suno_core/client.rs
1//! The Suno API client: lists the library behind the [`Http`](crate::Http) port.
2
3use std::collections::{BTreeSet, HashMap};
4use std::sync::Mutex;
5use std::time::Instant;
6
7use futures_util::stream::{self, StreamExt};
8
9use crate::auth::ClerkAuth;
10use crate::backoff::{backoff_delay, retry_after};
11use crate::clock::Clock;
12use crate::consts::{
13 API_MAX_RETRIES, BILLING_INFO_PATH, CLIP_PARENT_PATH, FEED_INITIAL_RATE, FEED_V3_PATH,
14 GET_SONGS_BY_IDS_PATH, GET_SONGS_CHUNK, MAX_PAGES, PLAYLIST_ME_PATH, PLAYLIST_PATH,
15 SUNO_API_BASE_URL,
16};
17use crate::error::{Error, Result};
18use crate::http::{Http, HttpRequest, Method};
19use crate::limiter::{AdaptiveLimiter, retry_after_delay};
20use crate::lyrics::AlignedLyrics;
21use crate::model::{BillingInfo, Clip, Playlist, Stem};
22use crate::wire::{
23 feed_v3_body, parse_aligned_lyrics, parse_billing_info, parse_clip, parse_feed_v3,
24 parse_playlist_clips, parse_playlists, parse_songs_batch, parse_stem_page_count,
25 parse_stems_page, parse_wav_url,
26};
27
28/// A client for the Suno library API, owning the account's [`ClerkAuth`].
29///
30/// Holds the [`Clock`] so [`api_request`](Self::api_request) can back off on a
31/// `429` or transient failure, and an [`AdaptiveLimiter`] that paces reactively:
32/// it waits nowhere until a `429`, then halves the rate and ramps it back on
33/// sustained success.
34pub struct SunoClient<C> {
35 auth: ClerkAuth,
36 clock: C,
37 limiter: Mutex<AdaptiveLimiter>,
38}
39
40impl<C: Clock> SunoClient<C> {
41 /// Create a client from a fresh or already-authenticated [`ClerkAuth`].
42 pub fn new(auth: ClerkAuth, clock: C) -> Self {
43 Self {
44 auth,
45 clock,
46 limiter: Mutex::new(AdaptiveLimiter::new(FEED_INITIAL_RATE)),
47 }
48 }
49
50 /// Borrow the underlying authenticator.
51 pub fn auth(&self) -> &ClerkAuth {
52 &self.auth
53 }
54
55 /// The adaptive limiter's current requests-per-second rate, for tests.
56 #[cfg(test)]
57 pub(crate) fn limiter_rate(&self) -> f64 {
58 self.limiter.lock().unwrap().rate()
59 }
60
61 /// List clips across the whole library, or only liked clips.
62 ///
63 /// Walks the cursor-paginated `POST /api/feed/v3` feed, hard-capped at
64 /// [`MAX_PAGES`], truncating to `limit` when set.
65 ///
66 /// The `complete` flag is `true` only when paging ended on a server-reported
67 /// `has_more == false`; any other stop (missing `has_more`, no usable cursor,
68 /// `limit`, [`MAX_PAGES`], transport error) yields `false` so the caller
69 /// never treats a truncated listing as authoritative for deletion.
70 /// `any_filtered` is `true` when the downloadable filter dropped any clip,
71 /// which likewise denies deletion authority since it may have hidden a
72 /// manifest-tracked clip.
73 pub async fn list_clips(
74 &self,
75 http: &impl Http,
76 liked: bool,
77 limit: Option<usize>,
78 ) -> Result<(Vec<Clip>, bool, bool)> {
79 let mut clips = Vec::new();
80 let mut cursor: Option<String> = None;
81 let mut complete = false;
82 let mut any_filtered = false;
83 for _ in 0..MAX_PAGES {
84 let body = feed_v3_body(liked, cursor.as_deref());
85 let response = self
86 .api_send_retrying(http, Method::Post, FEED_V3_PATH, body)
87 .await?;
88 let page = parse_feed_v3(&response)?;
89 clips.extend(page.clips);
90 any_filtered |= page.any_filtered;
91 match page.has_more {
92 Some(false) => {
93 complete = true;
94 break;
95 }
96 Some(true) => match page.next_cursor {
97 Some(next) => cursor = Some(next),
98 None => break,
99 },
100 None => break,
101 }
102 if limit.is_some_and(|n| clips.len() >= n) {
103 break;
104 }
105 }
106 if let Some(n) = limit {
107 clips.truncate(n);
108 }
109 Ok((clips, complete, any_filtered))
110 }
111
112 /// Fetch one clip by ID.
