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import { app } from "../../scripts/app.js";
import { api } from "../../scripts/api.js";
import { getResolver, wait } from "../../rgthree/common/shared_utils.js";
import { RgthreeHelpDialog } from "../../rgthree/common/dialog.js";
const oldApiGetNodeDefs = api.getNodeDefs;
api.getNodeDefs = async function () {
const defs = await oldApiGetNodeDefs.call(api);
this.dispatchEvent(new CustomEvent("fresh-node-defs", { detail: defs }));
return defs;
};
export var IoDirection;
(function (IoDirection) {
IoDirection[IoDirection["INPUT"] = 0] = "INPUT";
IoDirection[IoDirection["OUTPUT"] = 1] = "OUTPUT";
})(IoDirection || (IoDirection = {}));
const PADDING = 0;
export const LAYOUT_LABEL_TO_DATA = {
Left: [LiteGraph.LEFT, [0, 0.5], [PADDING, 0]],
Right: [LiteGraph.RIGHT, [1, 0.5], [-PADDING, 0]],
Top: [LiteGraph.UP, [0.5, 0], [0, PADDING]],
Bottom: [LiteGraph.DOWN, [0.5, 1], [0, -PADDING]],
};
export const LAYOUT_LABEL_OPPOSITES = {
Left: "Right",
Right: "Left",
Top: "Bottom",
Bottom: "Top",
};
export const LAYOUT_CLOCKWISE = ["Top", "Right", "Bottom", "Left"];
export function addMenuItem(node, _app, config, after = "Shape") {
const oldGetExtraMenuOptions = node.prototype.getExtraMenuOptions;
node.prototype.getExtraMenuOptions = function (canvas, menuOptions) {
oldGetExtraMenuOptions && oldGetExtraMenuOptions.apply(this, [canvas, menuOptions]);
addMenuItemOnExtraMenuOptions(this, config, menuOptions, after);
};
}
let canvasResolver = null;
export function waitForCanvas() {
if (canvasResolver === null) {
canvasResolver = getResolver();
function _waitForCanvas() {
if (!canvasResolver.completed) {
if (app === null || app === void 0 ? void 0 : app.canvas) {
canvasResolver.resolve(app.canvas);
}
else {
requestAnimationFrame(_waitForCanvas);
}
}
}
_waitForCanvas();
}
return canvasResolver.promise;
}
let graphResolver = null;
export function waitForGraph() {
if (graphResolver === null) {
graphResolver = getResolver();
function _wait() {
if (!graphResolver.completed) {
if (app === null || app === void 0 ? void 0 : app.graph) {
graphResolver.resolve(app.graph);
}
else {
requestAnimationFrame(_wait);
}
}
}
_wait();
}
return graphResolver.promise;
}
export function addMenuItemOnExtraMenuOptions(node, config, menuOptions, after = "Shape") {
let idx = menuOptions
.slice()
.reverse()
.findIndex((option) => option === null || option === void 0 ? void 0 : option.isRgthree);
if (idx == -1) {
idx = menuOptions.findIndex((option) => { var _a; return (_a = option === null || option === void 0 ? void 0 : option.content) === null || _a === void 0 ? void 0 : _a.includes(after); }) + 1;
if (!idx) {
idx = menuOptions.length - 1;
}
menuOptions.splice(idx, 0, null);
idx++;
}
else {
idx = menuOptions.length - idx;
}
const subMenuOptions = typeof config.subMenuOptions === "function"
? config.subMenuOptions(node)
: config.subMenuOptions;
menuOptions.splice(idx, 0, {
content: typeof config.name == "function" ? config.name(node) : config.name,
has_submenu: !!(subMenuOptions === null || subMenuOptions === void 0 ? void 0 : subMenuOptions.length),
isRgthree: true,
callback: (value, _options, event, parentMenu, _node) => {
if (!!(subMenuOptions === null || subMenuOptions === void 0 ? void 0 : subMenuOptions.length)) {
new LiteGraph.ContextMenu(subMenuOptions.map((option) => (option ? { content: option } : null)), {
event,
parentMenu,
callback: (subValue, _options, _event, _parentMenu, _node) => {
if (config.property) {
node.properties = node.properties || {};
node.properties[config.property] = config.prepareValue
? config.prepareValue(subValue.content || '', node)
: subValue.content || '';
}
config.callback && config.callback(node, subValue === null || subValue === void 0 ? void 0 : subValue.content);
