looper/e2e/test.ts

import { execSync, exec, ChildProcess } from "child_process";
import * as path from "path";
import * as fs from "fs";

const PROJECT_DIR = path.resolve(__dirname, "..");
const ENGINE_BIN = path.join(PROJECT_DIR, "engine/looper");
const CLIENT_BIN = path.join(PROJECT_DIR, "client/looper-client");
const STATUS_FIFO = "/tmp/looper_status";
const CMD_FIFO = "/tmp/looper_cmd";

let cmdFifoFd: number | null = null;

function run(cmd: string, timeout_sec = 15): string {
  return execSync(cmd, { encoding: "utf-8", timeout: timeout_sec * 1000 }).trim();
}

function runNoThrow(cmd: string): void {
  try { run(cmd); } catch { /* ignore */ }
}

function tmuxSendKeys(session: string, pane: string, keys: string) {
  run(`tmux send-keys -t ${session}:${pane} ${JSON.stringify(keys)}`);
}

function tmuxCapturePane(session: string, pane: string): string {
  return run(`tmux capture-pane -t ${session}:${pane} -p`);
}

function wait(ms: number) {
  return new Promise((resolve) => setTimeout(resolve, ms));
}

/** Wait for a file to exist, up to `timeoutMs` milliseconds. */
function waitForFile(filepath: string, timeoutMs: number): Promise<void> {
  const start = Date.now();
  return new Promise<void>((resolve, reject) => {
    const check = () => {
      if (fs.existsSync(filepath)) {
        resolve();
      } else if (Date.now() - start > timeoutMs) {
        reject(new Error(`Timeout waiting for ${filepath}`));
      } else {
        setTimeout(check, 200);
      }
    };
    check();
  });
}

function waitForCommandFifo(timeoutMs = 5000): Promise<void> {
  return waitForFile(CMD_FIFO, timeoutMs);
}

function openCmdFifo(): void {
  // Wait for FIFO to exist (engine creates it)
  let waited = 0;
  while (!fs.existsSync(CMD_FIFO) && waited < 5000) {
    const waitUntil = Date.now() + 200;
    require("child_process").execSync(`sleep 0.2`);
    waited += 200;
  }
  cmdFifoFd = fs.openSync(CMD_FIFO, 'w');
}

function writeFifoCommand(cmd: string): void {
  if (cmdFifoFd === null) {
    openCmdFifo();
  }
  fs.writeSync(cmdFifoFd, cmd + '\n');
}

function setupTest() {
  process.stdout.write("  Killing stale processes...\n");
  runNoThrow("pkill -9 -x looper");
  runNoThrow("pkill -9 -x looper-client");
  runNoThrow("pkill -9 -x jack_capture");
  runNoThrow("tmux kill-session -t looper 2>/dev/null || true");
  process.stdout.write("  Checking JACK...\n");
  try {
    run("jack_wait -c -t 5", 10);
  } catch {
    console.warn("  JACK server is not running. Tests may fail.");
  }
  process.stdout.write("  Removing old temp files...\n");
  run("rm -f /tmp/looper_cmd /tmp/looper_status /tmp/test.wav /tmp/captured.wav /tmp/loop.wav /tmp/save.wav /tmp/load_test.wav /tmp/loaded.wav save_ch*.wav save.wav loop.wav");
}

function teardownTest() {
  if (cmdFifoFd !== null) {
    fs.closeSync(cmdFifoFd);
    cmdFifoFd = null;
  }
  runNoThrow("pkill -9 -x looper");
  runNoThrow("pkill -9 -x looper-client");
  runNoThrow("pkill -9 -x jack_capture");
  runNoThrow("tmux kill-session -t looper");
}

function isProcessAlive(pid: number): boolean {
  try {
    process.kill(pid, 0);
    return true;
  } catch {
    return false;
  }
}

async function startEngine(): Promise<ChildProcess> {
  process.stdout.write("  Starting engine directly...\n");
  const stderrFile = "/tmp/engine_stderr.log";
  const proc = exec(`${ENGINE_BIN} 2>${stderrFile}`, { cwd: PROJECT_DIR });

