Human-readable control flow patterns for early returns, guard clauses, and linearizing nested logic. Use when the user says "simplify this", "flatten these conditions", "too many nested ifs", or when refactoring nested conditionals, replacing try-catch with linear flow, or restructuring decision logic.
When refactoring complex control flow, mirror natural human reasoning patterns:
Related Skills: See
refactoringfor systematic code audit methodology including branch collapsing and caller counting.
Use this pattern when you need to:
throw/return try-catch logic with readable early returns.isUsingNavigator, isUsingLocalTranscription, needsOldFileCleanup: names that read like thoughtsTransform this: nested conditionals with duplicated logic Into this: linear flow that mirrors human decision-making
// From apps/whispering/src/routes/(app)/_layout-utils/check-ffmpeg.ts
export async function checkFfmpegRecordingMethodCompatibility() {
if (!window.__TAURI_INTERNALS__) return;
// Only check if FFmpeg recording method is selected
if (settings.value['recording.method'] !== 'ffmpeg') return;
const { data: ffmpegInstalled } =
await rpc.ffmpeg.checkFfmpegInstalled.ensure();
if (ffmpegInstalled) return; // FFmpeg is installed, all good
// FFmpeg recording method selected but not installed
toast.warning('FFmpeg Required for FFmpeg Recording Method', {
// ... toast content
});
}
// From apps/whispering/src/routes/(app)/_layout-utils/check-ffmpeg.ts
const isUsingNavigator = settings.value['recording.method'] === 'navigator';
const isUsingLocalTranscription =
settings.value['transcription.selectedTranscriptionService'] ===
'whispercpp' ||
settings.value['transcription.selectedTranscriptionService'] === 'parakeet';
return isUsingNavigator && isUsingLocalTranscription && !isFFmpegInstalled;
// From packages/epicenter/src/indexes/markdown/markdown-index.ts
/**
* This is checking if there's an old filename AND if it's different
* from the new one. It's essentially checking: "has the filename
* changed?" and "do we need to clean up the old file?"
*/
const needsOldFileCleanup = oldFilename && oldFilename !== filename;
if (needsOldFileCleanup) {
const oldFilePath = path.join(tableConfig.directory, oldFilename);
await deleteMarkdownFile({ filePath: oldFilePath });
tracking[table.name]!.deleteByFilename({ filename: oldFilename });
}
try-catch blocks create a nested, two-branch structure: the try body and the catch body. When only one call inside the try can actually throw, replace the try-catch with a guarded call + early return so the code reads top-to-bottom.
Before (nested, mixed throw/return):
async ({ body, status }) => {
const adapter = createAdapter(body.provider);
try {
const stream = chat({ adapter, messages: body.messages });
return toServerSentEventsResponse(stream);
} catch (error) {
if (error instanceof Error && error.name === 'AbortError') {
throw status(499, 'Client closed request');
}
const message = error instanceof Error ? error.message : 'Unknown error';
throw status('Bad Gateway', `Provider error: ${message}`);
}
};
After (linear, consistent returns):
async ({ body, status }) => {
const adapter = createAdapter(body.provider);
const { data: stream, error: chatError } = trySync({
try: () => chat({ adapter, messages: body.messages }),
catch: (e) => Err(e instanceof Error ? e : new Error(String(e))),
});
if (chatError) {
if (chatError.name === 'AbortError') {
return status(499, 'Client closed request');
}
return status('Bad Gateway', `Provider error: ${chatError.message}`);
}
return toServerSentEventsResponse(stream);
};
The transformation follows the same human reasoning pattern:
This eliminates the nesting, makes return vs throw consistent, and separates the error boundary from the safe code that follows it.
When a handler has multiple failure points, each guard follows the same pattern: do the thing, check the result, return early or continue.
async ({ body, status }) => {
// Guard 1: validate input
if (!isSupportedProvider(body.provider)) {
return status('Bad Request', `Unsupported provider: ${body.provider}`);
}
// Guard 2: resolve dependency
const apiKey = resolveApiKey(body.provider, headers['x-api-key']);
if (!apiKey) {
return status('Unauthorized', 'Missing API key');
}
// Guard 3: risky operation
const { data: stream, error } = trySync({
try: () => chat({ adapter: createAdapter(body.provider, apiKey) }),
catch: (e) => Err(e instanceof Error ? e : new Error(String(e))),
});
if (error) return status('Bad Gateway', error.message);
// Happy path — all guards passed
return toServerSentEventsResponse(stream);
};
Every guard has the same shape: check → return early on failure. The happy path accumulates at the bottom. Reading top-to-bottom, you see every way the function can fail before you see the success case.