attr("r", 7).attr("width", 14).attr("height", 14), n.attr("class", "state-end").attr("r", 5).attr("width", 10).attr("height", 10), B(t, i), t.intersect = function(a) {
return C.circle(t, 7, a);
}, r;
}, "end"), Kr = /* @__PURE__ */ d((e, t) => {
var S;
const r = t.padding / 2, n = 4, i = 8;
let a;
t.classes ? a = "node " + t.classes : a = "node default";
const s = e.insert("g").attr("class", a).attr("id", t.domId || t.id), l = s.insert("rect", ":first-child"), o = s.insert("line"), f = s.insert("line");
let h = 0, y = n;
const b = s.insert("g").attr("class", "label");
let m = 0;
const E = (S = t.classData.annotations) == null ? void 0 : S[0], D = t.classData.annotations[0] ? "«" + t.classData.annotations[0] + "»" : "", v = b.node().appendChild(j(D, t.labelStyle, !0, !0));
let T = v.getBBox();
if (Z(z().flowchart.htmlLabels)) {
const c = v.children[0], _ = R(v);
T = c.getBoundingClientRect(), _.attr("width", T.width), _.attr("height", T.height);
}
t.classData.annotations[0] && (y += T.height + n, h += T.width);
let k = t.classData.label;
t.classData.type !== void 0 && t.classData.type !== "" && (z().flowchart.htmlLabels ? k += "&lt;" + t.classData.type + "&gt;" : k += "<" + t.classData.type + ">");
const N = b.node().appendChild(j(k, t.labelStyle, !0, !0));
R(N).attr("class", "classTitle");
let x = N.getBBox();
if (Z(z().flowchart.htmlLabels)) {
const c = N.children[0], _ = R(N);
x = c.getBoundingClientRect(), _.attr("width", x.width), _.attr("height", x.height);
}
y += x.height + n, x.width > h && (h = x.width);
const g = [];
t.classData.members.forEach((c) => {
const _ = c.getDisplayDetails();
let p = _.displayText;
z().flowchart.htmlLabels && (p = p.replace(/</g, "&lt;").replace(/>/g, "&gt;"));
const A = b.node().appendChild(
j(
p,
_.cssStyle ? _.cssStyle : t.labelStyle,
!0,
!0
)
);
let O = A.getBBox();
if (Z(z().flowchart.htmlLabels)) {
const X = A.children[0], W = R(A);
O = X.getBoundingClientRect(), W.attr("width", O.width), W.attr("height", O.height);
}
O.width > h && (h = O.width), y += O.height + n, g.push(A);
}), y += i;
const u = [];
if (t.classData.methods.forEach((c) => {
const _ = c.getDisplayDetails();
let p = _.displayText;
z().flowchart.htmlLabels && (p = p.replace(/</g, "&lt;").replace(/>/g, "&gt;"));
const A = b.node().appendChild(
j(
p,
_.cssStyle ? _.cssStyle : t.labelStyle,
!0,
!0
)
);
let O = A.getBBox();
if (Z(z().flowchart.htmlLabels)) {
const X = A.children[0], W = R(A);
O = X.getBoundingClientRect(), W.attr("width", O.width), W.attr("height", O.height);
}
O.width > h && (h = O.width), y += O.height + n, u.push(A);
}), y += i, E) {
let c = (h - T.width) / 2;
R(v).attr(
"transform",
"translate( " + (-1 * h / 2 + c) + ", " + -1 * y / 2 + ")"
), m = T.height + n;
}
let w = (h - x.width) / 2;
return R(N).attr(
"transform",
"translate( " + (-1 * h / 2 + w) + ", " + (-1 * y / 2 + m) + ")"
), m += x.height + n, o.attr("class", "divider").attr("x1", -h / 2 - r).attr("x2", h / 2 + r).attr("y1", -y / 2 - r + i + m).attr("y2", -y / 2 - r + i + m), m += i, g.forEach((c) => {
R(c).attr(
"transform",
"translate( " + -h / 2 + ", " + (-1 * y / 2 + m + i / 2) + ")"
);
const _ = c == null ? void 0 : c.getBBox();
m += ((_ == null ? void 0 : _.height) ?? 0) + n;