113 ///
114 /// Tries the dedicated `/api/clip/{id}` endpoint first, then falls back to
115 /// scanning the library feed if that endpoint yields no matching clip.
116 pub async fn get_clip(&self, http: &impl Http, id: &str) -> Result<Clip> {
117 if let Some(clip) = self.try_get_clip(http, id).await? {
118 return Ok(clip);
119 }
120 self.find_in_feed(http, id).await
121 }
122
123 /// Ask Suno to render a clip to lossless WAV (server-side, asynchronous).
124 pub async fn request_wav(&self, http: &impl Http, id: &str) -> Result<()> {
125 let path = format!("/api/gen/{id}/convert_wav/");
126 self.api_request(http, Method::Post, &path, Vec::new())
127 .await?;
128 Ok(())
129 }
130
131 /// Read the rendered WAV URL for a clip, or `None` while it is not ready.
132 ///
133 /// A `404` maps to `None` (not yet rendered), and it skips the shared retry
134 /// so the caller's poll loop owns that budget.
135 pub async fn wav_url(&self, http: &impl Http, id: &str) -> Result<Option<String>> {
136 let path = format!("/api/gen/{id}/wav_file/");
137 let body = match self.api_get(http, &path).await {
138 Ok(body) => body,
139 Err(Error::NotFound(_)) => return Ok(None),
140 Err(err) => return Err(err),
141 };
142 parse_wav_url(&body)
143 }
144
145 /// Fetch a clip's word- and line-level aligned (synced) lyrics.
146 ///
147 /// The trailing slash on `.../aligned_lyrics/v2/` is required. An
148 /// instrumental or un-alignable clip returns `200` with empty arrays, and a
149 /// `404` is treated the same way, so an absent alignment is "no synced
150 /// lyrics" rather than a run failure.
151 pub async fn aligned_lyrics(&self, http: &impl Http, id: &str) -> Result<AlignedLyrics> {
152 let path = format!("/api/gen/{id}/aligned_lyrics/v2/");
153 match self.api_get_retrying(http, &path).await {
154 Ok(body) => Ok(parse_aligned_lyrics(&body)),
155 Err(Error::NotFound(_)) => Ok(AlignedLyrics::default()),
156 Err(err) => Err(err),
157 }
158 }
159
160 /// Fetch specific clips by id, batch-first with a per-id fallback.
161 ///
162 /// Used by lineage resolution to gap-fill ancestors absent from a normal
163 /// listing, including trashed ones. Ids are fetched in one batch via
164 /// [`get_songs_by_ids`](Self::get_songs_by_ids); any the batch omits fall
165 /// back to one `GET /api/clip/{id}` each, bounded by `concurrency`, attempted
166 /// once, with a `404` skipped. A `429` while batching propagates rather than
167 /// fanning out into per-id requests.
168 ///
169 /// No downloadability filter is applied: an ancestor may be an infill or
170 /// context artefact the walk must still traverse, so these clips are for
171 /// resolution only and must never be treated as download candidates. Ids are
172 /// deduplicated in order and the result preserves that order, matched by id.
173 pub async fn get_clips_by_ids(
174 &self,
175 http: &impl Http,
176 ids: &[&str],
177 concurrency: usize,
178 ) -> Result<Vec<Clip>> {
179 let ordered = dedup_nonempty(ids);
180 let mut found: HashMap<&str, Clip> = self
181 .get_songs_by_ids(http, &ordered)
182 .await?
183 .into_iter()
184 .filter_map(|clip| {
185 ordered
186 .iter()
187 .find(|id| **id == clip.id)
188 .map(|id| (*id, clip))
189 })
190 .collect();
191 let omitted: Vec<&str> = ordered
192 .iter()
193 .copied()
194 .filter(|id| !found.contains_key(id))
195 .collect();
196 if !omitted.is_empty() {
197 for clip in self
198 .fetch_clips_individually(http, &omitted, concurrency)
199 .await?