},
});
return;
}
if (config.property) {
node.properties = node.properties || {};
node.properties[config.property] = config.prepareValue
? config.prepareValue(node.properties[config.property], node)
: !node.properties[config.property];
}
config.callback && config.callback(node, value === null || value === void 0 ? void 0 : value.content);
},
});
}
export function addConnectionLayoutSupport(node, app, options = [
["Left", "Right"],
["Right", "Left"],
], callback) {
addMenuItem(node, app, {
name: "Connections Layout",
property: "connections_layout",
subMenuOptions: options.map((option) => option[0] + (option[1] ? " -> " + option[1] : "")),
prepareValue: (value, node) => {
var _a;
const values = value.split(" -> ");
if (!values[1] && !((_a = node.outputs) === null || _a === void 0 ? void 0 : _a.length)) {
values[1] = LAYOUT_LABEL_OPPOSITES[values[0]];
}
if (!LAYOUT_LABEL_TO_DATA[values[0]] || !LAYOUT_LABEL_TO_DATA[values[1]]) {
throw new Error(`New Layout invalid: [${values[0]}, ${values[1]}]`);
}
return values;
},
callback: (node) => {
callback && callback(node);
app.graph.setDirtyCanvas(true, true);
},
});
node.prototype.getConnectionPos = function (isInput, slotNumber, out) {
return getConnectionPosForLayout(this, isInput, slotNumber, out);
};
}
export function setConnectionsLayout(node, newLayout) {
var _a;
newLayout = newLayout || node.defaultConnectionsLayout || ["Left", "Right"];
if (!newLayout[1] && !((_a = node.outputs) === null || _a === void 0 ? void 0 : _a.length)) {
newLayout[1] = LAYOUT_LABEL_OPPOSITES[newLayout[0]];
}
if (!LAYOUT_LABEL_TO_DATA[newLayout[0]] || !LAYOUT_LABEL_TO_DATA[newLayout[1]]) {
throw new Error(`New Layout invalid: [${newLayout[0]}, ${newLayout[1]}]`);
}
node.properties = node.properties || {};
node.properties["connections_layout"] = newLayout;
}
export function setConnectionsCollapse(node, collapseConnections = null) {
node.properties = node.properties || {};
collapseConnections =
collapseConnections !== null ? collapseConnections : !node.properties["collapse_connections"];
node.properties["collapse_connections"] = collapseConnections;
}
export function getConnectionPosForLayout(node, isInput, slotNumber, out) {
var _a, _b, _c;
out = out || new Float32Array(2);
node.properties = node.properties || {};
const layout = node.properties["connections_layout"] ||
node.defaultConnectionsLayout || ["Left", "Right"];
const collapseConnections = node.properties["collapse_connections"] || false;
const offset = (_a = node.constructor.layout_slot_offset) !== null && _a !== void 0 ? _a : LiteGraph.NODE_SLOT_HEIGHT * 0.5;
let side = isInput ? layout[0] : layout[1];
const otherSide = isInput ? layout[1] : layout[0];
let data = LAYOUT_LABEL_TO_DATA[side];
const slotList = node[isInput ? "inputs" : "outputs"];
const cxn = slotList[slotNumber];
if (!cxn) {
console.log("No connection found.. weird", isInput, slotNumber);
return out;
}
if (cxn.disabled) {
if (cxn.color_on !== "#666665") {
cxn._color_on_org = cxn._color_on_org || cxn.color_on;
cxn._color_off_org = cxn._color_off_org || cxn.color_off;
}
cxn.color_on = "#666665";
cxn.color_off = "#666665";
}
else if (cxn.color_on === "#666665") {
cxn.color_on = cxn._color_on_org || undefined;
cxn.color_off = cxn._color_off_org || undefined;
}
const displaySlot = collapseConnections
? 0
: slotNumber -
slotList.reduce((count, ioput, index) => {
count += index < slotNumber && ioput.hidden ? 1 : 0;
return count;
}, 0);
cxn.dir = data[0];
if ((node.size[0] == 10 || node.size[1] == 10) && node.properties["connections_dir"]) {
cxn.dir = node.properties["connections_dir"][isInput ? 0 : 1];
}
if (side === "Left") {
if (node.flags.collapsed) {
var w = node._collapsed_width || LiteGraph.NODE_COLLAPSED_WIDTH;
