1use rayon::prelude::*;
8use std::cell::RefCell;
9use std::collections::HashMap;
10use std::fs;
11use std::io::{BufRead, BufReader, Write, BufWriter};
12use std::path::{Path, PathBuf};
13use std::process::Command;
14
15include!(concat!(env!("OUT_DIR"), "/rep_thresholds.rs"));
18
19const SIG_EVALUE: f64 = 1e-30;
28const SIG_QCOV: f64 = 0.35;
36const LIKE_EVALUE: f64 = 1e-30;
37const LIKE_QCOV: f64 = 0.7;
38const LIKE_SPAN_OVERLAP: f64 = 0.5;
39const NOVEL_PIDENT: f64 = 30.0;
40const MAX_DIST: i64 = 500;
42const MIN_DIST_ABS: i64 = 150; const SW_MATCH: i32 = 2;
44const SW_MISMATCH: i32 = -6;
45const SW_OPEN: i32 = 2;
48const SW_EXTEND: i32 = 2;
49
50fn revcomp(s: &[u8]) -> Vec<u8> {
52 s.iter().rev().map(|&c| match c {
53 b'A' => b'T', b'T' => b'A', b'G' => b'C', b'C' => b'G',
54 b'a' => b't', b't' => b'a', b'g' => b'c', b'c' => b'g',
55 b'N' => b'N', b'n' => b'n', _ => b'N',
56 }).collect()
57}
58
59fn norm_fam(f: &str) -> String {
60 f.replace('/', "").replace('_', "").to_uppercase()
61}
62
63fn translate(s: &[u8]) -> Vec<u8> {
65 const TBL: &[u8] = b"FFLLSSSSYY**CC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG";
66 let code = |c: u8| -> i32 { match c { b'T'=>0, b'C'=>1, b'A'=>2, b'G'=>3, _=>-1 } };
67 let mut out = Vec::with_capacity(s.len()/3);
68 let mut i = 0;
69 while i + 3 <= s.len() {
70 let (a,b,c) = (code(s[i]), code(s[i+1]), code(s[i+2]));
71 if a<0 || b<0 || c<0 { out.push(b'X'); }
72 else { out.push(TBL[(a*16+b*4+c) as usize]); }
73 i += 3;
74 }
75 out
76}
77
78fn read_fasta(path: &str) -> Vec<(String, Vec<u8>)> {
79 let f = BufReader::new(fs::File::open(path).expect("open fasta"));
80 let mut out: Vec<(String, Vec<u8>)> = Vec::new();
81 let mut name: Option<String> = None;
82 let mut buf: Vec<u8> = Vec::new();
83 for line in f.lines() {
84 let line = line.unwrap();
85 if let Some(rest) = line.strip_prefix('>') {
86 if let Some(n) = name.take() { out.push((n, std::mem::take(&mut buf))); }
87 name = Some(rest.split_whitespace().next().unwrap_or("").to_string());
88 } else {
89 buf.extend(line.trim().bytes().map(|c| c.to_ascii_uppercase()));
90 }
91 }
92 if let Some(n) = name.take() { out.push((n, buf)); }
93 out
94}
95
96struct Orf { begin: i64, end: i64, strand: char, prot: Vec<u8>, edge: bool }
98
99fn parse_rustygal_faa(data: &[u8]) -> HashMap<String, Vec<Orf>> {
103 let mut map: HashMap<String, Vec<Orf>> = HashMap::new();
104 let mut cur: Option<(String, i64, i64, char)> = None;
105 let mut seq: Vec<u8> = Vec::new();
106 let flush = |map: &mut HashMap<String, Vec<Orf>>,
107 cur: &Option<(String,i64,i64,char)>, seq: &mut Vec<u8>| {
108 if let Some((ctg, b, e, st)) = cur {
109 while seq.last() == Some(&b'*') { seq.pop(); }
111 map.entry(ctg.clone()).or_default().push(Orf {
112 begin: *b, end: *e, strand: *st, prot: std::mem::take(seq), edge: false });
113 } else { seq.clear(); }
114 };
115 for raw in data.split(|&c| c == b'\n') {
116 let line = String::from_utf8_lossy(raw);
117 let line = line.trim_end_matches('\r');
118 if let Some(rest) = line.strip_prefix('>') {
119 flush(&mut map, &cur, &mut seq);
120 let first = rest.split_whitespace().next().unwrap();
122 let parts: Vec<&str> = rest.split('#').collect();
123 let b: i64 = parts[1].trim().parse().unwrap();
124 let e: i64 = parts[2].trim().parse().unwrap();
125 let strand = if parts[3].trim() == "1" { '+' } else { '-' };
126 let contig = match first.rfind('_') { Some(i) => &first[..i], None => first };
