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import { app } from "../../scripts/app.js";
import { api } from "../../scripts/api.js";
import { mergeIfValid } from "./widgetInputs.js";
import { ManageGroupDialog } from "./groupNodeManage.js";
const GROUP = Symbol();
const Workflow = {
InUse: {
Free: 0,
Registered: 1,
InWorkflow: 2,
},
isInUseGroupNode(name) {
const id = `workflow/${name}`;
// Check if lready registered/in use in this workflow
if (app.graph.extra?.groupNodes?.[name]) {
if (app.graph._nodes.find((n) => n.type === id)) {
return Workflow.InUse.InWorkflow;
} else {
return Workflow.InUse.Registered;
}
}
return Workflow.InUse.Free;
},
storeGroupNode(name, data) {
let extra = app.graph.extra;
if (!extra) app.graph.extra = extra = {};
let groupNodes = extra.groupNodes;
if (!groupNodes) extra.groupNodes = groupNodes = {};
groupNodes[name] = data;
},
};
class GroupNodeBuilder {
constructor(nodes) {
this.nodes = nodes;
}
build() {
const name = this.getName();
if (!name) return;
// Sort the nodes so they are in execution order
// this allows for widgets to be in the correct order when reconstructing
this.sortNodes();
this.nodeData = this.getNodeData();
Workflow.storeGroupNode(name, this.nodeData);
return { name, nodeData: this.nodeData };
}
getName() {
const name = prompt("Enter group name");
if (!name) return;
const used = Workflow.isInUseGroupNode(name);
switch (used) {
case Workflow.InUse.InWorkflow:
alert(
"An in use group node with this name already exists embedded in this workflow, please remove any instances or use a new name."
);
return;
case Workflow.InUse.Registered:
if (!confirm("A group node with this name already exists embedded in this workflow, are you sure you want to overwrite it?")) {
return;
}
break;
}
return name;
}
sortNodes() {
// Gets the builders nodes in graph execution order
const nodesInOrder = app.graph.computeExecutionOrder(false);
this.nodes = this.nodes
.map((node) => ({ index: nodesInOrder.indexOf(node), node }))
.sort((a, b) => a.index - b.index || a.node.id - b.node.id)
.map(({ node }) => node);
}
getNodeData() {
const storeLinkTypes = (config) => {
// Store link types for dynamically typed nodes e.g. reroutes
for (const link of config.links) {
const origin = app.graph.getNodeById(link[4]);
const type = origin.outputs[link[1]].type;
link.push(type);
}
};
const storeExternalLinks = (config) => {
// Store any external links to the group in the config so when rebuilding we add extra slots
config.external = [];
for (let i = 0; i < this.nodes.length; i++) {
const node = this.nodes[i];
if (!node.outputs?.length) continue;
for (let slot = 0; slot < node.outputs.length; slot++) {
let hasExternal = false;
const output = node.outputs[slot];
let type = output.type;
if (!output.links?.length) continue;
for (const l of output.links) {
const link = app.graph.links[l];
if (!link) continue;
if (type === "*") type = link.type;
if (!app.canvas.selected_nodes[link.target_id]) {
hasExternal = true;
break;
}
}
if (hasExternal) {
config.external.push([i, slot, type]);
}
}
}
};
// Use the built in copyToClipboard function to generate the node data we need
const backup = localStorage.getItem("litegrapheditor_clipboard");
try {
app.canvas.copyToClipboard(this.nodes);
const config = JSON.parse(localStorage.getItem("litegrapheditor_clipboard"));
storeLinkTypes(config);
storeExternalLinks(config);
return config;
} finally {
localStorage.setItem("litegrapheditor_clipboard", backup);
}
}
}
export class GroupNodeConfig {
constructor(name, nodeData) {
this.name = name;
this.nodeData = nodeData;
this.getLinks();
this.inputCount = 0;
this.oldToNewOutputMap = {};
this.newToOldOutputMap = {};
this.oldToNewInputMap = {};
this.oldToNewWidgetMap = {};
this.newToOldWidgetMap = {};
this.primitiveDefs = {};
this.widgetToPrimitive = {};
this.primitiveToWidget = {};
this.nodeInputs = {};
this.outputVisibility = [];
}
async registerType(source = "workflow") {
this.nodeDef = {
output: [],
output_name: [],
output_is_list: [],
output_is_hidden: [],
name: source + "/" + this.name,
display_name: this.name,
category: "group nodes" + ("/" + source),
input: { required: {} },
[GROUP]: this,
};
this.inputs = [];
const seenInputs = {};
const seenOutputs = {};
for (let i = 0; i < this.nodeData.nodes.length; i++) {
const node = this.nodeData.nodes[i];
node.index = i;
this.processNode(node, seenInputs, seenOutputs);
}