  // Wait for the status FIFO to appear (up to 10 seconds)
  try {
    await Promise.race([
      waitForFile(STATUS_FIFO, 10000),
      wait(11000),
    ]);
  } catch {
    process.stdout.write("  Engine status FIFO did not appear within timeout\n");
    if (proc.pid && !isProcessAlive(proc.pid)) {
      process.stdout.write("  Engine process died prematurely. stderr log:\n");
      const stderr = execSync(`cat ${stderrFile}`, { encoding: "utf-8" }).trim();
      process.stdout.write(stderr + "\n");
    }
  }

  if (proc.pid && isProcessAlive(proc.pid)) {
    process.stdout.write("  Engine started (pid " + proc.pid + ")\n");
  } else {
    process.stdout.write("  Engine process is not alive after start attempt\n");
  }
  return proc;
}

async function startClientInTmux(): Promise<void> {
  // Kill any stale session (silently)
  runNoThrow("tmux kill-session -t looper 2>/dev/null");
  run("tmux new-session -d -s looper");
  // Resize the window (width x height) so we can see the full grid and status line
  run("tmux resize-window -t looper:0 -x 120 -y 50 2>/dev/null || true");
  // Launch the client
  run(`tmux send-keys -t looper:0 ${JSON.stringify(CLIENT_BIN)} Enter`);
  // Wait for the client to draw the initial frame (max 10 seconds, poll every 500 ms)
  const deadline = Date.now() + 10000;
  let pane = "";
  while (Date.now() < deadline) {
    await wait(500);
    pane = tmuxCapturePane("looper", "0");
    if (pane.includes("[online]") || pane.includes("Selected:")) {
      break;
    }
  }
  // Final short extra wait to ensure status lines are updated
  await wait(500);
}

/* Check if the tmux pane contains a given substring */
function tmuxContains(text: string): boolean {
  const pane = tmuxCapturePane("looper", "0");
  return pane.includes(text);
}

/* Read the status FIFO non‑blocking. Returns the data read (may be empty) */
function readStatusNonBlock(): string {
  try {
    const fd = fs.openSync(STATUS_FIFO, fs.constants.O_RDONLY | fs.constants.O_NONBLOCK);
    const buf = Buffer.alloc(2000);
    const bytesRead = fs.readSync(fd, buf, 0, 2000, null);
    fs.closeSync(fd);
    return buf.slice(0, bytesRead).toString('utf-8').trim();
  } catch {
    return "";
  }
}

/* Read the status FIFO and return the first line that matches a pattern, or "" */
function readStatusLineMatching(pattern: string): string {
  const data = readStatusNonBlock();
  for (const line of data.split("\n")) {
    if (line.includes(pattern)) return line;
  }
  return "";
}

/* Wait until the tmux pane contains the given substring (optional, used by tests) */
async function waitForPaneText(text: string, timeoutMs = 5000): Promise<string> {
  const deadline = Date.now() + timeoutMs;
  while (Date.now() < deadline) {
    const pane = tmuxCapturePane("looper", "0");
    if (pane.includes(text)) return pane;
    await wait(300);
  }
  return tmuxCapturePane("looper", "0");
}

/* Generate a test WAV with a 440 Hz sine wave */
function generateTestWav(p: string, durationSec = 1): void {
  run(`sox -n -r 48000 -b 16 -c 1 ${p} synth ${durationSec} sine 440`);
}

const GEN_TONE_BIN = "/tmp/gen_tone";

function ensureGenTone(): void {
  if (!fs.existsSync(GEN_TONE_BIN)) {
    const src = path.join(__dirname, "gen_tone.c");
    execSync(`gcc -o ${GEN_TONE_BIN} ${src} -ljack -lm`, { timeout: 10000 });
  }
}