200 {
201 if let Some(id) = ordered.iter().copied().find(|id| *id == clip.id) {
202 found.insert(id, clip);
203 }
204 }
205 }
206 Ok(ordered.iter().filter_map(|id| found.remove(id)).collect())
207 }
208
209 /// Batch-fetch clips by id via `GET /api/clips/get_songs_by_ids?ids=…&ids=…`.
210 ///
211 /// The pure batch primitive: deduplicated ids are split into
212 /// [`GET_SONGS_CHUNK`] chunks and matched back by id, preserving input order.
213 /// Ids the batch does not return are left for the caller to fill.
214 ///
215 /// The endpoint is undocumented and may be unavailable: a chunk it cannot
216 /// serve (any `4xx`/`5xx`, transport failure, or unexpected body) yields
217 /// nothing for that chunk rather than erroring, so an outage degrades rather
218 /// than breaks. A `429` rides the retry and then propagates rather than
219 /// fanning out into per-id requests; an auth failure likewise propagates.
220 pub async fn get_songs_by_ids(&self, http: &impl Http, ids: &[&str]) -> Result<Vec<Clip>> {
221 let ordered = dedup_nonempty(ids);
222 let mut found: HashMap<&str, Clip> = HashMap::new();
223 for chunk in ordered.chunks(GET_SONGS_CHUNK) {
224 let query = chunk
225 .iter()
226 .map(|id| format!("ids={id}"))
227 .collect::<Vec<_>>()
228 .join("&");
229 let path = format!("{GET_SONGS_BY_IDS_PATH}?{query}");
230 let clips = match self.api_get_retrying(http, &path).await {
231 Ok(body) => parse_songs_batch(&body).unwrap_or_default(),
232 Err(err @ (Error::RateLimited { .. } | Error::Auth(_))) => return Err(err),
233 Err(_) => Vec::new(),
234 };
235 for clip in clips {
236 if let Some(id) = chunk.iter().copied().find(|id| *id == clip.id) {
237 found.insert(id, clip);
238 }
239 }
240 }
241 Ok(ordered.iter().filter_map(|id| found.remove(id)).collect())
242 }
243
244 /// The per-id `GET /api/clip/{id}` fallback for
245 /// [`get_clips_by_ids`](Self::get_clips_by_ids), with bounded concurrency.
246 /// Returns any clip (trashed or artefact) unfiltered; a `404` is skipped and
247 /// input order is preserved.
248 async fn fetch_clips_individually(
249 &self,
250 http: &impl Http,
251 ids: &[&str],
252 concurrency: usize,
253 ) -> Result<Vec<Clip>> {
254 let limit = concurrency.max(1);
255 let fetched = stream::iter(ids.iter().copied())
256 .map(|id| async move {
257 let path = format!("/api/clip/{id}");
258 match self.api_get_retrying(http, &path).await {
259 Ok(body) => Ok(parse_clip(&body)),
260 Err(Error::NotFound(_)) => Ok(None),
261 Err(err) => Err(err),
262 }
263 })
264 .buffered(limit)
265 .collect::<Vec<_>>()
266 .await;
267 let mut clips = Vec::new();
268 for item in fetched {
269 if let Some(clip) = item? {
270 clips.push(clip);
271 }
272 }
273 Ok(clips)
274 }
275
276 /// Fetch a clip's immediate parent, or `None` when the clip is a root.
277 ///
278 /// A root's parent comes back as `200` with a bodiless, id-less clip (not a
279 /// `404`); [`parse_clip`] gates on a non-empty id so that maps to `Ok(None)`.
280 /// The `404` arm is a fallback for the alternative encoding. Any other
281 /// failure propagates rather than being mistaken for a root.
282 pub async fn get_clip_parent(&self, http: &impl Http, id: &str) -> Result<Option<Clip>> {
283 let path = format!("{CLIP_PARENT_PATH}?clip_id={id}");
284 match self.api_get_retrying(http, &path).await {
285 Ok(body) => Ok(parse_clip(&body)),
286 Err(Error::NotFound(_)) => Ok(None),
287 Err(err) => Err(err),
288 }
289 }
290
291 /// List the account's own playlists, paging `/api/playlist/me`.