for (const p of this.#convertedToProcess) {
p();
}
this.#convertedToProcess = null;
await app.registerNodeDef("workflow/" + this.name, this.nodeDef);
}
getLinks() {
this.linksFrom = {};
this.linksTo = {};
this.externalFrom = {};
// Extract links for easy lookup
for (const l of this.nodeData.links) {
const [sourceNodeId, sourceNodeSlot, targetNodeId, targetNodeSlot] = l;
// Skip links outside the copy config
if (sourceNodeId == null) continue;
if (!this.linksFrom[sourceNodeId]) {
this.linksFrom[sourceNodeId] = {};
}
if (!this.linksFrom[sourceNodeId][sourceNodeSlot]) {
this.linksFrom[sourceNodeId][sourceNodeSlot] = [];
}
this.linksFrom[sourceNodeId][sourceNodeSlot].push(l);
if (!this.linksTo[targetNodeId]) {
this.linksTo[targetNodeId] = {};
}
this.linksTo[targetNodeId][targetNodeSlot] = l;
}
if (this.nodeData.external) {
for (const ext of this.nodeData.external) {
if (!this.externalFrom[ext[0]]) {
this.externalFrom[ext[0]] = { [ext[1]]: ext[2] };
} else {
this.externalFrom[ext[0]][ext[1]] = ext[2];
}
}
}
}
processNode(node, seenInputs, seenOutputs) {
const def = this.getNodeDef(node);
if (!def) return;
const inputs = { ...def.input?.required, ...def.input?.optional };
this.inputs.push(this.processNodeInputs(node, seenInputs, inputs));
if (def.output?.length) this.processNodeOutputs(node, seenOutputs, def);
}
getNodeDef(node) {
const def = globalDefs[node.type];
if (def) return def;
const linksFrom = this.linksFrom[node.index];
if (node.type === "PrimitiveNode") {
// Skip as its not linked
if (!linksFrom) return;
let type = linksFrom["0"][0][5];
if (type === "COMBO") {
// Use the array items
const source = node.outputs[0].widget.name;
const fromTypeName = this.nodeData.nodes[linksFrom["0"][0][2]].type;
const fromType = globalDefs[fromTypeName];
const input = fromType.input.required[source] ?? fromType.input.optional[source];
type = input[0];
}
const def = (this.primitiveDefs[node.index] = {
input: {
required: {
value: [type, {}],
},
},
output: [type],
output_name: [],
output_is_list: [],
});
return def;
} else if (node.type === "Reroute") {
const linksTo = this.linksTo[node.index];
if (linksTo && linksFrom && !this.externalFrom[node.index]?.[0]) {
// Being used internally
return null;
}
let config = {};
let rerouteType = "*";
if (linksFrom) {
for (const [, , id, slot] of linksFrom["0"]) {
const node = this.nodeData.nodes[id];
const input = node.inputs[slot];
if (rerouteType === "*") {
rerouteType = input.type;
}
if (input.widget) {
const targetDef = globalDefs[node.type];
const targetWidget = targetDef.input.required[input.widget.name] ?? targetDef.input.optional[input.widget.name];
const widget = [targetWidget[0], config];
const res = mergeIfValid(
{
widget,
},
targetWidget,
false,
null,
widget
);
config = res?.customConfig ?? config;
}
}
} else if (linksTo) {
const [id, slot] = linksTo["0"];
rerouteType = this.nodeData.nodes[id].outputs[slot].type;
} else {
// Reroute used as a pipe
for (const l of this.nodeData.links) {
if (l[2] === node.index) {
rerouteType = l[5];
break;
}
}
if (rerouteType === "*") {
// Check for an external link
const t = this.externalFrom[node.index]?.[0];
if (t) {
rerouteType = t;
}
}
}
config.forceInput = true;
return {
input: {
required: {
[rerouteType]: [rerouteType, config],
},
},
output: [rerouteType],
output_name: [],
output_is_list: [],
};
}
console.warn("Skipping virtual node " + node.type + " when building group node " + this.name);
}
getInputConfig(node, inputName, seenInputs, config, extra) {
const customConfig = this.nodeData.config?.[node.index]?.input?.[inputName];
let name = customConfig?.name ?? node.inputs?.find((inp) => inp.name === inputName)?.label ?? inputName;
let key = name;
let prefix = "";
// Special handling for primitive to include the title if it is set rather than just "value"
if ((node.type === "PrimitiveNode" && node.title) || name in seenInputs) {
prefix = `${node.title ?? node.type} `;
key = name = `${prefix}${inputName}`;
if (name in seenInputs) {
name = `${prefix}${seenInputs[name]} ${inputName}`;
}
}
seenInputs[key] = (seenInputs[key] ?? 1) + 1;
if (inputName === "seed" || inputName === "noise_seed") {
if (!extra) extra = {};
extra.control_after_generate = `${prefix}control_after_generate`;
}
if (config[0] === "IMAGEUPLOAD") {
if (!extra) extra = {};
extra.widget = this.oldToNewWidgetMap[node.index]?.[config[1]?.widget ?? "image"] ?? "image";
}
if (extra) {