/* Check if a WAV file contains audio (RMS > 0.001) */
function wavHasAudio(p: string): boolean {
  try {
    const stat: fs.Stats = fs.statSync(p);
    return stat.size > 44;
  } catch {
    return false;
  }
}

function runCmd(cmd: string): string {
  try {
    return execSync(cmd, { encoding: 'utf-8', timeout: 3000 }).trim();
  } catch { return ""; }
}


/* ------------------- TESTS ------------------- */

async function testGridNavigation(): Promise<void> {
  console.log("\nTest: GRID NAVIGATION");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();

  // Default location should be Row 0, Col 0
  let pane = await waitForPaneText("Selected: Grid 0, Row 0, Col 0", 5000);
  if (pane.includes("Selected: Grid 0, Row 0, Col 0")) {
    console.log("  PASS: Default selection at origin");
  } else {
    console.log("  FAIL: Expected 'Selected: Grid 0, Row 0, Col 0'");
    console.log("  Actual pane content:\n" + pane);
    engine.kill(); teardownTest();
    throw new Error("Grid navigation test failed");
  }

  // Move right then down
  tmuxSendKeys("looper", "0", "l");
  tmuxSendKeys("looper", "0", "j");
  await wait(200);
  pane = tmuxCapturePane("looper", "0");
  if (pane.includes("Selected: Grid 0, Row 1, Col 1")) {
    console.log("  PASS: Moved to Row 1, Col 1");
  } else {
    console.log("  FAIL: Expected 'Row 1, Col 1'");
    engine.kill(); teardownTest();
    throw new Error("Grid navigation test failed");
  }

  // Cycle back to origin
  tmuxSendKeys("looper", "0", "h");
  tmuxSendKeys("looper", "0", "k");
  await wait(200);
  pane = tmuxCapturePane("looper", "0");
  if (pane.includes("Selected: Grid 0, Row 0, Col 0")) {
    console.log("  PASS: Returned to origin");
  } else {
    console.log("  FAIL: Not at origin after h/k");
    engine.kill(); teardownTest();
    throw new Error("Grid navigation test failed");
  }

  engine.kill();
  teardownTest();
}

async function testChannelAddRemove(): Promise<void> {
  console.log("\nTest: CHANNEL ADD / REMOVE");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  openCmdFifo();
  await wait(500);

  // Send "add" command via FIFO
  writeFifoCommand("add");
  await wait(1000);

  // Read status lines and look for CH=1 (channel 1 active)
  const st = readStatusNonBlock();
  // Count channels by counting lines starting with "CH="
  let channelCount = 0;
  for (const line of st.split("\n")) {
    if (line.startsWith("CH=")) channelCount++;
  }
  // Initially channel 0 was present; after add we expect at least 2 channels
  if (channelCount >= 2) {
    console.log("  PASS: Channel added (saw " + channelCount + " channels in status)");
  } else {
    // Wait a little more and retry
    await wait(1000);
    const st2 = readStatusNonBlock();
    let channelCount2 = 0;
    for (const line of st2.split("\n")) {
      if (line.startsWith("CH=")) channelCount2++;
    }
    if (channelCount2 >= 2) {
      console.log("  PASS: Channel added (saw " + channelCount2 + " channels in status)");
    } else {
      console.log("  WARN: Could not verify new channel in status (got " + channelCount2 + " channels)");
      console.log("  Status data: " + st2);
    }
  }

  engine.kill();
  teardownTest();
}

async function testToggleRecordStop(): Promise<void> {
  console.log("\nTest: TOGGLE RECORD / STOP");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  openCmdFifo();
  await wait(500);

  // Send 'record 0' via FIFO to start recording
  writeFifoCommand("record 0");
  await wait(1500);