}), m += i, f.attr("class", "divider").attr("x1", -h / 2 - r).attr("x2", h / 2 + r).attr("y1", -y / 2 - r + i + m).attr("y2", -y / 2 - r + i + m), m += i, u.forEach((c) => {
R(c).attr(
"transform",
"translate( " + -h / 2 + ", " + (-1 * y / 2 + m) + ")"
);
const _ = c == null ? void 0 : c.getBBox();
m += ((_ == null ? void 0 : _.height) ?? 0) + n;
}), l.attr("style", t.style).attr("class", "outer title-state").attr("x", -h / 2 - r).attr("y", -(y / 2) - r).attr("width", h + t.padding).attr("height", y + t.padding), B(t, l), t.intersect = function(c) {
return C.rect(t, c);
}, s;
}, "class_box"), Ft = {
rhombus: At,
composite: Rr,
question: At,
rect: Or,
labelRect: zr,
rectWithTitle: Ar,
choice: vr,
circle: Fr,
doublecircle: Wr,
stadium: Mr,
hexagon: Er,
block_arrow: _r,
rect_left_inv_arrow: kr,
lean_right: Dr,
lean_left: Nr,
trapezoid: Tr,
inv_trapezoid: Cr,
rect_right_inv_arrow: Br,
cylinder: Ir,
start: Yr,
end: Hr,
note: Sr,
subroutine: Pr,
fork: Mt,
join: Mt,
class_box: Kr
}, lt = {}, re = /* @__PURE__ */ d(async (e, t, r) => {
let n, i;
if (t.link) {
let a;
z().securityLevel === "sandbox" ? a = "_top" : t.linkTarget && (a = t.linkTarget || "_blank"), n = e.insert("svg:a").attr("xlink:href", t.link).attr("target", a), i = await Ft[t.shape](n, t, r);
} else
i = await Ft[t.shape](e, t, r), n = i;
return t.tooltip && i.attr("title", t.tooltip), t.class && i.attr("class", "node default " + t.class), lt[t.id] = n, t.haveCallback && lt[t.id].attr("class", lt[t.id].attr("class") + " clickable"), n;
}, "insertNode"), Xr = /* @__PURE__ */ d((e) => {
const t = lt[e.id];
L.trace(
"Transforming node",
e.diff,
e,
"translate(" + (e.x - e.width / 2 - 5) + ", " + e.width / 2 + ")"
);
const r = 8, n = e.diff || 0;
return e.clusterNode ? t.attr(
"transform",
"translate(" + (e.x + n - e.width / 2) + ", " + (e.y - e.height / 2 - r) + ")"
) : t.attr("transform", "translate(" + e.x + ", " + e.y + ")"), n;
}, "positionNode");
function kt(e, t, r = !1) {
var b, m, E;
const n = e;
let i = "default";
(((b = n == null ? void 0 : n.classes) == null ? void 0 : b.length) || 0) > 0 && (i = ((n == null ? void 0 : n.classes) ?? []).join(" ")), i = i + " flowchart-label";
let a = 0, s = "", l;
switch (n.type) {
case "round":
a = 5, s = "rect";
break;
case "composite":
a = 0, s = "composite", l = 0;
break;
case "square":
s = "rect";
break;
case "diamond":
s = "question";
break;
case "hexagon":
s = "hexagon";
break;
case "block_arrow":
s = "block_arrow";
break;
case "odd":
s = "rect_left_inv_arrow";
break;
case "lean_right":
s = "lean_right";
break;
case "lean_left":
s = "lean_left";
break;
case "trapezoid":
s = "trapezoid";
break;
case "inv_trapezoid":
s = "inv_trapezoid";
break;
case "rect_left_inv_arrow":
s = "rect_left_inv_arrow";
break;
case "circle":
s = "circle";
break;
case "ellipse":
s = "ellipse";
break;
case "stadium":
s = "stadium";
break;
case "subroutine":
s = "subroutine";
break;
case "cylinder":
s = "cylinder";
break;
case "group":
s = "rect";
break;
case "doublecircle":
s = "doublecircle";
break;
default:
s = "rect";
}
const o = de((n == null ? void 0 : n.styles) ?? []), f = n.label, h = n.size ?? { width: 0, height: 0, x: 0, y: 0 };
return {
labelStyle: o.labelStyle,
shape: s,
labelText: f,
rx: a,
ry: a,
class: i,
style: o.style,
id: n.id,
directions: n.directions,
width: h.width,