292 ///
293 /// Trashed and share-list playlists are excluded by query. Paging stops on
294 /// the first empty page, is hard-capped at [`MAX_PAGES`], and de-duplicates
295 /// by id so a server that ignores the page parameter cannot loop or inflate
296 /// the set.
297 ///
298 /// A hard failure propagates: the caller then refuses every playlist
299 /// deletion this run, so a dropped fetch can never remove a `.m3u8`.
300 pub async fn get_playlists(&self, http: &impl Http) -> Result<Vec<Playlist>> {
301 let mut playlists = Vec::new();
302 let mut seen = BTreeSet::new();
303 for page in 1..=MAX_PAGES {
304 let path =
305 format!("{PLAYLIST_ME_PATH}?page={page}&show_trashed=false&show_sharelist=false");
306 let body = self.api_get_retrying(http, &path).await?;
307 let page_playlists = parse_playlists(&body)?;
308 if page_playlists.is_empty() {
309 break;
310 }
311 for playlist in page_playlists {
312 if seen.insert(playlist.id.clone()) {
313 playlists.push(playlist);
314 }
315 }
316 }
317 Ok(playlists)
318 }
319
320 /// Fetch one playlist's clips in Suno order via `/api/playlist/{id}/`.
321 ///
322 /// `playlist_clips[]` is already ordered with trashed members excluded, so
323 /// order is preserved and no downloadability filter is applied. Only clips
324 /// with a non-empty id are kept.
325 ///
326 /// The returned `bool` is a completeness signal for deletion authority:
327 /// `true` only when `num_total_results` is present, equals the raw count, and
328 /// no member was dropped for a missing id. A short or id-missing page returns
329 /// `false`, so a Mirror playlist under `library = "off"` is never
330 /// authoritative unless its whole member set was seen.
331 pub async fn get_playlist_clips(
332 &self,
333 http: &impl Http,
334 id: &str,
335 ) -> Result<(Vec<Clip>, bool)> {
336 let path = format!("{PLAYLIST_PATH}{id}/");
337 let body = self.api_get_retrying(http, &path).await?;
338 parse_playlist_clips(&body)
339 }
340
341 /// Read the authenticated account's billing information.
342 pub async fn get_billing_info(&self, http: &impl Http) -> Result<BillingInfo> {
343 let body = self.api_get_retrying(http, BILLING_INFO_PATH).await?;
344 parse_billing_info(&body)
345 }
346
347 /// List a clip's already-separated stems (free, read-only).
348 ///
349 /// Pages `GET /api/clip/{id}/stems/pages` then `.../stems?page=P` (0-indexed).
350 /// This endpoint only reads: it never spends credits or triggers separation,
351 /// so it is safe on the bulk mirror path. Call only when the clip's
352 /// `has_stem` is true.
353 ///
354 /// The `complete` flag is `true` only when the page count came back and every
355 /// page drained after at least one stem was seen. An empty listing
356 /// (`pages == 0` or a `400`/`404` on the page-count endpoint), a transport
357 /// failure, a partial drain, or a count above [`MAX_PAGES`] all yield
358 /// `false`, so the caller KEEPS existing local stems rather than reading the
359 /// absence as "no stems".
360 pub async fn list_stems(&self, http: &impl Http, clip_id: &str) -> Result<(Vec<Stem>, bool)> {
361 let declared = self.stem_page_count(http, clip_id).await?;
362 // Zero pages is Suno's "no stems" answer: indeterminate, never an
363 // authoritative empty.
364 if declared == 0 {
365 return Ok((Vec::new(), false));
366 }
367 let pages = declared.min(MAX_PAGES);
368 let mut stems: Vec<Stem> = Vec::new();
369 for page in 0..pages {
370 // Pages are 0-indexed; no trailing slash before the query (unlike
371 // `.../stems/pages`).
372 let path = format!("/api/clip/{clip_id}/stems?page={page}");
373 // A page error mid-enumeration is indeterminate: surface it so the
374 // caller keeps existing stems rather than reading a partial drain as
375 // authoritative.
376 let body = self.api_get_retrying(http, &path).await?;
377 stems.extend(parse_stems_page(&body));
378 }
379 dedupe_stems(&mut stems);
380 let complete = !stems.is_empty() && declared <= MAX_PAGES;
381 Ok((stems, complete))
382 }
383
384 /// Read the stems page count from `GET /api/clip/{id}/stems/pages`.