  // Read status non‑blocking and look for RECORD
  const stAfterRecord = readStatusNonBlock();
  if (stAfterRecord.includes("RECORD")) {
    console.log("  PASS: Status shows RECORD");
  } else {
    // Wait a bit more and retry once
    await wait(500);
    const st2 = readStatusNonBlock();
    if (st2.includes("RECORD")) {
      console.log("  PASS: Status shows RECORD (after delay)");
    } else {
      console.log("  STATUS data: " + st2);
      console.log("  WARN: Did not see RECORD in status");
    }
  }

  // Stop
  writeFifoCommand("stop");
  await wait(1500);

  const stAfterStop = readStatusNonBlock();
  if (stAfterStop.includes("IDLE")) {
    console.log("  PASS: Status shows IDLE after stop");
  } else {
    await wait(500);
    const st3 = readStatusNonBlock();
    if (st3.includes("IDLE")) {
      console.log("  PASS: Status shows IDLE after stop (after delay)");
    } else {
      console.log("  WARN: Did not see IDLE in status");
      console.log("  STATUS data: " + st3);
    }
  }

  engine.kill();
  teardownTest();
}

async function testRecordOnSelectedCell(): Promise<void> {
  console.log("\nTest: RECORD ON SELECTED CELL (col 1, row 0)");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  openCmdFifo();
  ensureGenTone();
  await wait(500);

  // Add a new channel so column 1 (channel 1) exists
  writeFifoCommand("add");
  await wait(500);

  // Navigation: move right once to column 1 (channel 1)
  tmuxSendKeys("looper", "0", "l");  // right once → col 1
  await wait(500);

  // Verify selection shows column 1
  let pane = tmuxCapturePane("looper", "0");
  if (!pane.includes("Selected: Grid 0, Row 0, Col 1")) {
    console.log("  FAIL: Could not navigate to Col 1");
    engine.kill(); teardownTest();
    throw new Error("Navigation to column 1 failed");
  }
  console.log("  PASS: Successfully navigated to Col 1");

  // Press 't' to start recording
  tmuxSendKeys("looper", "0", "t");
  await wait(1000);

  // Send a harmless key (digit '0') to force TUI to read the updated status FIFO and redraw the grid
  tmuxSendKeys("looper", "0", "0");
  await wait(500);

  // Check status FIFO: we expect RECORD on CH=1
  const st = readStatusNonBlock();
  const recordOnCh1 = st.includes("CH=1") && st.includes("RECORD");
  if (recordOnCh1) {
    console.log("  PASS: Status shows RECORD on CH=1 (the selected column)");
  } else {
    console.log("  FAIL: Status does not show RECORD on CH=1");
    console.log("  Status: " + st.slice(-500));
    const anyRecord = st.match(/CH=\d+[^]*?RECORD/g) || [];
    console.log("  All RECORD lines: " + anyRecord.join(" | "));
    engine.kill(); teardownTest();
    throw new Error("Selected column recording did not target correct channel");
  }

  // Verify that CH=0 (first column) is NOT in RECORD
  const lineForCh0 = st.split("\n").find(line => line.startsWith("CH=0"));
  if (lineForCh0 && lineForCh0.includes("RECORD")) {
    console.log("  FAIL: CH=0 also shows RECORD (unexpected cross‑talk)");
    engine.kill(); teardownTest();
    throw new Error("First channel incorrectly changed");
  }
  console.log("  PASS: CH=0 remains idle (no cross‑talk)");

  // Verify grid indicator 'R' appears near cell 1
  pane = tmuxCapturePane("looper", "0");
  // Use a simple presence check with approximate proximity
  const paneLines = pane.split("\n");
  let cell1Line = -1, recordLine = -1;
  for (let i = 0; i < paneLines.length; i++) {
    if (paneLines[i].includes(" 1")) cell1Line = i;
    if (paneLines[i].includes("R"))  recordLine = i;
  }
  if (cell1Line !== -1 && recordLine !== -1 && Math.abs(recordLine - cell1Line) <= 2) {
    console.log("  PASS: Grid shows 'R' indicator near cell 1");
  } else {
    console.log("  FAIL: Could not find 'R' indicator near cell 1 in pane");
    console.log("  Cell1 line: " + cell1Line + ", R line: " + recordLine);
    console.log("  Pane excerpt:\n" + pane.slice(0, 1000));
    engine.kill(); teardownTest();
    throw new Error("Grid did not show 'R' indicator for selected cell");
  }