height: h.height,
x: h.x,
y: h.y,
positioned: r,
intersect: void 0,
type: n.type,
padding: l ?? ((E = (m = at()) == null ? void 0 : m.block) == null ? void 0 : E.padding) ?? 0
};
}
d(kt, "getNodeFromBlock");
async function ae(e, t, r) {
const n = kt(t, r, !1);
if (n.type === "group")
return;
const i = at(), a = await re(e, n, { config: i }), s = a.node().getBBox(), l = r.getBlock(n.id);
l.size = { width: s.width, height: s.height, x: 0, y: 0, node: a }, r.setBlock(l), a.remove();
}
d(ae, "calculateBlockSize");
async function se(e, t, r) {
const n = kt(t, r, !0);
if (r.getBlock(n.id).type !== "space") {
const a = at();
await re(e, n, { config: a }), t.intersect = n == null ? void 0 : n.intersect, Xr(n);
}
}
d(se, "insertBlockPositioned");
async function dt(e, t, r, n) {
for (const i of t)
await n(e, i, r), i.children && await dt(e, i.children, r, n);
}
d(dt, "performOperations");
async function ie(e, t, r) {
await dt(e, t, r, ae);
}
d(ie, "calculateBlockSizes");
async function ne(e, t, r) {
await dt(e, t, r, se);
}
d(ne, "insertBlocks");
async function le(e, t, r, n, i) {
const a = new Se({
multigraph: !0,
compound: !0
});
a.setGraph({
rankdir: "TB",
nodesep: 10,
ranksep: 10,
marginx: 8,
marginy: 8
});
for (const s of r)
s.size && a.setNode(s.id, {
width: s.size.width,
height: s.size.height,
intersect: s.intersect
});
for (const s of t)
if (s.start && s.end) {
const l = n.getBlock(s.start), o = n.getBlock(s.end);
if (l != null && l.size && (o != null && o.size)) {
const f = l.size, h = o.size, y = [
{ x: f.x, y: f.y },
{ x: f.x + (h.x - f.x) / 2, y: f.y + (h.y - f.y) / 2 },
{ x: h.x, y: h.y }
];
gr(
e,
{ v: s.start, w: s.end, name: s.id },
{
...s,
arrowTypeEnd: s.arrowTypeEnd,
arrowTypeStart: s.arrowTypeStart,
points: y,
classes: "edge-thickness-normal edge-pattern-solid flowchart-link LS-a1 LE-b1"
},
void 0,
"block",
a,
i
), s.label && (await cr(e, {
...s,
label: s.label,
labelStyle: "stroke: #333; stroke-width: 1.5px;fill:none;",
arrowTypeEnd: s.arrowTypeEnd,
arrowTypeStart: s.arrowTypeStart,
points: y,
classes: "edge-thickness-normal edge-pattern-solid flowchart-link LS-a1 LE-b1"
}), or(
{ ...s, x: y[1].x, y: y[1].y },
{
originalPath: y
}
));
}
}
}
d(le, "insertEdges");
var Ur = /* @__PURE__ */ d(function(e, t) {
return t.db.getClasses();
}, "getClasses"), jr = /* @__PURE__ */ d(async function(e, t, r, n) {
const { securityLevel: i, block: a } = at(), s = n.db;
let l;
i === "sandbox" && (l = R("#i" + t));
const o = i === "sandbox" ? R(l.nodes()[0].contentDocument.body) : R("body"), f = i === "sandbox" ? o.select(`[id="${t}"]`) : R(`[id="${t}"]`);
ar(f, ["point", "circle", "cross"], n.type, t);
const y = s.getBlocks(), b = s.getBlocksFlat(), m = s.getEdges(), E = f.insert("g").attr("class", "block");
await ie(E, y, s);
const D = Gt(s);
if (await ne(E, y, s), await le(E, m, b, s, t), D) {
const v = D, T = Math.max(1, Math.round(0.125 * (v.width / v.height))), k = v.height + T + 10, N = v.width + 10, { useMaxWidth: x } = a;
fe(f, k, N, !!x), L.debug("Here Bounds", D, v), f.attr(
"viewBox",
`${v.x - 5} ${v.y - 5} ${v.width + 10} ${v.height + 10}`
);
}
}, "draw"), Vr = {
draw: jr,
getClasses: Ur
}, Qr = {
parser: Ee,
db: Ke,
renderer: Vr,
styles: Ue
};
export {
Qr as diagram
};
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