Files
gitmost/apps/client/src/features/ai-chat/components/chat-thread.test.tsx
T
claude code agent 227 baa41d66ad test(infra): coverage-gate + acceptInvitation atomicity int-spec + turn-end unit (#324)
Tail of #244. Three items:

1. Coverage-gate (main). develop had no coverage tooling at all. Added
   @vitest/coverage-v8@4.1.6 (pinned to the vitest already in use) to the three
   vitest packages — git-sync, editor-ext (which also gains its missing direct
   `vitest` devDep), apps/client — and enabled v8 coverage with per-package
   thresholds (no root vitest config exists, so per-package is the only
   meaningful scope). v8 provider is chosen deliberately: istanbul broke on the
   ESM `@docmost/editor-ext` barrel; v8 collects native runtime coverage and
   never re-parses ESM. `enabled: true` wires the gate into the plain `test`
   script, so `pnpm -r test` (the CI entrypoint) enforces it without a manual
   `--coverage`. Thresholds set ~4-5 pts below measured current coverage so the
   gate PASSES today and FAILS on regression (verified: forcing lines=95 on
   editor-ext exits 1). `all: false` — coverage counts test-touched files;
   documented in the configs (with `all: true` the many untested type/barrel
   files would sink the % and make the gate meaningless).
   Measured→threshold (S/B/F/L): git-sync 91.78/79.16/76.76/92.46 → 88/75/72/88;
   editor-ext 58.58/48.1/64.96/58.91 → 54/44/60/54; client 59.93/58/48.47/59.39
   → 55/53/44/55. All exit 0.

2. acceptInvitation atomicity int-spec. New
   apps/server/test/integration/workspace-accept-invitation-atomicity.int-spec.ts
   (+ createDefaultGroup/createInvitation seeders in test/integration/db.ts per
   its convention). Wires the real WorkspaceInvitationService with real
   User/Group/GroupUser repos against the test Kysely, stubbing only the
   post-commit collaborators. Asserts the invariant protected by
   users_email_workspace_id_unique: (a) two CONCURRENT accepts → exactly one
   fulfilled, one BadRequestException('Invitation already accepted'), membership
   count == 1, invitation consumed; (b) repeated sequential accept → still one
   membership; (c) the survivor is in the workspace default group (whole-tx, no
   torn state). Ran against real Postgres+Redis: 3/3 pass.

3. turn-end decision unit test. `decideTurnEnd` does not exist as a symbol; the
   turn-end logic lives in chat-thread.tsx's onFinish handler. Added a focused
   block to the existing chat-thread.test.tsx (matching its hoisted-mock style):
   clean finish → flush queued (continue); abort/disconnect/error → queue
   preserved (end) with the correct notice; parent notified on every terminal
   outcome. 8 passed (3 existing + 5 new).

Verified: git-sync 712, editor-ext 247, client 888 (all with the gate, exit 0);
int-spec 3/3 (real Postgres); tsc --noEmit clean for client + server;
pnpm install --frozen-lockfile consistent (lockfile additive).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-04 12:37:28 +03:00

