320 lines
10 KiB
JavaScript
320 lines
10 KiB
JavaScript
// @ts-check
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/// <reference path="../node_modules/@types/jest/index.d.ts" />
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const { start, makeNodeDef, checkBeforeAndAfterReload, assertNotNullOrUndefined } = require("../utils");
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const lg = require("../utils/litegraph");
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/**
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* @typedef { import("../utils/ezgraph") } Ez
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* @typedef { ReturnType<Ez["Ez"]["graph"]>["ez"] } EzNodeFactory
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*/
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/**
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* @param { EzNodeFactory } ez
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* @param { InstanceType<Ez["EzGraph"]> } graph
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* @param { InstanceType<Ez["EzInput"]> } input
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* @param { string } widgetType
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* @param { boolean } hasControlWidget
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* @returns
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*/
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async function connectPrimitiveAndReload(ez, graph, input, widgetType, hasControlWidget) {
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// Connect to primitive and ensure its still connected after
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let primitive = ez.PrimitiveNode();
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primitive.outputs[0].connectTo(input);
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await checkBeforeAndAfterReload(graph, async () => {
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primitive = graph.find(primitive);
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let { connections } = primitive.outputs[0];
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expect(connections).toHaveLength(1);
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expect(connections[0].targetNode.id).toBe(input.node.node.id);
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// Ensure widget is correct type
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const valueWidget = primitive.widgets.value;
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expect(valueWidget.widget.type).toBe(widgetType);
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// Check if control_after_generate should be added
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if (hasControlWidget) {
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const controlWidget = primitive.widgets.control_after_generate;
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expect(controlWidget.widget.type).toBe("combo");
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}
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// Ensure we dont have other widgets
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expect(primitive.node.widgets).toHaveLength(1 + +!!hasControlWidget);
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});
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return primitive;
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}
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describe("widget inputs", () => {
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beforeEach(() => {
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lg.setup(global);
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});
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afterEach(() => {
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lg.teardown(global);
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});
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[
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{ name: "int", type: "INT", widget: "number", control: true },
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{ name: "float", type: "FLOAT", widget: "number", control: true },
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{ name: "text", type: "STRING" },
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{
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name: "customtext",
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type: "STRING",
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opt: { multiline: true },
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},
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{ name: "toggle", type: "BOOLEAN" },
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{ name: "combo", type: ["a", "b", "c"], control: true },
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].forEach((c) => {
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test(`widget conversion + primitive works on ${c.name}`, async () => {
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const { ez, graph } = await start({
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mockNodeDefs: makeNodeDef("TestNode", { [c.name]: [c.type, c.opt ?? {}] }),
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});
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// Create test node and convert to input
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const n = ez.TestNode();
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const w = n.widgets[c.name];
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w.convertToInput();
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expect(w.isConvertedToInput).toBeTruthy();
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const input = w.getConvertedInput();
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expect(input).toBeTruthy();
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// @ts-ignore : input is valid here
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await connectPrimitiveAndReload(ez, graph, input, c.widget ?? c.name, c.control);
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});
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});
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test("converted widget works after reload", async () => {
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const { ez, graph } = await start();
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let n = ez.CheckpointLoaderSimple();
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const inputCount = n.inputs.length;
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// Convert ckpt name to an input
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n.widgets.ckpt_name.convertToInput();
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expect(n.widgets.ckpt_name.isConvertedToInput).toBeTruthy();
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expect(n.inputs.ckpt_name).toBeTruthy();
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expect(n.inputs.length).toEqual(inputCount + 1);
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// Convert back to widget and ensure input is removed
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n.widgets.ckpt_name.convertToWidget();
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expect(n.widgets.ckpt_name.isConvertedToInput).toBeFalsy();
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expect(n.inputs.ckpt_name).toBeFalsy();
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expect(n.inputs.length).toEqual(inputCount);
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// Convert again and reload the graph to ensure it maintains state
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n.widgets.ckpt_name.convertToInput();
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expect(n.inputs.length).toEqual(inputCount + 1);