config = [config[0], { ...config[1], ...extra }];
}
return { name, config, customConfig };
}
processWidgetInputs(inputs, node, inputNames, seenInputs) {
const slots = [];
const converted = new Map();
const widgetMap = (this.oldToNewWidgetMap[node.index] = {});
for (const inputName of inputNames) {
let widgetType = app.getWidgetType(inputs[inputName], inputName);
if (widgetType) {
const convertedIndex = node.inputs?.findIndex((inp) => inp.name === inputName && inp.widget?.name === inputName);
if (convertedIndex > -1) {
// This widget has been converted to a widget
// We need to store this in the correct position so link ids line up
converted.set(convertedIndex, inputName);
widgetMap[inputName] = null;
} else {
// Normal widget
const { name, config } = this.getInputConfig(node, inputName, seenInputs, inputs[inputName]);
this.nodeDef.input.required[name] = config;
widgetMap[inputName] = name;
this.newToOldWidgetMap[name] = { node, inputName };
}
} else {
// Normal input
slots.push(inputName);
}
}
return { converted, slots };
}
checkPrimitiveConnection(link, inputName, inputs) {
const sourceNode = this.nodeData.nodes[link[0]];
if (sourceNode.type === "PrimitiveNode") {
// Merge link configurations
const [sourceNodeId, _, targetNodeId, __] = link;
const primitiveDef = this.primitiveDefs[sourceNodeId];
const targetWidget = inputs[inputName];
const primitiveConfig = primitiveDef.input.required.value;
const output = { widget: primitiveConfig };
const config = mergeIfValid(output, targetWidget, false, null, primitiveConfig);
primitiveConfig[1] = config?.customConfig ?? inputs[inputName][1] ? { ...inputs[inputName][1] } : {};
let name = this.oldToNewWidgetMap[sourceNodeId]["value"];
name = name.substr(0, name.length - 6);
primitiveConfig[1].control_after_generate = true;
primitiveConfig[1].control_prefix = name;
let toPrimitive = this.widgetToPrimitive[targetNodeId];
if (!toPrimitive) {
toPrimitive = this.widgetToPrimitive[targetNodeId] = {};
}
if (toPrimitive[inputName]) {
toPrimitive[inputName].push(sourceNodeId);
}
toPrimitive[inputName] = sourceNodeId;
let toWidget = this.primitiveToWidget[sourceNodeId];
if (!toWidget) {
toWidget = this.primitiveToWidget[sourceNodeId] = [];
}
toWidget.push({ nodeId: targetNodeId, inputName });
}
}
processInputSlots(inputs, node, slots, linksTo, inputMap, seenInputs) {
this.nodeInputs[node.index] = {};
for (let i = 0; i < slots.length; i++) {
const inputName = slots[i];
if (linksTo[i]) {
this.checkPrimitiveConnection(linksTo[i], inputName, inputs);
// This input is linked so we can skip it
continue;
}
const { name, config, customConfig } = this.getInputConfig(node, inputName, seenInputs, inputs[inputName]);
this.nodeInputs[node.index][inputName] = name;
if(customConfig?.visible === false) continue;
this.nodeDef.input.required[name] = config;
inputMap[i] = this.inputCount++;
}
}
processConvertedWidgets(inputs, node, slots, converted, linksTo, inputMap, seenInputs) {
// Add converted widgets sorted into their index order (ordered as they were converted) so link ids match up
const convertedSlots = [...converted.keys()].sort().map((k) => converted.get(k));
for (let i = 0; i < convertedSlots.length; i++) {
const inputName = convertedSlots[i];
if (linksTo[slots.length + i]) {
this.checkPrimitiveConnection(linksTo[slots.length + i], inputName, inputs);
// This input is linked so we can skip it
continue;
}
const { name, config } = this.getInputConfig(node, inputName, seenInputs, inputs[inputName], {
defaultInput: true,
});
this.nodeDef.input.required[name] = config;
this.newToOldWidgetMap[name] = { node, inputName };
if (!this.oldToNewWidgetMap[node.index]) {
this.oldToNewWidgetMap[node.index] = {};
}
this.oldToNewWidgetMap[node.index][inputName] = name;
inputMap[slots.length + i] = this.inputCount++;
}
}
#convertedToProcess = [];
processNodeInputs(node, seenInputs, inputs) {
const inputMapping = [];
const inputNames = Object.keys(inputs);
if (!inputNames.length) return;
const { converted, slots } = this.processWidgetInputs(inputs, node, inputNames, seenInputs);
const linksTo = this.linksTo[node.index] ?? {};
const inputMap = (this.oldToNewInputMap[node.index] = {});
this.processInputSlots(inputs, node, slots, linksTo, inputMap, seenInputs);
// Converted inputs have to be processed after all other nodes as they'll be at the end of the list
this.#convertedToProcess.push(() => this.processConvertedWidgets(inputs, node, slots, converted, linksTo, inputMap, seenInputs));