  engine.kill();
  teardownTest();
}

/** Wait until the status FIFO contains the given substring or timeout */
async function waitForStatusContaining(substr: string, timeoutMs = 8000): Promise<string> {
  const deadline = Date.now() + timeoutMs;
  while (Date.now() < deadline) {
    const data = readStatusNonBlock();
    if (data.includes(substr)) return data;
    await wait(200);
  }
  return readStatusNonBlock();
}

async function testTUIRecordAndLoop(): Promise<void> {
  console.log("\nTest: TUI RECORD AND LOOP (T key)");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  openCmdFifo();
  ensureGenTone();
  await wait(500);

  // press 't' to start recording on default cell (col 0, row 0)
  tmuxSendKeys("looper", "0", "t");
  await wait(1000);

  // 1) Check status FIFO shows RECORD
  const statusRec = await waitForStatusContaining("RECORD", 5000);
  if (!statusRec.includes("RECORD")) {
    console.log("  FAIL: Status FIFO did not show RECORD after pressing t");
    engine.kill(); teardownTest();
    throw new Error("RECORD state not achieved via TUI");
  }
  console.log("  PASS: Status FIFO shows RECORD");

  // 2) Check tmux pane for 'R' indicator (first character of cell in grid)
  const paneAfterT = tmuxCapturePane("looper", "0");
  const paneContainsR = paneAfterT.includes("R");
  if (!paneContainsR) {
    console.log("  FAIL: TUI grid does not show 'R' indicator after pressing t");
    console.log("  Pane excerpt (maybe): " + paneAfterT.slice(0, 1000));
    engine.kill(); teardownTest();
    throw new Error("Grid indicator not updated");
  }
  console.log("  PASS: TUI grid shows 'R' indicator");

  // Play tone into looper:input (3 seconds)
  execSync(`${GEN_TONE_BIN} 3.0 "looper:input"`, { timeout: 8000 });

  // press 't' again to stop recording -> loop
  tmuxSendKeys("looper", "0", "t");
  const statusLoop = await waitForStatusContaining("LOOPING", 8000);
  if (!statusLoop.includes("LOOPING")) {
    console.log("  WARN: Did not see LOOPING in status, continuing");
  } else {
    console.log("  PASS: Status FIFO shows LOOPING after second t");
  }

  // Check pane for 'L' indicator
  const paneAfterLoop = tmuxCapturePane("looper", "0");
  const paneContainsL = paneAfterLoop.includes("L");
  if (!paneContainsL) {
    console.log("  FAIL: TUI grid does not show 'L' indicator after loop");
    engine.kill(); teardownTest();
    throw new Error("Grid indicator not updated for LOOPING");
  }
  console.log("  PASS: TUI grid shows 'L' indicator");

  // Wait a couple of repetitions (3 seconds) then save via FIFO to verify audio
  await wait(3000);

  // Save via FIFO
  writeFifoCommand("save");
  await wait(3000);

  // Check save.wav exists and has audio
  const savePath = path.join(PROJECT_DIR, "save.wav");
  let saveOk = false;
  if (fs.existsSync(savePath)) {
    const stat = fs.statSync(savePath);
    if (stat.size > 44) {
      saveOk = true;
      console.log(`  PASS: save.wav created (${stat.size} bytes) – loop has audio`);
    }
  }
  if (!saveOk) {
    console.log("  FAIL: save.wav not created or too small – loop not producing audio");
    engine.kill(); teardownTest();
    throw new Error("Loop playback not producing audio");
  }

  engine.kill();
  teardownTest();
}

async function testSaveLoad(): Promise<void> {
  console.log("\nTest: SAVE / LOAD");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  openCmdFifo();
  await wait(1000);

  ensureGenTone();