128 cur = Some((contig.to_string(), b, e, strand));
129 } else {
130 seq.extend(line.trim().bytes());
131 }
132 }
133 flush(&mut map, &cur, &mut seq);
134 map
135}
136
137fn edge_orfs(seq: &[u8], pyr: &[Orf], minaa: usize, edge: i64) -> Vec<Orf> {
139 let l = seq.len() as i64;
140 let mut out = Vec::new();
141 for &strand in &['+', '-'] {
142 let s = if strand == '+' { seq.to_vec() } else { revcomp(seq) };
143 for frame in 0..3usize {
144 let prot = translate(&s[frame.min(s.len())..]);
145 let mut start = 0usize;
147 let mut stretches: Vec<(usize, usize)> = Vec::new();
148 for (k, &aa) in prot.iter().enumerate() {
149 if aa == b'*' { if k > start { stretches.push((start, k)); } start = k + 1; }
150 }
151 if start < prot.len() { stretches.push((start, prot.len())); }
152 for (a0, a1) in stretches {
153 if a1 - a0 < minaa { continue; }
154 let ns = frame as i64 + a0 as i64 * 3;
155 let ne = frame as i64 + a1 as i64 * 3;
156 if !(ns <= edge || ne >= l - edge) { continue; }
157 let (cb, ce) = if strand == '+' { (ns + 1, ne) } else { (l - ne + 1, l - ns) };
158 let suppressed = pyr.iter().any(|p| p.strand == strand
159 && (ce.min(p.end) - cb.max(p.begin)) as f64 >= 0.5 * (ce - cb) as f64);
160 if suppressed { continue; }
161 out.push(Orf { begin: cb, end: ce, strand, prot: prot[a0..a1].to_vec(), edge: true });
162 }
163 }
164 }
165 out
166}
167
168#[derive(Clone)]
170struct Hit { fam: String, evalue: f64, qcov: f64, pident: f64, tstart: i64, tend: i64 }
171
172fn mmseqs_search(proteome: &Path, db_dir: &Path, tmp: &Path, nthread: usize, gpu: bool)
173 -> HashMap<String, Vec<Hit>> {
174 let profile_db = db_dir.join("mmdb_union").join("profileDb");
175 let manifest = db_dir.join("manifest_union.tsv");
176 let run = |args: &[&str]| {
177 let st = Command::new("mmseqs").args(args)
178 .stdout(std::process::Stdio::null()).stderr(std::process::Stdio::null())
179 .status().expect("spawn mmseqs");
180 assert!(st.success(), "mmseqs {:?} failed", &args[0]);
181 };
182 let qdb = tmp.join("qdb");
183 run(&["createdb", proteome.to_str().unwrap(), qdb.to_str().unwrap(), "-v", "0"]);
184 let mut cid2fam: HashMap<String, String> = HashMap::new();
186 let mut cid2rep: HashMap<String, String> = HashMap::new();
187 for line in BufReader::new(fs::File::open(&manifest).unwrap()).lines() {
188 let line = line.unwrap();
189 let p: Vec<&str> = line.split('\t').collect();
190 if p.len() >= 2 && p[0] != "cid" { cid2fam.insert(p[0].to_string(), p[1].to_string()); }
191 if p.len() >= 4 && p[0] != "cid" { cid2rep.insert(p[0].to_string(), p[3].to_string()); }
192 }
193 let res = tmp.join("pres");
194 let aln = tmp.join("pres.tsv");
195 let tp = tmp.join("tp");
196 let nt = nthread.to_string();
197 let mut search_args: Vec<&str> = vec!["search", profile_db.to_str().unwrap(),
198 qdb.to_str().unwrap(), res.to_str().unwrap(), tp.to_str().unwrap(),
199 "-s", "7.5", "-e", "10", "--threads", &nt, "-v", "0"];
200 if gpu { search_args.push("--gpu"); search_args.push("1"); }
201 run(&search_args);
202 run(&["convertalis", profile_db.to_str().unwrap(), qdb.to_str().unwrap(),
203 res.to_str().unwrap(), aln.to_str().unwrap(),
204 "--format-output", "query,target,evalue,qcov,pident,tstart,tend", "-v", "0"]);
205 let mut hits: HashMap<String, Vec<Hit>> = HashMap::new();
206 for line in BufReader::new(fs::File::open(&aln).unwrap()).lines() {
207 let line = line.unwrap();
208 let p: Vec<&str> = line.split('\t').collect();