return inputMapping;
}
processNodeOutputs(node, seenOutputs, def) {
const oldToNew = (this.oldToNewOutputMap[node.index] = {});
// Add outputs
for (let outputId = 0; outputId < def.output.length; outputId++) {
const linksFrom = this.linksFrom[node.index];
// If this output is linked internally we flag it to hide
const hasLink = linksFrom?.[outputId] && !this.externalFrom[node.index]?.[outputId];
const customConfig = this.nodeData.config?.[node.index]?.output?.[outputId];
const visible = customConfig?.visible ?? !hasLink;
this.outputVisibility.push(visible);
if (!visible) {
continue;
}
oldToNew[outputId] = this.nodeDef.output.length;
this.newToOldOutputMap[this.nodeDef.output.length] = { node, slot: outputId };
this.nodeDef.output.push(def.output[outputId]);
this.nodeDef.output_is_list.push(def.output_is_list[outputId]);
let label = customConfig?.name;
if (!label) {
label = def.output_name?.[outputId] ?? def.output[outputId];
const output = node.outputs.find((o) => o.name === label);
if (output?.label) {
label = output.label;
}
}
let name = label;
if (name in seenOutputs) {
const prefix = `${node.title ?? node.type} `;
name = `${prefix}${label}`;
if (name in seenOutputs) {
name = `${prefix}${node.index} ${label}`;
}
}
seenOutputs[name] = 1;
this.nodeDef.output_name.push(name);
}
}
static async registerFromWorkflow(groupNodes, missingNodeTypes) {
const clean = app.clean;
app.clean = function () {
for (const g in groupNodes) {
try {
LiteGraph.unregisterNodeType("workflow/" + g);
} catch (error) {}
}
app.clean = clean;
};
for (const g in groupNodes) {
const groupData = groupNodes[g];
let hasMissing = false;
for (const n of groupData.nodes) {
// Find missing node types
if (!(n.type in LiteGraph.registered_node_types)) {
missingNodeTypes.push({
type: n.type,
hint: ` (In group node 'workflow/${g}')`,
});
missingNodeTypes.push({
type: "workflow/" + g,
action: {
text: "Remove from workflow",
callback: (e) => {
delete groupNodes[g];
e.target.textContent = "Removed";
e.target.style.pointerEvents = "none";
e.target.style.opacity = 0.7;
},
},
});
hasMissing = true;
}
}
if (hasMissing) continue;
const config = new GroupNodeConfig(g, groupData);
await config.registerType();
}
}
}
export class GroupNodeHandler {
node;
groupData;
constructor(node) {
this.node = node;
this.groupData = node.constructor?.nodeData?.[GROUP];
this.node.setInnerNodes = (innerNodes) => {
this.innerNodes = innerNodes;
for (let innerNodeIndex = 0; innerNodeIndex < this.innerNodes.length; innerNodeIndex++) {
const innerNode = this.innerNodes[innerNodeIndex];
for (const w of innerNode.widgets ?? []) {
if (w.type === "converted-widget") {
w.serializeValue = w.origSerializeValue;
}
}
innerNode.index = innerNodeIndex;
innerNode.getInputNode = (slot) => {
// Check if this input is internal or external
const externalSlot = this.groupData.oldToNewInputMap[innerNode.index]?.[slot];
if (externalSlot != null) {
return this.node.getInputNode(externalSlot);
}
// Internal link
const innerLink = this.groupData.linksTo[innerNode.index]?.[slot];
if (!innerLink) return null;
const inputNode = innerNodes[innerLink[0]];
// Primitives will already apply their values
if (inputNode.type === "PrimitiveNode") return null;
return inputNode;
};
innerNode.getInputLink = (slot) => {
const externalSlot = this.groupData.oldToNewInputMap[innerNode.index]?.[slot];
if (externalSlot != null) {
// The inner node is connected via the group node inputs
const linkId = this.node.inputs[externalSlot].link;
let link = app.graph.links[linkId];
// Use the outer link, but update the target to the inner node
link = {
...link,
target_id: innerNode.id,
target_slot: +slot,
};
return link;
}
let link = this.groupData.linksTo[innerNode.index]?.[slot];
if (!link) return null;
// Use the inner link, but update the origin node to be inner node id
link = {
origin_id: innerNodes[link[0]].id,
origin_slot: link[1],
target_id: innerNode.id,
target_slot: +slot,
};
return link;
};
}
};
this.node.updateLink = (link) => {
// Replace the group node reference with the internal node
link = { ...link };
const output = this.groupData.newToOldOutputMap[link.origin_slot];
let innerNode = this.innerNodes[output.node.index];
let l;
while (innerNode?.type === "Reroute") {
l = innerNode.getInputLink(0);
innerNode = innerNode.getInputNode(0);
}
if (!innerNode) {
return null;
}