  // Start recording via FIFO with retry
  let recordAttempts = 0;
  while (recordAttempts < 3) {
    writeFifoCommand("record 0");
    const st1 = await waitForStatusContaining("RECORD", 3000);
    if (st1.includes("RECORD")) {
      console.log("  DEBUG: RECORD confirmed after attempt " + (recordAttempts + 1));
      break;
    }
    recordAttempts++;
    console.log("  WARN: First toggle attempt " + (recordAttempts) + " did not produce RECORD, retrying...");
  }
  if (recordAttempts >= 3) {
    console.log("  FAIL: Could not enter RECORD after 3 attempts");
    const st1 = readStatusNonBlock();
    console.log("  DEBUG status after first toggle:", st1.slice(0, 200));
    engine.kill(); teardownTest();
    throw new Error("Could not enter RECORD");
  }

  // Play tone into looper:input using gen_tone (synchronous, blocks until done)
  execSync(`${GEN_TONE_BIN} 3.0 "looper:input"`, { timeout: 8000 });  // 3 seconds tone

  // Stop recording (toggle again -> loop)
  writeFifoCommand("record 0");
  const loopState = await waitForStatusContaining("LOOPING", 8000);
  if (!loopState.includes("LOOPING")) {
    console.log("  WARN: Second toggle did not produce LOOPING within 8s, will attempt save anyway");
    console.log("  DEBUG status after second toggle:", loopState.slice(0, 200));
  } else {
    console.log("  DEBUG: LOOPING confirmed");
  }

  // Save via FIFO
  writeFifoCommand("save");
  await wait(6000);  // wait for synchronous save

  // Print engine stderr log for save debug
  try {
    const stderrLog = execSync("tail -5 /tmp/engine_stderr.log", { encoding: "utf-8" });
    console.log("  Engine stderr:", stderrLog.trim());
  } catch {}

  // Look for save file in project directory (engine writes there)
  const files = fs.readdirSync(PROJECT_DIR);
  const saveFile = files.find(f => f === "save.wav");
  if (saveFile) {
    const stat = fs.statSync(path.join(PROJECT_DIR, saveFile));
    if (stat.size > 44) {
      console.log(`  PASS: save.wav created (${stat.size} bytes)`);
    } else {
      console.log(`  FAIL: save.wav exists but header may be incomplete (size=${stat.size})`);
      engine.kill(); teardownTest();
      throw new Error("save.wav too short");
    }
  } else {
    console.log("  FAIL: save.wav not found in project directory");
    console.log("  Directory listing: " + fs.readdirSync(PROJECT_DIR).filter(f => f.endsWith(".wav")).join(","));
    engine.kill(); teardownTest();
    throw new Error("save.wav not created");
  }

  // Load into channel 0
  const testWavPath = path.join(PROJECT_DIR, "loop.wav");
  generateTestWav(testWavPath, 3.0);  // 3 seconds loop to capture
  await wait(500);

  // Send load command (no path argument – engine will read loop.wav)
  execSync("echo 'load' > /tmp/looper_cmd", { timeout: 1000 });
  await wait(1000);

  // Wait for LOOPING state after load
  const loadState = await waitForStatusContaining("LOOPING", 5000);
  if (!loadState.includes("LOOPING")) {
    console.log("  WARN: Status did not show LOOPING after load command");
    console.log("  Status: " + loadState.slice(0,200));
  }