231 lines
8.2 KiB
TypeScript

import { describe, it, expect, beforeEach, vi } from "vitest";
import { render, screen, fireEvent, act, cleanup } from "@testing-library/react";
import { MantineProvider } from "@mantine/core";
// Shared, hoisted mock state so the @ai-sdk/react and "ai" module mocks (hoisted
// above the imports) can expose the captured useChat callbacks / transport and
// the spies back to the test body.
const h = vi.hoisted(() => ({
state: {
status: "streaming" as string,
onFinish: null as null | ((arg: Record<string, unknown>) => void),
sendMessage: vi.fn(),
stop: vi.fn(),
transport: null as null | {
prepareSendMessagesRequest: (arg: {
messages: unknown[];
body: Record<string, unknown>;
}) => { body: Record<string, unknown> };
},
},
}));
// Mock useChat: capture onFinish, return the spies and the controllable status.
vi.mock("@ai-sdk/react", () => ({
useChat: (opts: { onFinish?: (arg: Record<string, unknown>) => void }) => {
h.state.onFinish = opts.onFinish ?? null;
return {
messages: [],
sendMessage: h.state.sendMessage,
status: h.state.status,
stop: h.state.stop,
error: null,
};
},
}));
// Mock "ai": deterministic ids + a transport that records its options so the test
// can invoke prepareSendMessagesRequest and assert the `interrupted` flag.
vi.mock("ai", () => {
let counter = 0;
return {
generateId: () => `gid-${counter++}`,
DefaultChatTransport: class {
constructor(opts: {
prepareSendMessagesRequest: (arg: {
messages: unknown[];
body: Record<string, unknown>;
}) => { body: Record<string, unknown> };
}) {
h.state.transport = opts;
}
},
};
});
// Stub the heavy children: MessageList (markdown/render) and ChatInput (the
// composer). The ChatInput stub exposes a button that queues a message, the only
// interaction this test needs to populate the queue while "streaming".
vi.mock("@/features/ai-chat/components/message-list.tsx", () => ({
default: () => <div data-testid="message-list" />,
}));
vi.mock("@/features/ai-chat/components/chat-input.tsx", () => ({
default: ({ onQueue }: { onQueue: (text: string) => void }) => (
<button data-testid="queue-btn" onClick={() => onQueue("queued text")}>
queue
</button>
),
}));
import ChatThread from "./chat-thread";
function renderThread() {
const onTurnFinished = vi.fn();
render(
<MantineProvider>
<ChatThread chatId="c1" initialRows={[]} onTurnFinished={onTurnFinished} />
</MantineProvider>,
);
return { onTurnFinished };
}
describe("ChatThread — send now (#198)", () => {
beforeEach(() => {
h.state.status = "streaming";
h.state.onFinish = null;
h.state.sendMessage.mockClear();
h.state.stop.mockClear();
h.state.transport = null;
});
it("aborts the current turn and resends the queued message on the abort", () => {
renderThread();
// Queue a message while the turn is streaming.
fireEvent.click(screen.getByTestId("queue-btn"));
const sendNowBtn = screen.getByLabelText("Send now");
expect(sendNowBtn).toBeTruthy();
// "Send now" interrupts the current turn (stop), but does NOT send yet —
// the resend happens once the abort lands in onFinish.
fireEvent.click(sendNowBtn);
expect(h.state.stop).toHaveBeenCalledTimes(1);
expect(h.state.sendMessage).not.toHaveBeenCalled();
// The abort we triggered reaches onFinish: the promoted head is flushed.
act(() => {
h.state.onFinish?.({
message: { id: "a", role: "assistant", parts: [] },
isAbort: true,
isDisconnect: false,
isError: false,
});
});
expect(h.state.sendMessage).toHaveBeenCalledWith({ text: "queued text" });
});
it("tags exactly the next send as interrupted (one-shot flag)", () => {
renderThread();
fireEvent.click(screen.getByTestId("queue-btn"));
fireEvent.click(screen.getByLabelText("Send now"));
const prep = h.state.transport!.prepareSendMessagesRequest;
// The send right after "send now" carries interrupted: true...
expect(prep({ messages: [], body: {} }).body.interrupted).toBe(true);
// ...and only that one (the flag is read-and-cleared).
expect(prep({ messages: [], body: {} }).body.interrupted).toBe(false);
});
it("sends immediately without an interrupt when not streaming", () => {
h.state.status = "ready";
renderThread();
fireEvent.click(screen.getByTestId("queue-btn"));
fireEvent.click(screen.getByLabelText("Send now"));
// No turn to interrupt: sent straight away, no abort, not flagged.
expect(h.state.stop).not.toHaveBeenCalled();
expect(h.state.sendMessage).toHaveBeenCalledWith({ text: "queued text" });
const prep = h.state.transport!.prepareSendMessagesRequest;
expect(prep({ messages: [], body: {} }).body.interrupted).toBe(false);
});
});
// The turn-end decision lives in the `onFinish` handler: given the terminal
// outcome of a turn (`isAbort` / `isDisconnect` / `isError`, or none = clean),
// it decides whether to CONTINUE (flush the next queued message) or END (leave
// the queue intact for the user), and which stop notice — if any — to show.
// `sendNow` is exercised above; these tests pin down the plain outcomes.
describe("ChatThread — turn-end decision (onFinish)", () => {
beforeEach(() => {
h.state.status = "streaming";
h.state.onFinish = null;
h.state.sendMessage.mockClear();
h.state.stop.mockClear();
h.state.transport = null;
});
// Drive a fresh onFinish with the given terminal flags after queueing a
// message, and report both what the parent was told and whether the queue was
// flushed (a resend to the sendMessage spy).
function finishWith(flags: {
isAbort?: boolean;
isDisconnect?: boolean;
isError?: boolean;
}) {
// Tear down any prior render so the loop-driven "every outcome" case does
// not leave duplicate queue buttons in the DOM.
cleanup();
h.state.sendMessage.mockClear();
const { onTurnFinished } = renderThread();
// Populate the queue while the turn is streaming.
fireEvent.click(screen.getByTestId("queue-btn"));
act(() => {
h.state.onFinish?.({
message: { id: "a", role: "assistant", parts: [] },
isAbort: false,
isDisconnect: false,
isError: false,
...flags,
});
});
return { onTurnFinished };
}
it("CONTINUES — flushes the next queued message on a clean finish", () => {
finishWith({});
// Clean finish (no terminal flag): the queued message is auto-sent.
expect(h.state.sendMessage).toHaveBeenCalledWith({ text: "queued text" });
// A clean finish shows no stop notice.
expect(screen.queryByText("Response stopped.")).toBeNull();
});
it("ENDS — keeps the queue intact on a user abort and shows the stopped notice", () => {
finishWith({ isAbort: true });
// A plain Stop (not the sendNow interrupt path) must NOT auto-resend: the
// queue is preserved for the user to decide.
expect(h.state.sendMessage).not.toHaveBeenCalled();
expect(screen.getByText("Response stopped.")).toBeTruthy();
});
it("ENDS — keeps the queue intact on a disconnect and shows the connection-lost notice", () => {
finishWith({ isDisconnect: true });
expect(h.state.sendMessage).not.toHaveBeenCalled();
expect(
screen.getByText("Connection lost — the answer was interrupted."),
).toBeTruthy();
});
it("ENDS — keeps the queue intact on a stream error (no auto-retry, no stopped notice)", () => {
finishWith({ isError: true });
// Blindly retrying after a failure would be wrong; the queue is left alone.
expect(h.state.sendMessage).not.toHaveBeenCalled();
// isError clears the neutral notice (the error banner covers this case).
expect(screen.queryByText("Response stopped.")).toBeNull();
});
it("notifies the parent on EVERY terminal outcome", () => {
// The chat-list refresh / new-chat id adoption must run on success and on
// every failure path alike.
for (const flags of [
{},
{ isAbort: true },
{ isDisconnect: true },
{ isError: true },
]) {
const { onTurnFinished } = finishWith(flags);
expect(onTurnFinished).toHaveBeenCalled();
}
});
});