if (l && GroupNodeHandler.isGroupNode(innerNode)) {
return innerNode.updateLink(l);
}
link.origin_id = innerNode.id;
link.origin_slot = l?.origin_slot ?? output.slot;
return link;
};
this.node.getInnerNodes = () => {
if (!this.innerNodes) {
this.node.setInnerNodes(
this.groupData.nodeData.nodes.map((n, i) => {
const innerNode = LiteGraph.createNode(n.type);
innerNode.configure(n);
innerNode.id = `${this.node.id}:${i}`;
return innerNode;
})
);
}
this.updateInnerWidgets();
return this.innerNodes;
};
this.node.recreate = async () => {
const id = this.node.id;
const sz = this.node.size;
const nodes = this.node.convertToNodes();
const groupNode = LiteGraph.createNode(this.node.type);
groupNode.id = id;
// Reuse the existing nodes for this instance
groupNode.setInnerNodes(nodes);
groupNode[GROUP].populateWidgets();
app.graph.add(groupNode);
groupNode.size = [Math.max(groupNode.size[0], sz[0]), Math.max(groupNode.size[1], sz[1])];
// Remove all converted nodes and relink them
groupNode[GROUP].replaceNodes(nodes);
return groupNode;
};
this.node.convertToNodes = () => {
const addInnerNodes = () => {
const backup = localStorage.getItem("litegrapheditor_clipboard");
// Clone the node data so we dont mutate it for other nodes
const c = { ...this.groupData.nodeData };
c.nodes = [...c.nodes];
const innerNodes = this.node.getInnerNodes();
let ids = [];
for (let i = 0; i < c.nodes.length; i++) {
let id = innerNodes?.[i]?.id;
// Use existing IDs if they are set on the inner nodes
if (id == null || isNaN(id)) {
id = undefined;
} else {
ids.push(id);
}
c.nodes[i] = { ...c.nodes[i], id };
}
localStorage.setItem("litegrapheditor_clipboard", JSON.stringify(c));
app.canvas.pasteFromClipboard();
localStorage.setItem("litegrapheditor_clipboard", backup);
const [x, y] = this.node.pos;
let top;
let left;
// Configure nodes with current widget data
const selectedIds = ids.length ? ids : Object.keys(app.canvas.selected_nodes);
const newNodes = [];
for (let i = 0; i < selectedIds.length; i++) {
const id = selectedIds[i];
const newNode = app.graph.getNodeById(id);
const innerNode = innerNodes[i];
newNodes.push(newNode);
if (left == null || newNode.pos[0] < left) {
left = newNode.pos[0];
}
if (top == null || newNode.pos[1] < top) {
top = newNode.pos[1];
}
if (!newNode.widgets) continue;
const map = this.groupData.oldToNewWidgetMap[innerNode.index];
if (map) {
const widgets = Object.keys(map);
for (const oldName of widgets) {
const newName = map[oldName];
if (!newName) continue;
const widgetIndex = this.node.widgets.findIndex((w) => w.name === newName);
if (widgetIndex === -1) continue;
// Populate the main and any linked widgets
if (innerNode.type === "PrimitiveNode") {
for (let i = 0; i < newNode.widgets.length; i++) {
newNode.widgets[i].value = this.node.widgets[widgetIndex + i].value;
}
} else {
const outerWidget = this.node.widgets[widgetIndex];
const newWidget = newNode.widgets.find((w) => w.name === oldName);
if (!newWidget) continue;
newWidget.value = outerWidget.value;
for (let w = 0; w < outerWidget.linkedWidgets?.length; w++) {
newWidget.linkedWidgets[w].value = outerWidget.linkedWidgets[w].value;
}
}
}
}
}
// Shift each node
for (const newNode of newNodes) {
newNode.pos = [newNode.pos[0] - (left - x), newNode.pos[1] - (top - y)];
}
return { newNodes, selectedIds };
};
const reconnectInputs = (selectedIds) => {
for (const innerNodeIndex in this.groupData.oldToNewInputMap) {
const id = selectedIds[innerNodeIndex];
const newNode = app.graph.getNodeById(id);
const map = this.groupData.oldToNewInputMap[innerNodeIndex];
for (const innerInputId in map) {
const groupSlotId = map[innerInputId];
if (groupSlotId == null) continue;
const slot = node.inputs[groupSlotId];
if (slot.link == null) continue;
const link = app.graph.links[slot.link];
if (!link) continue;
// connect this node output to the input of another node
const originNode = app.graph.getNodeById(link.origin_id);
originNode.connect(link.origin_slot, newNode, +innerInputId);
}
}
};
const reconnectOutputs = (selectedIds) => {
for (let groupOutputId = 0; groupOutputId < node.outputs?.length; groupOutputId++) {
const output = node.outputs[groupOutputId];
if (!output.links) continue;
const links = [...output.links];
for (const l of links) {
const slot = this.groupData.newToOldOutputMap[groupOutputId];
const link = app.graph.links[l];
const targetNode = app.graph.getNodeById(link.target_id);
