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ktx/packages/cli/test/memory-flow-interactive.test.ts
Andrey Avtomonov 56985b7e09
test: split cli tests from source tree (#216) 
* feat(cli): define full warehouse dialect contract

* test(cli): keep dialect edge tests focused

* fix(cli): stabilize dialect contract foundation

* refactor(connectors): own read-only query preparation

* refactor(connectors): resolve dialects through registry

* refactor(connectors): keep concrete dialect classes internal

* chore(workspace): enforce dialect import boundary

* refactor(cli): resolve relationship dialect at scan boundary

* refactor(cli): use dialect display parsing for entity details

* refactor(cli): use dialect display parsing for warehouse catalog

* refactor(cli): use dialect SQL in relationship workflows

* test(cli): verify solid dialect scan workflow closure

* test: split cli tests from source tree

* refactor(cli): standardize BigQuery scope listing

* feat(sqlite): implement connector scope listing

* test(connectors): cover required table listing

* feat(cli): add warehouse driver registry

* refactor(setup): route scope discovery through driver registry

* refactor(cli): route local query execution through driver registry

* refactor(historic-sql): route dialect support through driver registry

* refactor(cli): test warehouse connections through driver registry

* fix(cli): close driver registry type export gaps

* Improve setup daemon diagnostics

* refactor(setup): centralize rail-prefixed diagnostics + query-history fallback

Extract errorMessage, writePrefixedLines, and flushPrefixedBufferedCommandOutput
into clack.ts so the setup wizard, managed daemons, and embedding/agent steps
share one rail-formatted writer. setup-databases.ts also adds a
"disable query history and retry" option when the schema-context build fails
and query history is the likely culprit, surfaced via a new
failed-query-history-unavailable status.

* fix(cli): carry catalog through the picker so BigQuery/Snowflake/SQL Server scope filters match

The setup picker's KtxTableListEntry was a 2-level { schema, name }, so
qualifiedTableId always wrote db.name into enabled_tables. When BigQuery,
Snowflake, or SQL Server later ran fast ingest, their introspect step filtered
the scope set with scopedTableNames(scope, { catalog: projectId|database, db })
— catalog was non-null on the introspect side but null in the scope refs, so
every entry was rejected, the live-database adapter staged zero table files,
and detect() failed with 'Adapter "live-database" did not recognize fetched
source output'.

Align the picker boundary with the canonical 3-level KtxTableRef:

- Add catalog: string | null to KtxTableListEntry.
- BigQuery/Snowflake/SQL Server listTables populate catalog from the
  resolved projectId / database; Postgres/MySQL/ClickHouse/SQLite set null.
- qualifiedTableId emits catalog.schema.name when catalog is non-null
  (resolveEnabledTables already accepts the 3-part shape) and
  schemasFromEnabledTables now goes through parseDottedTableEntry so it
  recovers the schema correctly from both 2-part and 3-part entries.
- Export parseDottedTableEntry from enabled-tables.ts (@internal) for picker
  reuse.

Update listTables expectations in all seven connector tests and the setup /
picker test fixtures. Add a picker regression test that covers the
catalog-bearing round-trip (save + refine).