out[0] = node.pos[0];
out[1] = node.pos[1] - LiteGraph.NODE_TITLE_HEIGHT * 0.5;
}
else {
toggleConnectionLabel(cxn, !isInput || collapseConnections || !!node.hideSlotLabels);
out[0] = node.pos[0] + offset;
if ((_b = node.constructor) === null || _b === void 0 ? void 0 : _b.type.includes("Reroute")) {
out[1] = node.pos[1] + node.size[1] * 0.5;
}
else {
out[1] =
node.pos[1] +
(displaySlot + 0.7) * LiteGraph.NODE_SLOT_HEIGHT +
(node.constructor.slot_start_y || 0);
}
}
}
else if (side === "Right") {
if (node.flags.collapsed) {
var w = node._collapsed_width || LiteGraph.NODE_COLLAPSED_WIDTH;
out[0] = node.pos[0] + w;
out[1] = node.pos[1] - LiteGraph.NODE_TITLE_HEIGHT * 0.5;
}
else {
toggleConnectionLabel(cxn, isInput || collapseConnections || !!node.hideSlotLabels);
out[0] = node.pos[0] + node.size[0] + 1 - offset;
if ((_c = node.constructor) === null || _c === void 0 ? void 0 : _c.type.includes("Reroute")) {
out[1] = node.pos[1] + node.size[1] * 0.5;
}
else {
out[1] =
node.pos[1] +
(displaySlot + 0.7) * LiteGraph.NODE_SLOT_HEIGHT +
(node.constructor.slot_start_y || 0);
}
}
}
else if (side === "Top") {
if (!cxn.has_old_label) {
cxn.has_old_label = true;
cxn.old_label = cxn.label;
cxn.label = " ";
}
out[0] = node.pos[0] + node.size[0] * 0.5;
out[1] = node.pos[1] + offset;
}
else if (side === "Bottom") {
if (!cxn.has_old_label) {
cxn.has_old_label = true;
cxn.old_label = cxn.label;
cxn.label = " ";
}
out[0] = node.pos[0] + node.size[0] * 0.5;
out[1] = node.pos[1] + node.size[1] - offset;
}
return out;
}
function toggleConnectionLabel(cxn, hide = true) {
if (hide) {
if (!cxn.has_old_label) {
cxn.has_old_label = true;
cxn.old_label = cxn.label;
}
cxn.label = " ";
}
else if (!hide && cxn.has_old_label) {
cxn.has_old_label = false;
cxn.label = cxn.old_label;
cxn.old_label = undefined;
}
return cxn;
}
export function addHelpMenuItem(node, content, menuOptions) {
addMenuItemOnExtraMenuOptions(node, {
name: "🛟 Node Help",
callback: (node) => {
if (node.showHelp) {
node.showHelp();
}
else {
new RgthreeHelpDialog(node, content).show();
}
},
}, menuOptions, "Properties Panel");
}
export var PassThroughFollowing;
(function (PassThroughFollowing) {
PassThroughFollowing[PassThroughFollowing["ALL"] = 0] = "ALL";
PassThroughFollowing[PassThroughFollowing["NONE"] = 1] = "NONE";
PassThroughFollowing[PassThroughFollowing["REROUTE_ONLY"] = 2] = "REROUTE_ONLY";
})(PassThroughFollowing || (PassThroughFollowing = {}));
export function shouldPassThrough(node, passThroughFollowing = PassThroughFollowing.ALL) {
var _a;
const type = (_a = node === null || node === void 0 ? void 0 : node.constructor) === null || _a === void 0 ? void 0 : _a.type;
if (!type || passThroughFollowing === PassThroughFollowing.NONE) {
return false;
}
if (passThroughFollowing === PassThroughFollowing.REROUTE_ONLY) {
return type.includes("Reroute");
}
return (type.includes("Reroute") || type.includes("Node Combiner") || type.includes("Node Collector"));
}
function filterOutPassthroughNodes(infos, passThroughFollowing = PassThroughFollowing.ALL) {
return infos.filter((i) => !shouldPassThrough(i.node, passThroughFollowing));
}
export function getConnectedInputNodes(startNode, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL) {
return getConnectedNodesInfo(startNode, IoDirection.INPUT, currentNode, slot, passThroughFollowing).map((n) => n.node);
}
export function getConnectedInputInfosAndFilterPassThroughs(startNode, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL) {
return filterOutPassthroughNodes(getConnectedNodesInfo(startNode, IoDirection.INPUT, currentNode, slot, passThroughFollowing), passThroughFollowing);
}
export function getConnectedInputNodesAndFilterPassThroughs(startNode, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL) {
