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import { app } from "../../scripts/app.js";
import { RgthreeBaseVirtualNode } from "./base_node.js";
import { rgthree } from "./rgthree.js";
import { PassThroughFollowing, addConnectionLayoutSupport, addMenuItem, getConnectedInputNodes, getConnectedInputNodesAndFilterPassThroughs, getConnectedOutputNodes, getConnectedOutputNodesAndFilterPassThroughs, } from "./utils.js";
export class BaseAnyInputConnectedNode extends RgthreeBaseVirtualNode {
constructor(title = BaseAnyInputConnectedNode.title) {
super(title);
this.isVirtualNode = true;
this.inputsPassThroughFollowing = PassThroughFollowing.NONE;
this.debouncerTempWidth = 0;
this.schedulePromise = null;
}
onConstructed() {
this.addInput("", "*");
return super.onConstructed();
}
scheduleStabilizeWidgets(ms = 100) {
if (!this.schedulePromise) {
this.schedulePromise = new Promise((resolve) => {
setTimeout(() => {
this.schedulePromise = null;
this.doStablization();
resolve();
}, ms);
});
}
return this.schedulePromise;
}
clone() {
const cloned = super.clone();
if (!rgthree.canvasCurrentlyCopyingToClipboardWithMultipleNodes) {
while (cloned.inputs.length > 1) {
cloned.removeInput(cloned.inputs.length - 1);
}
if (cloned.inputs[0]) {
cloned.inputs[0].label = "";
}
}
return cloned;
}
stabilizeInputsOutputs() {
var _a;
const hasEmptyInput = !((_a = this.inputs[this.inputs.length - 1]) === null || _a === void 0 ? void 0 : _a.link);
if (!hasEmptyInput) {
this.addInput("", "*");
}
for (let index = this.inputs.length - 2; index >= 0; index--) {
const input = this.inputs[index];
if (!input.link) {
this.removeInput(index);
}
else {
const node = getConnectedInputNodesAndFilterPassThroughs(this, this, index, this.inputsPassThroughFollowing)[0];
input.name = (node === null || node === void 0 ? void 0 : node.title) || "";
}
}
}
doStablization() {
if (!this.graph) {
return;
}
this._tempWidth = this.size[0];
const linkedNodes = getConnectedInputNodesAndFilterPassThroughs(this);
this.stabilizeInputsOutputs();
this.handleLinkedNodesStabilization(linkedNodes);
app.graph.setDirtyCanvas(true, true);
this.scheduleStabilizeWidgets(500);
}
handleLinkedNodesStabilization(linkedNodes) {
linkedNodes;
throw new Error("handleLinkedNodesStabilization should be overridden.");
}
onConnectionsChainChange() {
this.scheduleStabilizeWidgets();
}
onConnectionsChange(type, index, connected, linkInfo, ioSlot) {
super.onConnectionsChange &&
super.onConnectionsChange(type, index, connected, linkInfo, ioSlot);
if (!linkInfo)
return;
const connectedNodes = getConnectedOutputNodesAndFilterPassThroughs(this);
for (const node of connectedNodes) {
if (node.onConnectionsChainChange) {
node.onConnectionsChainChange();
}
}
this.scheduleStabilizeWidgets();
}
removeInput(slot) {
this._tempWidth = this.size[0];
return super.removeInput(slot);
}
addInput(name, type, extra_info) {
this._tempWidth = this.size[0];
return super.addInput(name, type, extra_info);
}
addWidget(type, name, value, callback, options) {
this._tempWidth = this.size[0];
return super.addWidget(type, name, value, callback, options);
}
removeWidget(widgetOrSlot) {
this._tempWidth = this.size[0];
super.removeWidget(widgetOrSlot);
}
computeSize(out) {
var _a, _b;
let size = super.computeSize(out);
if (this._tempWidth) {
size[0] = this._tempWidth;
this.debouncerTempWidth && clearTimeout(this.debouncerTempWidth);
this.debouncerTempWidth = setTimeout(() => {
this._tempWidth = null;
}, 32);
}
if (this.properties["collapse_connections"]) {
const rows = Math.max(((_a = this.inputs) === null || _a === void 0 ? void 0 : _a.length) || 0, ((_b = this.outputs) === null || _b === void 0 ? void 0 : _b.length) || 0, 1) - 1;
size[1] = size[1] - rows * LiteGraph.NODE_SLOT_HEIGHT;
}
setTimeout(() => {
app.graph.setDirtyCanvas(true, true);
}, 16);
return size;
}
onConnectOutput(outputIndex, inputType, inputSlot, inputNode, inputIndex) {
let canConnect = true;
if (super.onConnectOutput) {
canConnect = super.onConnectOutput(outputIndex, inputType, inputSlot, inputNode, inputIndex);
}
if (canConnect) {
const nodes = getConnectedInputNodes(this);
if (nodes.includes(inputNode)) {
alert(`Whoa, whoa, whoa. You've just tried to create a connection that loops back on itself, ` +
`a situation that could create a time paradox, the results of which could cause a ` +
`chain reaction that would unravel the very fabric of the space time continuum, ` +
`and destroy the entire universe!`);
canConnect = false;
}
}
return canConnect;
}
onConnectInput(inputIndex, outputType, outputSlot, outputNode, outputIndex) {
let canConnect = true;
if (super.onConnectInput) {
canConnect = super.onConnectInput(inputIndex, outputType, outputSlot, outputNode, outputIndex);
}
if (canConnect) {
const nodes = getConnectedOutputNodes(this);
if (nodes.includes(outputNode)) {
alert(`Whoa, whoa, whoa. You've just tried to create a connection that loops back on itself, ` +
`a situation that could create a time paradox, the results of which could cause a ` +
`chain reaction that would unravel the very fabric of the space time continuum, ` +
`and destroy the entire universe!`);
canConnect = false;
}
}
return canConnect;
}
connectByTypeOutput(slot, sourceNode, sourceSlotType, optsIn) {
const lastInput = this.inputs[this.inputs.length - 1];
if (!(lastInput === null || lastInput === void 0 ? void 0 : lastInput.link) && (lastInput === null || lastInput === void 0 ? void 0 : lastInput.type) === "*") {
var sourceSlot = sourceNode.findOutputSlotByType(sourceSlotType, false, true);
return sourceNode.connect(sourceSlot, this, slot);
}
return super.connectByTypeOutput(slot, sourceNode, sourceSlotType, optsIn);
}
static setUp() {
super.setUp();
addConnectionLayoutSupport(this, app, [
["Left", "Right"],
["Right", "Left"],
]);
addMenuItem(this, app, {
name: (node) => { var _a; return `${((_a = node.properties) === null || _a === void 0 ? void 0 : _a["collapse_connections"]) ? "Show" : "Collapse"} Connections`; },
property: "collapse_connections",
prepareValue: (_value, node) => { var _a; return !((_a = node.properties) === null || _a === void 0 ? void 0 : _a["collapse_connections"]); },
callback: (_node) => {
app.graph.setDirtyCanvas(true, true);
},
});
}
}
const oldLGraphNodeConnectByType = LGraphNode.prototype.connectByType;
LGraphNode.prototype.connectByType = function connectByType(slot, sourceNode, sourceSlotType, optsIn) {
if (sourceNode.inputs) {
for (const [index, input] of sourceNode.inputs.entries()) {
if (!input.link && input.type === "*") {
this.connect(slot, sourceNode, index);
return null;
}
}
}
return ((oldLGraphNodeConnectByType &&
oldLGraphNodeConnectByType.call(this, slot, sourceNode, sourceSlotType, optsIn)) ||
null);
};
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