The most powerful and modular stable diffusion GUI, api and backend with a graph/nodes interface.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

326 lines
8.6 KiB

import { app, ANIM_PREVIEW_WIDGET } from "./app.js";
const SIZE = Symbol();
function intersect(a, b) {
const x = Math.max(a.x, b.x);
const num1 = Math.min(a.x + a.width, b.x + b.width);
const y = Math.max(a.y, b.y);
const num2 = Math.min(a.y + a.height, b.y + b.height);
if (num1 >= x && num2 >= y) return [x, y, num1 - x, num2 - y];
else return null;
}
function getClipPath(node, element, elRect) {
const selectedNode = Object.values(app.canvas.selected_nodes)[0];
if (selectedNode && selectedNode !== node) {
const MARGIN = 7;
const scale = app.canvas.ds.scale;
const bounding = selectedNode.getBounding();
const intersection = intersect(
{ x: elRect.x / scale, y: elRect.y / scale, width: elRect.width / scale, height: elRect.height / scale },
{
x: selectedNode.pos[0] + app.canvas.ds.offset[0] - MARGIN,
y: selectedNode.pos[1] + app.canvas.ds.offset[1] - LiteGraph.NODE_TITLE_HEIGHT - MARGIN,
width: bounding[2] + MARGIN + MARGIN,
height: bounding[3] + MARGIN + MARGIN,
}
);
if (!intersection) {
return "";
}
const widgetRect = element.getBoundingClientRect();
const clipX = intersection[0] - widgetRect.x / scale + "px";
const clipY = intersection[1] - widgetRect.y / scale + "px";
const clipWidth = intersection[2] + "px";
const clipHeight = intersection[3] + "px";
const path = `polygon(0% 0%, 0% 100%, ${clipX} 100%, ${clipX} ${clipY}, calc(${clipX} + ${clipWidth}) ${clipY}, calc(${clipX} + ${clipWidth}) calc(${clipY} + ${clipHeight}), ${clipX} calc(${clipY} + ${clipHeight}), ${clipX} 100%, 100% 100%, 100% 0%)`;
return path;
}
return "";
}
function computeSize(size) {
Group nodes (#1776) * setup ui unit tests * Refactoring, adding connections * Few tweaks * Fix type * Add general test * Refactored and extended test * move to describe * for groups * wip group nodes * Relink nodes Fixed widget values Convert to nodes * Reconnect on convert back * add via node menu + canvas refactor * Add ws event handling * fix using wrong node on widget serialize * allow reroute pipe fix control_after_generate configure * allow multiple images * Add test for converted widgets on missing nodes + fix crash * tidy * mores tests + refactor * throw earlier to get less confusing error * support outputs * more test * add ci action * use lts node * Fix? * Prevent connecting non matching combos * update * accidently removed npm i * Disable logging extension * fix naming allow control_after_generate custom name allow convert from reroutes * group node tests * Add executing info, custom node icon Tidy * internal reroute just works * Fix crash on virtual nodes e.g. note * Save group nodes to templates * Fix template nodes not being stored * Fix aborting convert * tidy * Fix reconnecting output links on convert to group * Fix links on convert to nodes * Handle missing internal nodes * Trigger callback on text change * Apply value on connect * Fix converted widgets not reconnecting * Group node updates - persist internal ids in current session - copy widget values when converting to nodes - fix issue serializing converted inputs * Resolve issue with sanitized node name * Fix internal id * allow outputs to be used internally and externally * order widgets on group node various fixes * fix imageupload widget requiring a specific name * groupnode imageupload test give widget unique name * Fix issue with external node links * Add VAE model * Fix internal node id check * fix potential crash * wip widget input support * more wip group widget inputs * Group node refactor Support for primitives/converted widgets * Fix convert to nodes with internal reroutes * fix applying primitive * Fix control widget values * fix test
12 months ago
if (this.widgets?.[0]?.last_y == null) return;
let y = this.widgets[0].last_y;
let freeSpace = size[1] - y;
let widgetHeight = 0;
let dom = [];
for (const w of this.widgets) {
if (w.type === "converted-widget") {
// Ignore
delete w.computedHeight;
} else if (w.computeSize) {
widgetHeight += w.computeSize()[1] + 4;
} else if (w.element) {
// Extract DOM widget size info
const styles = getComputedStyle(w.element);
let minHeight = w.options.getMinHeight?.() ?? parseInt(styles.getPropertyValue("--comfy-widget-min-height"));
let maxHeight = w.options.getMaxHeight?.() ?? parseInt(styles.getPropertyValue("--comfy-widget-max-height"));
let prefHeight = w.options.getHeight?.() ?? styles.getPropertyValue("--comfy-widget-height");
if (prefHeight.endsWith?.("%")) {
prefHeight = size[1] * (parseFloat(prefHeight.substring(0, prefHeight.length - 1)) / 100);
} else {
prefHeight = parseInt(prefHeight);
if (isNaN(minHeight)) {
minHeight = prefHeight;
}
}
if (isNaN(minHeight)) {
minHeight = 50;
}
if (!isNaN(maxHeight)) {
if (!isNaN(prefHeight)) {
prefHeight = Math.min(prefHeight, maxHeight);
} else {
prefHeight = maxHeight;
}
}
dom.push({
minHeight,
prefHeight,
w,
});
} else {
widgetHeight += LiteGraph.NODE_WIDGET_HEIGHT + 4;
}
}
freeSpace -= widgetHeight;
// Calculate sizes with all widgets at their min height
const prefGrow = []; // Nodes that want to grow to their prefd size