return getConnectedInputInfosAndFilterPassThroughs(startNode, currentNode, slot, passThroughFollowing).map(n => n.node);
}
export function getConnectedOutputNodes(startNode, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL) {
return getConnectedNodesInfo(startNode, IoDirection.OUTPUT, currentNode, slot, passThroughFollowing).map((n) => n.node);
}
export function getConnectedOutputNodesAndFilterPassThroughs(startNode, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL) {
return filterOutPassthroughNodes(getConnectedNodesInfo(startNode, IoDirection.OUTPUT, currentNode, slot, passThroughFollowing), passThroughFollowing).map(n => n.node);
}
export function getConnectedNodesInfo(startNode, dir = IoDirection.INPUT, currentNode, slot, passThroughFollowing = PassThroughFollowing.ALL, originTravelFromSlot) {
var _a, _b, _c, _d, _e, _f;
currentNode = currentNode || startNode;
let rootNodes = [];
if (startNode === currentNode || shouldPassThrough(currentNode, passThroughFollowing)) {
let linkIds;
slot = slot != null && slot > -1 ? slot : undefined;
if (dir == IoDirection.OUTPUT) {
if (slot != null) {
linkIds = [...(((_b = (_a = currentNode.outputs) === null || _a === void 0 ? void 0 : _a[slot]) === null || _b === void 0 ? void 0 : _b.links) || [])];
}
else {
linkIds = ((_c = currentNode.outputs) === null || _c === void 0 ? void 0 : _c.flatMap((i) => i.links)) || [];
}
}
else {
if (slot != null) {
linkIds = [(_e = (_d = currentNode.inputs) === null || _d === void 0 ? void 0 : _d[slot]) === null || _e === void 0 ? void 0 : _e.link];
}
else {
linkIds = ((_f = currentNode.inputs) === null || _f === void 0 ? void 0 : _f.map((i) => i.link)) || [];
}
}
let graph = app.graph;
for (const linkId of linkIds) {
let link = null;
if (typeof linkId == "number") {
link = graph.links[linkId];
}
if (!link) {
continue;
}
const travelFromSlot = dir == IoDirection.OUTPUT ? link.origin_slot : link.target_slot;
const connectedId = dir == IoDirection.OUTPUT ? link.target_id : link.origin_id;
const travelToSlot = dir == IoDirection.OUTPUT ? link.target_slot : link.origin_slot;
originTravelFromSlot = originTravelFromSlot != null ? originTravelFromSlot : travelFromSlot;
const originNode = graph.getNodeById(connectedId);
if (!link) {
console.error("No connected node found... weird");
continue;
}
if (rootNodes.some((n) => n.node == originNode)) {
console.log(`${startNode.title} (${startNode.id}) seems to have two links to ${originNode.title} (${originNode.id}). One may be stale: ${linkIds.join(", ")}`);
}
else {
rootNodes.push({ node: originNode, travelFromSlot, travelToSlot, originTravelFromSlot });
if (shouldPassThrough(originNode, passThroughFollowing)) {
for (const foundNode of getConnectedNodesInfo(startNode, dir, originNode, undefined, undefined, originTravelFromSlot)) {
if (!rootNodes.map((n) => n.node).includes(foundNode.node)) {
rootNodes.push(foundNode);
}
}
}
}
}
}
return rootNodes;
}
export function followConnectionUntilType(node, dir, slotNum, skipSelf = false) {
const slots = dir === IoDirection.OUTPUT ? node.outputs : node.inputs;
if (!slots || !slots.length) {
return null;
}
let type = null;
if (slotNum) {
if (!slots[slotNum]) {
return null;
}
type = getTypeFromSlot(slots[slotNum], dir, skipSelf);
}
else {
for (const slot of slots) {
type = getTypeFromSlot(slot, dir, skipSelf);
if (type) {
break;
}
}
}
return type;
}
function getTypeFromSlot(slot, dir, skipSelf = false) {
let graph = app.graph;
let type = slot === null || slot === void 0 ? void 0 : slot.type;
if (!skipSelf && type != null && type != "*") {
return { type: type, label: slot === null || slot === void 0 ? void 0 : slot.label, name: slot === null || slot === void 0 ? void 0 : slot.name };