385 ///
386 /// A clip with no stems answers `400`/`404`; both map to `0` (indeterminate,
387 /// never an authoritative empty). Any other error propagates so the caller
388 /// keeps the stems as unknown.
389 async fn stem_page_count(&self, http: &impl Http, clip_id: &str) -> Result<u32> {
390 let path = format!("/api/clip/{clip_id}/stems/pages");
391 match self.api_get_retrying(http, &path).await {
392 Ok(body) => Ok(parse_stem_page_count(&body)),
393 Err(err) if is_invalid_page_error(&err) => Ok(0),
394 Err(Error::NotFound(_)) => Ok(0),
395 Err(err) => Err(err),
396 }
397 }
398
399 /// Try the dedicated clip endpoint, returning `None` when it is missing or
400 /// returns a body that does not yield the requested clip.
401 async fn try_get_clip(&self, http: &impl Http, id: &str) -> Result<Option<Clip>> {
402 let path = format!("/api/clip/{id}");
403 match self.api_get_retrying(http, &path).await {
404 Ok(body) => Ok(parse_clip(&body).filter(|clip| clip.id == id)),
405 Err(Error::NotFound(_)) => Ok(None),
406 Err(err) => Err(err),
407 }
408 }
409
410 /// Locate a clip by scanning the library feed.
411 async fn find_in_feed(&self, http: &impl Http, id: &str) -> Result<Clip> {
412 let (clips, _complete, _) = self.list_clips(http, false, None).await?;
413 clips
414 .into_iter()
415 .find(|clip| clip.id == id)
416 .ok_or_else(|| Error::Api(format!("clip {id} not found in the library")))
417 }
418
419 /// Perform an authenticated GET, refreshing the JWT once on a 401/403.
420 async fn api_get(&self, http: &impl Http, path: &str) -> Result<Vec<u8>> {
421 self.api_request(http, Method::Get, path, Vec::new()).await
422 }
423
424 /// A retrying GET: [`api_send_retrying`](Self::api_send_retrying) with no body.
425 async fn api_get_retrying(&self, http: &impl Http, path: &str) -> Result<Vec<u8>> {
426 self.api_send_retrying(http, Method::Get, path, Vec::new())
427 .await
428 }
429
430 /// Like [`api_request`](Self::api_request) but paces through the adaptive
431 /// rate limiter and backs off via the [`Clock`] on a `429` or transient
432 /// failure, up to [`API_MAX_RETRIES`] times. Each attempt reconstructs the
433 /// request, so a throttled feed page re-POSTs the same cursor rather than
434 /// skipping ahead.
435 ///
436 /// Pacing lives at this single per-request layer so it composes with any
437 /// paged walk. The WAV render flow instead uses the plain
438 /// [`api_get`](Self::api_get) so the executor owns that retry budget.
439 async fn api_send_retrying(
440 &self,
441 http: &impl Http,
442 method: Method,
443 path: &str,
444 body: Vec<u8>,
445 ) -> Result<Vec<u8>> {
446 let pace = self.limiter.lock().unwrap().pace(Instant::now());
447 if !pace.is_zero() {
448 self.clock.sleep(pace).await;
449 }
450 let mut retries = 0;
451 loop {
452 match self.api_request(http, method, path, body.clone()).await {
453 Ok(response) => return Ok(response),
454 Err(Error::RateLimited { retry_after }) if retries < API_MAX_RETRIES => {
455 self.clock.sleep(retry_after_delay(retry_after)).await;
456 retries += 1;
457 }
458 Err(Error::Connection(_)) if retries < API_MAX_RETRIES => {
459 self.clock.sleep(backoff_delay(retries, None)).await;
460 retries += 1;
461 }
462 Err(err) => return Err(err),
463 }
464 }
465 }
466
467 /// Perform an authenticated request, refreshing the JWT once on a 401/403.
468 ///
469 /// `body` is sent only by the adapter when non-empty, so a GET or a bodyless
470 /// POST reaches the network unchanged.
471 async fn api_request(
472 &self,
473 http: &impl Http,
474 method: Method,
475 path: &str,
476 body: Vec<u8>,
477 ) -> Result<Vec<u8>> {
478 // Crate-wide POST allow-list: every mutating request funnels through
479 // here, so a destructive or credit-spending endpoint can never be sent.