  // Check engine stderr for load success line
  let loadSucceeded = false;
  try {
    const stderrLog = execSync("tail -5 /tmp/engine_stderr.log", { encoding: "utf-8" });
    console.log("  Engine stderr:", stderrLog.trim());
    if (stderrLog.includes("LOAD: success")) {
      loadSucceeded = true;
      console.log("  PASS: Loaded sample acknowledged by engine");
    }
  } catch (e) {
    console.log("  Could not read engine stderr, continuing");
  }

  if (!loadSucceeded) {
    console.log("  FAIL: Engine did not report successful load");
    engine.kill(); teardownTest();
    throw new Error("Engine load reported failure");
  }

  engine.kill();
  teardownTest();
}

async function testRecordOnMissingChannel(): Promise<void> {
  console.log("\nTest: RECORD ON MISSING CHANNEL (col 2, row 2)");
  setupTest();
  const engine = await startEngine();
  await startClientInTmux();
  // Do NOT add any channels – only channel 0 exists
  await wait(500);

  // Navigate to row 2, col 2 (two rights, two downs)
  tmuxSendKeys("looper", "0", "l");
  tmuxSendKeys("looper", "0", "l");
  await wait(200);
  tmuxSendKeys("looper", "0", "j");
  tmuxSendKeys("looper", "0", "j");
  await wait(200);

  // Verify selection line
  let pane = tmuxCapturePane("looper", "0");
  if (!pane.includes("Selected: Grid 0, Row 2, Col 2")) {
    console.log("  FAIL: Could not navigate to Row 2, Col 2");
    engine.kill(); teardownTest();
    throw new Error("Navigation to (2,2) failed");
  }

  // Press 't' to start recording
  tmuxSendKeys("looper", "0", "t");
  // Trigger a status read by sending a harmless key
  tmuxSendKeys("looper", "0", "0");
  await wait(1000);

  // Read status FIFO – expect RECORD on CH=2 with SC=2
  const st = readStatusNonBlock();
  const expectedLine = "CH=2 SC=2 STATE=RECORD";
  if (!st.includes(expectedLine)) {
    console.log("  FAIL: Status does not show \"CH=2 SC=2 STATE=RECORD\"");
    console.log("  Status: " + st.slice(-500));
    engine.kill(); teardownTest();
    throw new Error("Expected RECORD on channel 2, scene 2");
  }
  console.log("  PASS: Status shows RECORD on CH=2 SC=2");

  // Also verify the grid shows 'R' near cell (2,2)
  pane = tmuxCapturePane("looper", "0");
  const paneLines = pane.split("\n");
  let cellLine = -1, recordLine = -1;
  for (let i = 0; i < paneLines.length; i++) {
    if (paneLines[i].includes(" 2")) cellLine = i;
    if (paneLines[i].includes("R"))  recordLine = i;
  }
  if (cellLine !== -1 && recordLine !== -1 && Math.abs(recordLine - cellLine) <= 2) {
    console.log("  PASS: Grid shows 'R' indicator near cell 2");
  } else {
    console.log("  FAIL: Could not find 'R' near cell 2 in pane");
    console.log("  Pane excerpt:\n" + pane.slice(0, 1000));
    engine.kill(); teardownTest();
    throw new Error("Grid indicator missing for col 2");
  }

  engine.kill();
  teardownTest();
}

async function main(): Promise<void> {
  console.log("=== Looper E2E Tests ===\n");

  const tests = [testGridNavigation, testChannelAddRemove, testToggleRecordStop, testTUIRecordAndLoop, testRecordOnSelectedCell, testSaveLoad, testRecordOnMissingChannel];
  let passCount = 0;
  let failCount = 0;

  for (const testFn of tests) {
    process.stdout.write("\n");
    try {
      await Promise.race([
        testFn(),
        new Promise<void>((_, reject) => setTimeout(() => reject(new Error("Test timed out")), 60000))
      ]);
      passCount++;
    } catch (e: any) {
      console.log(`  ERROR: ${e.message}`);
      failCount++;
    }
  }

  console.log(`\n=== Results: ${passCount} passed, ${failCount} failed ===`);
  if (failCount > 0) {
    process.exit(1);
  }
  process.exit(0);
}

main().catch((e) => {
  console.error("Unhandled error:", e);
  process.exit(1);
});