const newNode = app.graph.getNodeById(selectedIds[slot.node.index]);
newNode.connect(slot.slot, targetNode, link.target_slot);
}
}
};
const { newNodes, selectedIds } = addInnerNodes();
reconnectInputs(selectedIds);
reconnectOutputs(selectedIds);
app.graph.remove(this.node);
return newNodes;
};
const getExtraMenuOptions = this.node.getExtraMenuOptions;
this.node.getExtraMenuOptions = function (_, options) {
getExtraMenuOptions?.apply(this, arguments);
let optionIndex = options.findIndex((o) => o.content === "Outputs");
if (optionIndex === -1) optionIndex = options.length;
else optionIndex++;
options.splice(
optionIndex,
0,
null,
{
content: "Convert to nodes",
callback: () => {
return this.convertToNodes();
},
},
{
content: "Manage Group Node",
callback: () => {
new ManageGroupDialog(app).show(this.type);
},
}
);
};
// Draw custom collapse icon to identity this as a group
const onDrawTitleBox = this.node.onDrawTitleBox;
this.node.onDrawTitleBox = function (ctx, height, size, scale) {
onDrawTitleBox?.apply(this, arguments);
const fill = ctx.fillStyle;
ctx.beginPath();
ctx.rect(11, -height + 11, 2, 2);
ctx.rect(14, -height + 11, 2, 2);
ctx.rect(17, -height + 11, 2, 2);
ctx.rect(11, -height + 14, 2, 2);
ctx.rect(14, -height + 14, 2, 2);
ctx.rect(17, -height + 14, 2, 2);
ctx.rect(11, -height + 17, 2, 2);
ctx.rect(14, -height + 17, 2, 2);
ctx.rect(17, -height + 17, 2, 2);
ctx.fillStyle = this.boxcolor || LiteGraph.NODE_DEFAULT_BOXCOLOR;
ctx.fill();
ctx.fillStyle = fill;
};
// Draw progress label
const onDrawForeground = node.onDrawForeground;
const groupData = this.groupData.nodeData;
node.onDrawForeground = function (ctx) {
const r = onDrawForeground?.apply?.(this, arguments);
if (+app.runningNodeId === this.id && this.runningInternalNodeId !== null) {
const n = groupData.nodes[this.runningInternalNodeId];
if(!n) return;
const message = `Running ${n.title || n.type} (${this.runningInternalNodeId}/${groupData.nodes.length})`;
ctx.save();
ctx.font = "12px sans-serif";
const sz = ctx.measureText(message);
ctx.fillStyle = node.boxcolor || LiteGraph.NODE_DEFAULT_BOXCOLOR;
ctx.beginPath();
ctx.roundRect(0, -LiteGraph.NODE_TITLE_HEIGHT - 20, sz.width + 12, 20, 5);
ctx.fill();
ctx.fillStyle = "#fff";
ctx.fillText(message, 6, -LiteGraph.NODE_TITLE_HEIGHT - 6);
ctx.restore();
}
};
// Flag this node as needing to be reset
const onExecutionStart = this.node.onExecutionStart;
this.node.onExecutionStart = function () {
this.resetExecution = true;
return onExecutionStart?.apply(this, arguments);
};
const self = this;
const onNodeCreated = this.node.onNodeCreated;
this.node.onNodeCreated = function () {
if (!this.widgets) {
return;
}
const config = self.groupData.nodeData.config;
if (config) {
for (const n in config) {
const inputs = config[n]?.input;
for (const w in inputs) {
if (inputs[w].visible !== false) continue;
const widgetName = self.groupData.oldToNewWidgetMap[n][w];
const widget = this.widgets.find((w) => w.name === widgetName);
if (widget) {
widget.type = "hidden";
widget.computeSize = () => [0, -4];
}
}
}
}
return onNodeCreated?.apply(this, arguments);
};
function handleEvent(type, getId, getEvent) {
const handler = ({ detail }) => {
const id = getId(detail);
if (!id) return;
const node = app.graph.getNodeById(id);
if (node) return;
const innerNodeIndex = this.innerNodes?.findIndex((n) => n.id == id);
if (innerNodeIndex > -1) {
this.node.runningInternalNodeId = innerNodeIndex;
api.dispatchEvent(new CustomEvent(type, { detail: getEvent(detail, this.node.id + "", this.node) }));
}
};
api.addEventListener(type, handler);
return handler;
}
const executing = handleEvent.call(
this,
"executing",
(d) => d,
(d, id, node) => id
);
const executed = handleEvent.call(
this,
"executed",
(d) => d?.node,
(d, id, node) => ({ ...d, node: id, merge: !node.resetExecution })
);
const onRemoved = node.onRemoved;
this.node.onRemoved = function () {
onRemoved?.apply(this, arguments);
api.removeEventListener("executing", executing);
api.removeEventListener("executed", executed);
};
this.node.refreshComboInNode = (defs) => {
// Update combo widget options
for (const widgetName in this.groupData.newToOldWidgetMap) {
const widget = this.node.widgets.find((w) => w.name === widgetName);
if (widget?.type === "combo") {
const old = this.groupData.newToOldWidgetMap[widgetName];
const def = defs[old.node.type];
const input = def?.input?.required?.[old.inputName] ?? def?.input?.optional?.[old.inputName];