}
const links = getSlotLinks(slot);
for (const link of links) {
const connectedId = dir == IoDirection.OUTPUT ? link.link.target_id : link.link.origin_id;
const connectedSlotNum = dir == IoDirection.OUTPUT ? link.link.target_slot : link.link.origin_slot;
const connectedNode = graph.getNodeById(connectedId);
const connectedSlots = dir === IoDirection.OUTPUT ? connectedNode.inputs : connectedNode.outputs;
let connectedSlot = connectedSlots[connectedSlotNum];
if ((connectedSlot === null || connectedSlot === void 0 ? void 0 : connectedSlot.type) != null && (connectedSlot === null || connectedSlot === void 0 ? void 0 : connectedSlot.type) != "*") {
return {
type: connectedSlot.type,
label: connectedSlot === null || connectedSlot === void 0 ? void 0 : connectedSlot.label,
name: connectedSlot === null || connectedSlot === void 0 ? void 0 : connectedSlot.name,
};
}
else if ((connectedSlot === null || connectedSlot === void 0 ? void 0 : connectedSlot.type) == "*") {
return followConnectionUntilType(connectedNode, dir);
}
}
return null;
}
export async function replaceNode(existingNode, typeOrNewNode, inputNameMap) {
const existingCtor = existingNode.constructor;
const newNode = typeof typeOrNewNode === "string" ? LiteGraph.createNode(typeOrNewNode) : typeOrNewNode;
if (existingNode.title != existingCtor.title) {
newNode.title = existingNode.title;
}
newNode.pos = [...existingNode.pos];
newNode.properties = { ...existingNode.properties };
const oldComputeSize = [...existingNode.computeSize()];
const oldSize = [
existingNode.size[0] === oldComputeSize[0] ? null : existingNode.size[0],
existingNode.size[1] === oldComputeSize[1] ? null : existingNode.size[1],
];
let setSizeIters = 0;
const setSizeFn = () => {
const newComputesize = newNode.computeSize();
newNode.size[0] = Math.max(oldSize[0] || 0, newComputesize[0]);
newNode.size[1] = Math.max(oldSize[1] || 0, newComputesize[1]);
setSizeIters++;
if (setSizeIters > 10) {
requestAnimationFrame(setSizeFn);
}
};
setSizeFn();
const links = [];
for (const [index, output] of existingNode.outputs.entries()) {
for (const linkId of output.links || []) {
const link = app.graph.links[linkId];
if (!link)
continue;
const targetNode = app.graph.getNodeById(link.target_id);
links.push({ node: newNode, slot: output.name, targetNode, targetSlot: link.target_slot });
}
}
for (const [index, input] of existingNode.inputs.entries()) {
const linkId = input.link;
if (linkId) {
const link = app.graph.links[linkId];
const originNode = app.graph.getNodeById(link.origin_id);
links.push({
node: originNode,
slot: link.origin_slot,
targetNode: newNode,
targetSlot: (inputNameMap === null || inputNameMap === void 0 ? void 0 : inputNameMap.has(input.name))
? inputNameMap.get(input.name)
: input.name || index,
});
}
}
app.graph.add(newNode);
await wait();
for (const link of links) {
link.node.connect(link.slot, link.targetNode, link.targetSlot);
}
await wait();
app.graph.remove(existingNode);
newNode.size = newNode.computeSize();
newNode.setDirtyCanvas(true, true);
return newNode;
}
export function getOriginNodeByLink(linkId) {
let node = null;
if (linkId != null) {
const link = app.graph.links[linkId];
node = (link != null && app.graph.getNodeById(link.origin_id)) || null;
}
return node;
}
export function applyMixins(original, constructors) {
constructors.forEach((baseCtor) => {
Object.getOwnPropertyNames(baseCtor.prototype).forEach((name) => {
Object.defineProperty(original.prototype, name, Object.getOwnPropertyDescriptor(baseCtor.prototype, name) || Object.create(null));
});
});
}
export function getSlotLinks(inputOrOutput) {
var _a;
const links = [];
if (!inputOrOutput) {
return links;
}
if ((_a = inputOrOutput.links) === null || _a === void 0 ? void 0 : _a.length) {