const canGrow = []; // Nodes that can grow to auto size
let growBy = 0;
for (const d of dom) {
freeSpace -= d.minHeight;
if (isNaN(d.prefHeight)) {
canGrow.push(d);
d.w.computedHeight = d.minHeight;
} else {
const diff = d.prefHeight - d.minHeight;
if (diff > 0) {
prefGrow.push(d);
growBy += diff;
d.diff = diff;
} else {
d.w.computedHeight = d.minHeight;
}
}
}
if (this.imgs && !this.widgets.find((w) => w.name === ANIM_PREVIEW_WIDGET)) {
// Allocate space for image
freeSpace -= 220;
}
this.freeWidgetSpace = freeSpace;
if (freeSpace < 0) {
// Not enough space for all widgets so we need to grow
size[1] -= freeSpace;
this.graph.setDirtyCanvas(true);
} else {
// Share the space between each
const growDiff = freeSpace - growBy;
if (growDiff > 0) {
// All pref sizes can be fulfilled
freeSpace = growDiff;
for (const d of prefGrow) {
d.w.computedHeight = d.prefHeight;
}
} else {
// We need to grow evenly
const shared = -growDiff / prefGrow.length;
for (const d of prefGrow) {
d.w.computedHeight = d.prefHeight - shared;
}
freeSpace = 0;
}
if (freeSpace > 0 && canGrow.length) {
// Grow any that are auto height
const shared = freeSpace / canGrow.length;
for (const d of canGrow) {
d.w.computedHeight += shared;
}
}
}
// Position each of the widgets
for (const w of this.widgets) {
w.y = y;
if (w.computedHeight) {
y += w.computedHeight;
} else if (w.computeSize) {
y += w.computeSize()[1] + 4;
} else {
y += LiteGraph.NODE_WIDGET_HEIGHT + 4;
}
}
}
// Override the compute visible nodes function to allow us to hide/show DOM elements when the node goes offscreen
const elementWidgets = new Set();
const computeVisibleNodes = LGraphCanvas.prototype.computeVisibleNodes;
LGraphCanvas.prototype.computeVisibleNodes = function () {
const visibleNodes = computeVisibleNodes.apply(this, arguments);
for (const node of app.graph._nodes) {
if (elementWidgets.has(node)) {
const hidden = visibleNodes.indexOf(node) === -1;
for (const w of node.widgets) {
if (w.element) {
w.element.hidden = hidden;
w.element.style.display = hidden ? "none" : null;
if (hidden) {
w.options.onHide?.(w);
}
}
}
}
}
return visibleNodes;
};
let enableDomClipping = true;
export function addDomClippingSetting() {
app.ui.settings.addSetting({
id: "Comfy.DOMClippingEnabled",
name: "Enable DOM element clipping (enabling may reduce performance)",
type: "boolean",
defaultValue: enableDomClipping,
onChange(value) {
enableDomClipping = !!value;
},
});
}
LGraphNode.prototype.addDOMWidget = function (name, type, element, options) {
options = { hideOnZoom: true, selectOn: ["focus", "click"], ...options };
if (!element.parentElement) {
document.body.append(element);
}
let mouseDownHandler;
if (element.blur) {
mouseDownHandler = (event) => {
if (!element.contains(event.target)) {
element.blur();
}
};
document.addEventListener("mousedown", mouseDownHandler);
}
const widget = {
type,
name,
get value() {
return options.getValue?.() ?? undefined;
},
set value(v) {
options.setValue?.(v);
widget.callback?.(widget.value);
},
draw: function (ctx, node, widgetWidth, y, widgetHeight) {
if (widget.computedHeight == null) {
computeSize.call(node, node.size);
}
const hidden =
node.flags?.collapsed ||
(!!options.hideOnZoom && app.canvas.ds.scale < 0.5) ||
widget.computedHeight <= 0 ||
widget.type === "converted-widget";
element.hidden = hidden;
element.style.display = hidden ? "none" : null;
if (hidden) {
widget.options.onHide?.(widget);
return;
}
const margin = 10;
const elRect = ctx.canvas.getBoundingClientRect();
const transform = new DOMMatrix()
.scaleSelf(elRect.width / ctx.canvas.width, elRect.height / ctx.canvas.height)
.multiplySelf(ctx.getTransform())
.translateSelf(margin, margin + y);
const scale = new DOMMatrix().scaleSelf(transform.a, transform.d);
Object.assign(element.style, {
transformOrigin: "0 0",
transform: scale,
left: `${transform.a + transform.e}px`,
top: `${transform.d + transform.f}px`,
width: `${widgetWidth - margin * 2}px`,
height: `${(widget.computedHeight ?? 50) - margin * 2}px`,
position: "absolute",
zIndex: app.graph._nodes.indexOf(node),
});
if (enableDomClipping) {
element.style.clipPath = getClipPath(node, element, elRect);
element.style.willChange = "clip-path";
}
this.options.onDraw?.(widget);
},
element,
options,
onRemove() {
if (mouseDownHandler) {
document.removeEventListener("mousedown", mouseDownHandler);
}
element.remove();
},
};
for (const evt of options.selectOn) {
element.addEventListener(evt, () => {
app.canvas.selectNode(this);
app.canvas.bringToFront(this);
});
}
this.addCustomWidget(widget);
elementWidgets.add(this);
const collapse = this.collapse;
this.collapse = function() {
collapse.apply(this, arguments);
if(this.flags?.collapsed) {
element.hidden = true;
element.style.display = "none";
}
}
const onRemoved = this.onRemoved;
this.onRemoved = function () {
element.remove();
elementWidgets.delete(this);
onRemoved?.apply(this, arguments);
};
if (!this[SIZE]) {
this[SIZE] = true;
const onResize = this.onResize;
this.onResize = function (size) {
options.beforeResize?.call(widget, this);
computeSize.call(this, size);
onResize?.apply(this, arguments);
options.afterResize?.call(widget, this);
};
}
return widget;
};