// @ts-check import { api } from "./api.js"; import { clone } from "./utils.js"; export class ChangeTracker { static MAX_HISTORY = 50; #app; undo = []; redo = []; activeState = null; isOurLoad = false; /** @type { import("./workflows").ComfyWorkflow | null } */ workflow; ds; nodeOutputs; get app() { return this.#app ?? this.workflow.manager.app; } constructor(workflow) { this.workflow = workflow; } #setApp(app) { this.#app = app; } store() { this.ds = { scale: this.app.canvas.ds.scale, offset: [...this.app.canvas.ds.offset] }; } restore() { if (this.ds) { this.app.canvas.ds.scale = this.ds.scale; this.app.canvas.ds.offset = this.ds.offset; } if (this.nodeOutputs) { this.app.nodeOutputs = this.nodeOutputs; } } checkState() { if (!this.app.graph) return; const currentState = this.app.graph.serialize(); if (!this.activeState) { this.activeState = clone(currentState); return; } if (!ChangeTracker.graphEqual(this.activeState, currentState)) { this.undo.push(this.activeState); if (this.undo.length > ChangeTracker.MAX_HISTORY) { this.undo.shift(); } this.activeState = clone(currentState); this.redo.length = 0; this.workflow.unsaved = true; api.dispatchEvent(new CustomEvent("graphChanged", { detail: this.activeState })); } } async updateState(source, target) { const prevState = source.pop(); if (prevState) { target.push(this.activeState); this.isOurLoad = true; await this.app.loadGraphData(prevState, false, false, this.workflow); this.activeState = prevState; } } async undoRedo(e) { if (e.ctrlKey || e.metaKey) { if (e.key === "y") { this.updateState(this.redo, this.undo); return true; } else if (e.key === "z") { this.updateState(this.undo, this.redo); return true; } } } /** @param { import("./app.js").ComfyApp } app */ static init(app) { const changeTracker = () => app.workflowManager.activeWorkflow?.changeTracker ?? globalTracker; globalTracker.#setApp(app); const loadGraphData = app.loadGraphData; app.loadGraphData = async function () { const v = await loadGraphData.apply(this, arguments); const ct = changeTracker(); if (ct.isOurLoad) { ct.isOurLoad = false; } else { ct.checkState(); } return v; }; let keyIgnored = false; window.addEventListener( "keydown", (e) => { requestAnimationFrame(async () => { let activeEl; // If we are auto queue in change mode then we do want to trigger on inputs if (!app.ui.autoQueueEnabled || app.ui.autoQueueMode === "instant") { activeEl = document.activeElement; if (activeEl?.tagName === "INPUT" || activeEl?.["type"] === "textarea") { // Ignore events on inputs, they have their native history return; } } keyIgnored = e.key === "Control" || e.key === "Shift" || e.key === "Alt" || e.key === "Meta"; if (keyIgnored) return; // Check if this is a ctrl+z ctrl+y if (await changeTracker().undoRedo(e)) return; // If our active element is some type of input then handle changes after they're done if (ChangeTracker.bindInput(activeEl)) return; changeTracker().checkState(); }); }, true ); window.addEventListener("keyup", (e) => { if (keyIgnored) { keyIgnored = false; changeTracker().checkState(); } }); // Handle clicking DOM elements (e.g. widgets) window.addEventListener("mouseup", () => { changeTracker().checkState(); }); // Handle prompt queue event for dynamic widget changes api.addEventListener("promptQueued", () => { changeTracker().checkState(); }); // Handle litegraph clicks const processMouseUp = LGraphCanvas.prototype.processMouseUp; LGraphCanvas.prototype.processMouseUp = function (e) { const v = processMouseUp.apply(this, arguments); changeTracker().checkState(); return v; }; const processMouseDown = LGraphCanvas.prototype.processMouseDown; LGraphCanvas.prototype.processMouseDown = function (e) { const v = processMouseDown.apply(this, arguments); changeTracker().checkState(); return v; }; // Handle litegraph context menu for COMBO widgets const close = LiteGraph.ContextMenu.prototype.close; LiteGraph.ContextMenu.prototype.close = function (e) { const v = close.apply(this, arguments); changeTracker().checkState(); return v; }; // Detects nodes being added via the node search dialog const onNodeAdded = LiteGraph.LGraph.prototype.onNodeAdded; LiteGraph.LGraph.prototype.onNodeAdded = function () { const v = onNodeAdded?.apply(this, arguments); if (!app?.configuringGraph) { const ct = changeTracker(); if (!ct.isOurLoad) { ct.checkState(); } } return v; }; // Store node outputs api.addEventListener("executed", ({ detail }) => { const prompt = app.workflowManager.queuedPrompts[detail.prompt_id]; if (!prompt?.workflow) return; const nodeOutputs = (prompt.workflow.changeTracker.nodeOutputs ??= {}); const output = nodeOutputs[detail.node]; if (detail.merge && output) { for (const k in detail.output ?? {}) { const v = output[k]; if (v instanceof Array) { output[k] = v.concat(detail.output[k]); } else { output[k] = detail.output[k]; } } } else { nodeOutputs[detail.node] = detail.output; } }); } static bindInput(app, activeEl) { if (activeEl && activeEl.tagName !== "CANVAS" && activeEl.tagName !== "BODY") { for (const evt of ["change", "input", "blur"]) { if (`on${evt}` in activeEl) { const listener = () => { app.workflowManager.activeWorkflow.changeTracker.checkState(); activeEl.removeEventListener(evt, listener); }; activeEl.addEventListener(evt, listener); return true; } } } } static graphEqual(a, b, path = "") { if (a === b) return true; if (typeof a == "object" && a && typeof b == "object" && b) { const keys = Object.getOwnPropertyNames(a); if (keys.length != Object.getOwnPropertyNames(b).length) { return false; } for (const key of keys) { let av = a[key]; let bv = b[key]; if (!path && key === "nodes") { // Nodes need to be sorted as the order changes when selecting nodes av = [...av].sort((a, b) => a.id - b.id); bv = [...bv].sort((a, b) => a.id - b.id); } else if (path === "extra.ds") { // Ignore view changes continue; } if (!ChangeTracker.graphEqual(av, bv, path + (path ? "." : "") + key)) { return false; } } return true; } return false; } } const globalTracker = new ChangeTracker({});