const output = inputOrOutput;
for (const linkId of output.links || []) {
const link = app.graph.links[linkId];
if (link) {
links.push({ id: linkId, link: link });
}
}
}
if (inputOrOutput.link) {
const input = inputOrOutput;
const link = app.graph.links[input.link];
if (link) {
links.push({ id: input.link, link: link });
}
}
return links;
}
export async function matchLocalSlotsToServer(node, direction, serverNodeData) {
var _a, _b, _c;
const serverSlotNames = direction == IoDirection.INPUT
? Object.keys(((_a = serverNodeData.input) === null || _a === void 0 ? void 0 : _a.optional) || {})
: serverNodeData.output_name;
const serverSlotTypes = direction == IoDirection.INPUT
? Object.values(((_b = serverNodeData.input) === null || _b === void 0 ? void 0 : _b.optional) || {}).map((i) => i[0])
: serverNodeData.output;
const slots = direction == IoDirection.INPUT ? node.inputs : node.outputs;
let firstIndex = slots.findIndex((o, i) => i !== serverSlotNames.indexOf(o.name));
if (firstIndex > -1) {
const links = {};
slots.map((slot) => {
var _a;
links[slot.name] = links[slot.name] || [];
(_a = links[slot.name]) === null || _a === void 0 ? void 0 : _a.push(...getSlotLinks(slot));
});
for (const [index, serverSlotName] of serverSlotNames.entries()) {
const currentNodeSlot = slots.map((s) => s.name).indexOf(serverSlotName);
if (currentNodeSlot > -1) {
if (currentNodeSlot != index) {
const splicedItem = slots.splice(currentNodeSlot, 1)[0];
slots.splice(index, 0, splicedItem);
}
}
else if (currentNodeSlot === -1) {
const splicedItem = {
name: serverSlotName,
type: serverSlotTypes[index],
links: [],
};
slots.splice(index, 0, splicedItem);
}
}
if (slots.length > serverSlotNames.length) {
for (let i = slots.length - 1; i > serverSlotNames.length - 1; i--) {
if (direction == IoDirection.INPUT) {
node.disconnectInput(i);
node.removeInput(i);
}
else {
node.disconnectOutput(i);
node.removeOutput(i);
}
}
}
for (const [name, slotLinks] of Object.entries(links)) {
let currentNodeSlot = slots.map((s) => s.name).indexOf(name);
if (currentNodeSlot > -1) {
for (const linkData of slotLinks) {
if (direction == IoDirection.INPUT) {
linkData.link.target_slot = currentNodeSlot;
}
else {
linkData.link.origin_slot = currentNodeSlot;
const nextNode = app.graph.getNodeById(linkData.link.target_id);
if (nextNode &&
((_c = nextNode.constructor) === null || _c === void 0 ? void 0 : _c.type.includes("Reroute"))) {
nextNode.stabilize && nextNode.stabilize();
}
}
}
}
}
}
}
export function isValidConnection(ioA, ioB) {
if (!ioA || !ioB) {
return false;
}
const typeA = String(ioA.type);
const typeB = String(ioB.type);
let isValid = LiteGraph.isValidConnection(typeA, typeB);
if (!isValid) {
let areCombos = (typeA.includes(",") && typeB === "COMBO") || (typeA === "COMBO" && typeB.includes(","));
if (areCombos) {
const nameA = ioA.name.toUpperCase().replace("_NAME", "").replace("CKPT", "MODEL");
const nameB = ioB.name.toUpperCase().replace("_NAME", "").replace("CKPT", "MODEL");
isValid = nameA.includes(nameB) || nameB.includes(nameA);
}
}
return isValid;
}
const oldIsValidConnection = LiteGraph.isValidConnection;
LiteGraph.isValidConnection = function (typeA, typeB) {
let isValid = oldIsValidConnection.call(LiteGraph, typeA, typeB);
if (!isValid) {
typeA = String(typeA);
typeB = String(typeB);
let areCombos = (typeA.includes(",") && typeB === "COMBO") || (typeA === "COMBO" && typeB.includes(","));
isValid = areCombos;
}
return isValid;
};
export function getOutputNodes(nodes) {
return ((nodes === null || nodes === void 0 ? void 0 : nodes.filter((n) => {
var _a;
return (n.mode != LiteGraph.NEVER &&
((_a = n.constructor.nodeData) === null || _a === void 0 ? void 0 : _a.output_node));
})) || []);
}