* fix(cli): allow debug telemetry under opt-out env
2026-05-26 08:49:05 +02:00

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import { EventEmitter } from 'node:events';
import type { MemoryFlowReplayInput } from '../src/context/ingest/memory-flow/types.js';
import { describe, expect, it, vi } from 'vitest';
import { memoryFlowCommandForKey, renderMemoryFlowInteractively } from '../src/memory-flow-interactive.js';
class FakeStdin extends EventEmitter {
isTTY = true;
isRaw = false;
rawModes: boolean[] = [];
resume = vi.fn();
pause = vi.fn();
setRawMode(value: boolean): void {
this.isRaw = value;
this.rawModes.push(value);
}
}
function replay(): MemoryFlowReplayInput {
return {
runId: 'run-1',
connectionId: 'warehouse',
adapter: 'metricflow',
status: 'done',
sourceDir: '/tmp/source',
syncId: 'sync-1',
errors: [],
plannedWorkUnits: [
{
unitKey: 'orders',
rawFiles: ['models/orders.yml'],
peerFileCount: 0,
dependencyCount: 1,
},
{
unitKey: 'customers',
rawFiles: ['models/customers.yml'],
peerFileCount: 0,
dependencyCount: 0,
},
],
details: { actions: [], provenance: [], transcripts: [] },
events: [
{ type: 'source_acquired', adapter: 'metricflow', trigger: 'manual_resync', fileCount: 2 },
{ type: 'scope_detected', fingerprint: null },
{ type: 'raw_snapshot_written', syncId: 'sync-1', rawFileCount: 2 },
{ type: 'diff_computed', added: 1, modified: 1, deleted: 0, unchanged: 0 },
{ type: 'chunks_planned', chunkCount: 2, workUnitCount: 2, evictionCount: 0 },
{ type: 'work_unit_started', unitKey: 'orders', skills: ['wiki_capture'], stepBudget: 4 },
{ type: 'work_unit_finished', unitKey: 'orders', status: 'success' },
{ type: 'work_unit_started', unitKey: 'customers', skills: ['wiki_capture'], stepBudget: 4 },
{ type: 'work_unit_finished', unitKey: 'customers', status: 'failed', reason: 'validation reset' },
{ type: 'reconciliation_finished', conflictCount: 0, fallbackCount: 1 },
{ type: 'saved', commitSha: 'abc12345', wikiCount: 1, slCount: 1 },
{ type: 'provenance_recorded', rowCount: 2 },
{ type: 'report_created', runId: 'run-1', reportPath: 'report-1' },
],
};
}
describe('memoryFlowCommandForKey', () => {
it('maps supported terminal key names to memory-flow commands', () => {
const idleSearch = { editing: false, query: '', matchIndex: 0 };
const editingSearch = { editing: true, query: 'c', matchIndex: 0 };
expect(memoryFlowCommandForKey('', idleSearch, { name: 'left' })).toBe('left');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'right' })).toBe('right');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'up' })).toBe('up');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'down' })).toBe('down');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'return' })).toBe('enter');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'tab' })).toBe('tab');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'f' })).toBe('filter');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'p' })).toBe('provenance');
expect(memoryFlowCommandForKey('', idleSearch, { name: 't' })).toBe('transcript');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'q' })).toBe('quit');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'c', ctrl: true })).toBe('quit');
expect(memoryFlowCommandForKey('/', { editing: false, query: '', matchIndex: 0 }, { name: '/' })).toBe(
'search-start',
);
expect(memoryFlowCommandForKey('c', { editing: true, query: '', matchIndex: 0 }, { name: 'c' })).toEqual({
type: 'search-input',
value: 'c',
});
expect(memoryFlowCommandForKey('', editingSearch, { name: 'backspace' })).toBe('search-backspace');
expect(memoryFlowCommandForKey('', editingSearch, { name: 'return' })).toBe('search-submit');
expect(memoryFlowCommandForKey('', editingSearch, { name: 'escape' })).toBe('search-clear');
expect(memoryFlowCommandForKey('', idleSearch, { name: 'x' })).toBeNull();
});
});
describe('renderMemoryFlowInteractively', () => {
it('repaints on keypress and restores raw mode on quit', async () => {
let stdout = '';
const stdin = new FakeStdin();
const prepareKeypressEvents = vi.fn();
const promise = renderMemoryFlowInteractively(
replay(),
{
stdin,
stdout: {
isTTY: true,
columns: 120,
write: (chunk) => {
stdout += chunk;
},
},
},
{ prepareKeypressEvents },
);
stdin.emit('keypress', '', { name: 'right' });
stdin.emit('keypress', '', { name: 'tab' });
stdin.emit('keypress', '', { name: 'q' });
await expect(promise).resolves.toBeUndefined();
expect(prepareKeypressEvents).toHaveBeenCalledWith(stdin);
expect(stdin.rawModes).toEqual([true, false]);
expect(stdin.resume).toHaveBeenCalledTimes(1);
expect(stdin.pause).toHaveBeenCalledTimes(1);
expect(stdout).toContain('\u001b[2J\u001b[H');
expect(stdout).toContain('[ACTIONS]');
expect(stdout).toContain('Pane: trust');
});
});
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