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const primitive = await connectPrimitiveAndReload(ez, graph, n.inputs.ckpt_name, "combo", true);
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// Disconnect & reconnect
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primitive.outputs[0].connections[0].disconnect();
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let { connections } = primitive.outputs[0];
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expect(connections).toHaveLength(0);
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primitive.outputs[0].connectTo(n.inputs.ckpt_name);
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({ connections } = primitive.outputs[0]);
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expect(connections).toHaveLength(1);
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expect(connections[0].targetNode.id).toBe(n.node.id);
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// Convert back to widget and ensure input is removed
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n.widgets.ckpt_name.convertToWidget();
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expect(n.widgets.ckpt_name.isConvertedToInput).toBeFalsy();
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expect(n.inputs.ckpt_name).toBeFalsy();
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expect(n.inputs.length).toEqual(inputCount);
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});
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test("converted widget works on clone", async () => {
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const { graph, ez } = await start();
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let n = ez.CheckpointLoaderSimple();
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// Convert the widget to an input
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n.widgets.ckpt_name.convertToInput();
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expect(n.widgets.ckpt_name.isConvertedToInput).toBeTruthy();
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// Clone the node
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n.menu["Clone"].call();
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expect(graph.nodes).toHaveLength(2);
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const clone = graph.nodes[1];
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expect(clone.id).not.toEqual(n.id);
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// Ensure the clone has an input
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expect(clone.widgets.ckpt_name.isConvertedToInput).toBeTruthy();
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expect(clone.inputs.ckpt_name).toBeTruthy();
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// Ensure primitive connects to both nodes
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let primitive = ez.PrimitiveNode();
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primitive.outputs[0].connectTo(n.inputs.ckpt_name);
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primitive.outputs[0].connectTo(clone.inputs.ckpt_name);
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expect(primitive.outputs[0].connections).toHaveLength(2);
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// Convert back to widget and ensure input is removed
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clone.widgets.ckpt_name.convertToWidget();
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expect(clone.widgets.ckpt_name.isConvertedToInput).toBeFalsy();
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expect(clone.inputs.ckpt_name).toBeFalsy();
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});
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test("shows missing node error on custom node with converted input", async () => {
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const { graph } = await start();
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const dialogShow = jest.spyOn(graph.app.ui.dialog, "show");
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await graph.app.loadGraphData({
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last_node_id: 3,
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last_link_id: 4,
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nodes: [
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{
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id: 1,
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type: "TestNode",
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pos: [41.87329101561909, 389.7381480823742],
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size: { 0: 220, 1: 374 },
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flags: {},
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order: 1,
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mode: 0,
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inputs: [{ name: "test", type: "FLOAT", link: 4, widget: { name: "test" }, slot_index: 0 }],
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outputs: [],
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properties: { "Node name for S&R": "TestNode" },
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widgets_values: [1],
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},
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{
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id: 3,
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type: "PrimitiveNode",
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pos: [-312, 433],
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size: { 0: 210, 1: 82 },
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flags: {},
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order: 0,
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mode: 0,
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outputs: [{ links: [4], widget: { name: "test" } }],
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title: "test",
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properties: {},
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},
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],
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links: [[4, 3, 0, 1, 6, "FLOAT"]],
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groups: [],
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config: {},
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extra: {},
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version: 0.4,
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});
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expect(dialogShow).toBeCalledTimes(1);
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expect(dialogShow.mock.calls[0][0]).toContain("the following node types were not found");
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expect(dialogShow.mock.calls[0][0]).toContain("TestNode");
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});
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test("defaultInput widgets can be converted back to inputs", async () => {
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const { graph, ez } = await start({
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mockNodeDefs: makeNodeDef("TestNode", { example: ["INT", { defaultInput: true }] }),
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});
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// Create test node and ensure it starts as an input
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let n = ez.TestNode();
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let w = n.widgets.example;
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expect(w.isConvertedToInput).toBeTruthy();
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let input = w.getConvertedInput();
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expect(input).toBeTruthy();
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// Ensure it can be converted to