if (!input) continue;
widget.options.values = input[0];
if (old.inputName !== "image" && !widget.options.values.includes(widget.value)) {
widget.value = widget.options.values[0];
widget.callback(widget.value);
}
}
}
};
}
updateInnerWidgets() {
for (const newWidgetName in this.groupData.newToOldWidgetMap) {
const newWidget = this.node.widgets.find((w) => w.name === newWidgetName);
if (!newWidget) continue;
const newValue = newWidget.value;
const old = this.groupData.newToOldWidgetMap[newWidgetName];
let innerNode = this.innerNodes[old.node.index];
if (innerNode.type === "PrimitiveNode") {
innerNode.primitiveValue = newValue;
const primitiveLinked = this.groupData.primitiveToWidget[old.node.index];
for (const linked of primitiveLinked ?? []) {
const node = this.innerNodes[linked.nodeId];
const widget = node.widgets.find((w) => w.name === linked.inputName);
if (widget) {
widget.value = newValue;
}
}
continue;
} else if (innerNode.type === "Reroute") {
const rerouteLinks = this.groupData.linksFrom[old.node.index];
if (rerouteLinks) {
for (const [_, , targetNodeId, targetSlot] of rerouteLinks["0"]) {
const node = this.innerNodes[targetNodeId];
const input = node.inputs[targetSlot];
if (input.widget) {
const widget = node.widgets?.find((w) => w.name === input.widget.name);
if (widget) {
widget.value = newValue;
}
}
}
}
}
const widget = innerNode.widgets?.find((w) => w.name === old.inputName);
if (widget) {
widget.value = newValue;
}
}
}
populatePrimitive(node, nodeId, oldName, i, linkedShift) {
// Converted widget, populate primitive if linked
const primitiveId = this.groupData.widgetToPrimitive[nodeId]?.[oldName];
if (primitiveId == null) return;
const targetWidgetName = this.groupData.oldToNewWidgetMap[primitiveId]["value"];
const targetWidgetIndex = this.node.widgets.findIndex((w) => w.name === targetWidgetName);
if (targetWidgetIndex > -1) {
const primitiveNode = this.innerNodes[primitiveId];
let len = primitiveNode.widgets.length;
if (len - 1 !== this.node.widgets[targetWidgetIndex].linkedWidgets?.length) {
// Fallback handling for if some reason the primitive has a different number of widgets
// we dont want to overwrite random widgets, better to leave blank
len = 1;
}
for (let i = 0; i < len; i++) {
this.node.widgets[targetWidgetIndex + i].value = primitiveNode.widgets[i].value;
}
}
return true;
}
populateReroute(node, nodeId, map) {
if (node.type !== "Reroute") return;
const link = this.groupData.linksFrom[nodeId]?.[0]?.[0];
if (!link) return;
const [, , targetNodeId, targetNodeSlot] = link;
const targetNode = this.groupData.nodeData.nodes[targetNodeId];
const inputs = targetNode.inputs;
const targetWidget = inputs?.[targetNodeSlot]?.widget;
if (!targetWidget) return;
const offset = inputs.length - (targetNode.widgets_values?.length ?? 0);
const v = targetNode.widgets_values?.[targetNodeSlot - offset];
if (v == null) return;
const widgetName = Object.values(map)[0];
const widget = this.node.widgets.find((w) => w.name === widgetName);
if (widget) {
widget.value = v;
}
}
populateWidgets() {
if (!this.node.widgets) return;
for (let nodeId = 0; nodeId < this.groupData.nodeData.nodes.length; nodeId++) {
const node = this.groupData.nodeData.nodes[nodeId];
const map = this.groupData.oldToNewWidgetMap[nodeId] ?? {};
const widgets = Object.keys(map);
if (!node.widgets_values?.length) {
// special handling for populating values into reroutes
// this allows primitives connect to them to pick up the correct value
this.populateReroute(node, nodeId, map);
continue;
}
let linkedShift = 0;
for (let i = 0; i < widgets.length; i++) {
const oldName = widgets[i];
const newName = map[oldName];
const widgetIndex = this.node.widgets.findIndex((w) => w.name === newName);
const mainWidget = this.node.widgets[widgetIndex];
if (this.populatePrimitive(node, nodeId, oldName, i, linkedShift) || widgetIndex === -1) {
// Find the inner widget and shift by the number of linked widgets as they will have been removed too
const innerWidget = this.innerNodes[nodeId].widgets?.find((w) => w.name === oldName);
linkedShift += innerWidget?.linkedWidgets?.length ?? 0;
}
if (widgetIndex === -1) {
continue;
}
// Populate the main and any linked widget
mainWidget.value = node.widgets_values[i + linkedShift];
for (let w = 0; w < mainWidget.linkedWidgets?.length; w++) {
this.node.widgets[widgetIndex + w + 1].value = node.widgets_values[i + ++linkedShift];