480 // GETs are free and unrestricted.
481 if method == Method::Post && !post_path_allowed(path) {
482 return Err(Error::Refused(format!(
483 "POST to {path} is not on the allow-list"
484 )));
485 }
486 let url = format!("{SUNO_API_BASE_URL}{path}");
487 let mut auth_refreshed = false;
488 loop {
489 let jwt = self.auth.ensure_jwt(self.clock.now_unix(), http).await?;
490 let mut request = match method {
491 Method::Get => HttpRequest::get(url.clone()),
492 Method::Post => HttpRequest::post(url.clone(), body.clone()),
493 };
494 request
495 .headers
496 .push(("Authorization".to_string(), format!("Bearer {jwt}")));
497 let response = http
498 .send(request)
499 .await
500 .map_err(|err| Error::Connection(err.to_string()))?;
501 match response.status {
502 200..=299 => {
503 self.limiter.lock().unwrap().on_success();
504 return Ok(response.body);
505 }
506 401 | 403 if !auth_refreshed => {
507 self.auth.invalidate_jwt();
508 auth_refreshed = true;
509 }
510 401 | 403 => {
511 return Err(Error::Auth(format!(
512 "Suno API auth failed with status {}",
513 response.status
514 )));
515 }
516 429 => {
517 self.limiter.lock().unwrap().on_rate_limit();
518 return Err(Error::RateLimited {
519 retry_after: retry_after(&response),
520 });
521 }
522 400 => {
523 let preview: String = String::from_utf8_lossy(&response.body)
524 .chars()
525 .take(200)
526 .collect();
527 return Err(Error::BadRequest(format!(
528 "Suno API returned 400: {preview}"
529 )));
530 }
531 404 => {
532 return Err(Error::NotFound(format!("Suno API returned 404: {path}")));
533 }
534 status => {
535 let preview: String = String::from_utf8_lossy(&response.body)
536 .chars()
537 .take(200)
538 .collect();
539 return Err(Error::Api(format!("Suno API returned {status}: {preview}")));
540 }
541 }
542 }
543 }
544}
545
546/// Whether a Suno API path may be the target of a POST (the crate-wide POST
547/// allow-list), deliberately narrow so a mutating request only ever reaches a
548/// vetted endpoint: the library feed ([`FEED_V3_PATH`]) and the per-clip WAV
549/// render (`…/convert_wav/`). Any credit-spending endpoint is deliberately
550/// absent; GETs are never gated.
551fn post_path_allowed(path: &str) -> bool {
552 if path == FEED_V3_PATH {
553 return true;
554 }
555 if let Some(rest) = path.strip_prefix("/api/gen/")
556 && let Some(id) = rest.strip_suffix("/convert_wav/")
557 {
558 return is_single_id_segment(id);
559 }
560 false
561}
562
563/// Whether `segment` is a single, non-empty path id segment: no slash, no query,
564/// and no `..` traversal, so an allow-list match can never be smuggled past by a
565/// crafted path.
566fn is_single_id_segment(segment: &str) -> bool {
567 !segment.is_empty()
568 && !segment.contains('/')
569 && !segment.contains('?')
570 && !segment.contains("..")
571}
572
573/// Whether an error is Suno's "no stems" answer (a `400`) on the page-count
574/// endpoint, distinguished from a transient `5xx` so a server error is never
575/// mistaken for "no stems".
576fn is_invalid_page_error(err: &Error) -> bool {
577 matches!(err, Error::BadRequest(_))
578}
579
580/// Drop stems that repeat across pages, keeping the first occurrence of each
581/// download URL so a paged listing counts a stem once.
582fn dedupe_stems(stems: &mut Vec<Stem>) {
583 let mut seen = BTreeSet::new();
584 stems.retain(|stem| seen.insert(stem.url.clone()));
585}
586
587/// Deduplicate ids in first-seen order, dropping empties. Shared by the by-id
588/// fetch paths so the batch, the fallback, and the returned order all agree.
589fn dedup_nonempty<'a>(ids: &[&'a str]) -> Vec<&'a str> {
590 let mut seen: BTreeSet<&str> = BTreeSet::new();
591 ids.iter()
592 .copied()
593 .filter(|id| !id.is_empty() && seen.insert(id))
594 .collect()
595}
596
597#[cfg(test)]
598mod tests;