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w.convertToWidget();
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expect(w.isConvertedToInput).toBeFalsy();
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expect(n.inputs.length).toEqual(0);
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// and from
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w.convertToInput();
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expect(w.isConvertedToInput).toBeTruthy();
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input = w.getConvertedInput();
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// Reload and ensure it still only has 1 converted widget
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if (!assertNotNullOrUndefined(input)) return;
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await connectPrimitiveAndReload(ez, graph, input, "number", true);
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n = graph.find(n);
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expect(n.widgets).toHaveLength(1);
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w = n.widgets.example;
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expect(w.isConvertedToInput).toBeTruthy();
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// Convert back to widget and ensure it is still a widget after reload
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w.convertToWidget();
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await graph.reload();
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n = graph.find(n);
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expect(n.widgets).toHaveLength(1);
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expect(n.widgets[0].isConvertedToInput).toBeFalsy();
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expect(n.inputs.length).toEqual(0);
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});
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test("forceInput widgets can not be converted back to inputs", async () => {
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const { graph, ez } = await start({
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mockNodeDefs: makeNodeDef("TestNode", { example: ["INT", { forceInput: true }] }),
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});
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// Create test node and ensure it starts as an input
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let n = ez.TestNode();
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let w = n.widgets.example;
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expect(w.isConvertedToInput).toBeTruthy();
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const input = w.getConvertedInput();
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expect(input).toBeTruthy();
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// Convert to widget should error
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expect(() => w.convertToWidget()).toThrow();
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// Reload and ensure it still only has 1 converted widget
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if (assertNotNullOrUndefined(input)) {
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await connectPrimitiveAndReload(ez, graph, input, "number", true);
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n = graph.find(n);
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expect(n.widgets).toHaveLength(1);
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expect(n.widgets.example.isConvertedToInput).toBeTruthy();
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}
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});
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test("primitive can connect to matching combos on converted widgets", async () => {
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const { ez } = await start({
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mockNodeDefs: {
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...makeNodeDef("TestNode1", { example: [["A", "B", "C"], { forceInput: true }] }),
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...makeNodeDef("TestNode2", { example: [["A", "B", "C"], { forceInput: true }] }),
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},
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});
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const n1 = ez.TestNode1();
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const n2 = ez.TestNode2();
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const p = ez.PrimitiveNode();
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p.outputs[0].connectTo(n1.inputs[0]);
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p.outputs[0].connectTo(n2.inputs[0]);
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expect(p.outputs[0].connections).toHaveLength(2);
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const valueWidget = p.widgets.value;
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expect(valueWidget.widget.type).toBe("combo");
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expect(valueWidget.widget.options.values).toEqual(["A", "B", "C"]);
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});
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test("primitive can not connect to non matching combos on converted widgets", async () => {
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const { ez } = await start({
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mockNodeDefs: {
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...makeNodeDef("TestNode1", { example: [["A", "B", "C"], { forceInput: true }] }),
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...makeNodeDef("TestNode2", { example: [["A", "B"], { forceInput: true }] }),
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},
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});
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const n1 = ez.TestNode1();
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const n2 = ez.TestNode2();
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const p = ez.PrimitiveNode();
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p.outputs[0].connectTo(n1.inputs[0]);
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expect(() => p.outputs[0].connectTo(n2.inputs[0])).toThrow();
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expect(p.outputs[0].connections).toHaveLength(1);
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});
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test("combo output can not connect to non matching combos list input", async () => {
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const { ez } = await start({
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mockNodeDefs: {
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...makeNodeDef("TestNode1", {}, [["A", "B"]]),
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...makeNodeDef("TestNode2", { example: [["A", "B"], { forceInput: true}] }),
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...makeNodeDef("TestNode3", { example: [["A", "B", "C"], { forceInput: true}] }),
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},
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});
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const n1 = ez.TestNode1();
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const n2 = ez.TestNode2();
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const n3 = ez.TestNode3();
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n1.outputs[0].connectTo(n2.inputs[0]);
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expect(() => n1.outputs[0].connectTo(n3.inputs[0])).toThrow();
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});
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});
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