}
}
}
}
replaceNodes(nodes) {
let top;
let left;
for (let i = 0; i < nodes.length; i++) {
const node = nodes[i];
if (left == null || node.pos[0] < left) {
left = node.pos[0];
}
if (top == null || node.pos[1] < top) {
top = node.pos[1];
}
this.linkOutputs(node, i);
app.graph.remove(node);
}
this.linkInputs();
this.node.pos = [left, top];
}
linkOutputs(originalNode, nodeId) {
if (!originalNode.outputs) return;
for (const output of originalNode.outputs) {
if (!output.links) continue;
// Clone the links as they'll be changed if we reconnect
const links = [...output.links];
for (const l of links) {
const link = app.graph.links[l];
if (!link) continue;
const targetNode = app.graph.getNodeById(link.target_id);
const newSlot = this.groupData.oldToNewOutputMap[nodeId]?.[link.origin_slot];
if (newSlot != null) {
this.node.connect(newSlot, targetNode, link.target_slot);
}
}
}
}
linkInputs() {
for (const link of this.groupData.nodeData.links ?? []) {
const [, originSlot, targetId, targetSlot, actualOriginId] = link;
const originNode = app.graph.getNodeById(actualOriginId);
if (!originNode) continue; // this node is in the group
originNode.connect(originSlot, this.node.id, this.groupData.oldToNewInputMap[targetId][targetSlot]);
}
}
static getGroupData(node) {
return (node.nodeData ?? node.constructor?.nodeData)?.[GROUP];
}
static isGroupNode(node) {
return !!node.constructor?.nodeData?.[GROUP];
}
static async fromNodes(nodes) {
// Process the nodes into the stored workflow group node data
const builder = new GroupNodeBuilder(nodes);
const res = builder.build();
if (!res) return;
const { name, nodeData } = res;
// Convert this data into a LG node definition and register it
const config = new GroupNodeConfig(name, nodeData);
await config.registerType();
const groupNode = LiteGraph.createNode(`workflow/${name}`);
// Reuse the existing nodes for this instance
groupNode.setInnerNodes(builder.nodes);
groupNode[GROUP].populateWidgets();
app.graph.add(groupNode);
// Remove all converted nodes and relink them
groupNode[GROUP].replaceNodes(builder.nodes);
return groupNode;
}
}
function addConvertToGroupOptions() {
function addConvertOption(options, index) {
const selected = Object.values(app.canvas.selected_nodes ?? {});
const disabled = selected.length < 2 || selected.find((n) => GroupNodeHandler.isGroupNode(n));
options.splice(index + 1, null, {
content: `Convert to Group Node`,
disabled,
callback: async () => {
return await GroupNodeHandler.fromNodes(selected);
},
});
}
function addManageOption(options, index) {
const groups = app.graph.extra?.groupNodes;
const disabled = !groups || !Object.keys(groups).length;
options.splice(index + 1, null, {
content: `Manage Group Nodes`,
disabled,
callback: () => {
new ManageGroupDialog(app).show();
},
});
}
// Add to canvas
const getCanvasMenuOptions = LGraphCanvas.prototype.getCanvasMenuOptions;
LGraphCanvas.prototype.getCanvasMenuOptions = function () {
const options = getCanvasMenuOptions.apply(this, arguments);
const index = options.findIndex((o) => o?.content === "Add Group") + 1 || options.length;
addConvertOption(options, index);
addManageOption(options, index + 1);
return options;
};
// Add to nodes
const getNodeMenuOptions = LGraphCanvas.prototype.getNodeMenuOptions;
LGraphCanvas.prototype.getNodeMenuOptions = function (node) {
const options = getNodeMenuOptions.apply(this, arguments);
if (!GroupNodeHandler.isGroupNode(node)) {
const index = options.findIndex((o) => o?.content === "Outputs") + 1 || options.length - 1;
addConvertOption(options, index);
}
return options;
};
}
const id = "Comfy.GroupNode";
let globalDefs;
const ext = {
name: id,
setup() {
addConvertToGroupOptions();
},
async beforeConfigureGraph(graphData, missingNodeTypes) {
const nodes = graphData?.extra?.groupNodes;
if (nodes) {
await GroupNodeConfig.registerFromWorkflow(nodes, missingNodeTypes);
}
},
addCustomNodeDefs(defs) {
// Store this so we can mutate it later with group nodes
globalDefs = defs;
},
nodeCreated(node) {
if (GroupNodeHandler.isGroupNode(node)) {
node[GROUP] = new GroupNodeHandler(node);
}
},
async refreshComboInNodes(defs) {
// Re-register group nodes so new ones are created with the correct options
Object.assign(globalDefs, defs);
const nodes = app.graph.extra?.groupNodes;
if (nodes) {
await GroupNodeConfig.registerFromWorkflow(nodes, {});
}
}
};
app.registerExtension(ext);