209 if p.len() < 7 { continue; }
210 let pident: f64 = p[4].parse().unwrap_or(0.0);
211 if let Some(rep) = cid2rep.get(p[0]) {
215 let thr = REP_THRESHOLDS.get(rep.as_str()).copied().unwrap_or(0.0) as f64;
216 if pident < thr { continue; }
217 }
218 if let Some(fam) = cid2fam.get(p[0]) {
219 hits.entry(p[1].to_string()).or_default().push(Hit {
220 fam: fam.clone(),
221 evalue: p[2].parse().unwrap_or(1.0),
222 qcov: p[3].parse().unwrap_or(0.0),
223 pident,
224 tstart: p[5].parse().unwrap_or(0),
225 tend: p[6].parse().unwrap_or(0),
226 });
227 }
228 }
229 hits
230}
231
232fn cmp_hit(a: &Hit, b: &Hit) -> std::cmp::Ordering {
237 a.evalue.partial_cmp(&b.evalue).unwrap()
238 .then(b.pident.partial_cmp(&a.pident).unwrap())
239 .then(b.qcov.partial_cmp(&a.qcov).unwrap())
240 .then(a.tstart.cmp(&b.tstart))
241 .then(a.tend.cmp(&b.tend))
242 .then_with(|| a.fam.cmp(&b.fam))
243}
244
245fn family_call(orfhits: &[Hit]) -> Option<(String, String, Hit)> {
247 if orfhits.is_empty() { return None; }
248 let mut perfam: HashMap<String, Hit> = HashMap::new();
249 for h in orfhits {
250 let nf = norm_fam(&h.fam);
251 match perfam.get(&nf) {
252 Some(cur) if cmp_hit(cur, h) != std::cmp::Ordering::Greater => {}
253 _ => { perfam.insert(nf, h.clone()); }
254 }
255 }
256 let mut ranked: Vec<Hit> = perfam.into_values().collect();
257 ranked.sort_by(cmp_hit);
258 let top = ranked[0].clone();
259 if top.evalue > SIG_EVALUE { return None; }
261 if top.qcov < SIG_QCOV { return None; }
263 if top.pident < NOVEL_PIDENT { return Some(("novel".to_string(), "novel".to_string(), top)); }
264 let comp = ranked[1..].iter().find(|x|
266 norm_fam(&x.fam) != norm_fam(&top.fam) && x.evalue <= LIKE_EVALUE && x.qcov >= LIKE_QCOV);
267 match comp {
268 None => Some((top.fam.clone(), "plain".to_string(), top)),
269 Some(c) => {
270 let ov = top.tend.min(c.tend) - top.tstart.max(c.tstart);
271 let span = ((top.tend - top.tstart).min(c.tend - c.tstart)).max(1);
272 if ov > 0 && ov as f64 >= LIKE_SPAN_OVERLAP * span as f64 {
273 Some((format!("{}-like", top.fam), "like".to_string(), top))
274 } else {
275 Some((format!("{}-chimera", top.fam), "chimera".to_string(), top))
276 }
277 }
278 }
279}
280
281#[derive(Clone)]
283pub struct Tir { pub irid: i64, pub irlen: i64, pub start1: i64, pub end1: i64, pub start2: i64, pub end2: i64,
284 pub seq1: Vec<u8>, pub seq2: Vec<u8> }
285
286#[derive(Default)]
287struct SwBuf {
288 ph: Vec<i32>, ch: Vec<i32>, pf: Vec<i32>, cf: Vec<i32>, hp: Vec<u8>, ep: Vec<u8>, fp: Vec<u8>, }
292thread_local! {
293 static SW_SCRATCH: RefCell<SwBuf> = RefCell::new(SwBuf::default());
296}
297
298fn sw_local(q: &[u8], r: &[u8]) -> Option<(i32, usize, usize, usize, usize)> {
303 let (n, m) = (q.len(), r.len());
304 if n == 0 || m == 0 { return None; }
305 const NEG: i32 = i32::MIN / 4; SW_SCRATCH.with(|cell| {
307 let mut s = cell.borrow_mut();
308 let b = &mut *s; let stride = m + 1;
310 if b.ph.len() < stride {
311 b.ph.resize(stride, 0); b.ch.resize(stride, 0);
312 b.pf.resize(stride, 0); b.cf.resize(stride, 0);
313 }
314 let need = (n + 1) * stride;
315 if b.hp.len() < need { b.hp.resize(need, 0); b.ep.resize(need, 0); b.fp.resize(need, 0); }
316 let (ph, ch, pf, cf) = (&mut b.ph, &mut b.ch, &mut b.pf, &mut b.cf);
317 let (hp, ep, fp) = (&mut b.hp, &mut b.ep, &mut b.fp);
318 for x in ph[..stride].iter_mut() { *x = 0; }
320 for x in pf[..stride].iter_mut() { *x = NEG; }
321 let (mut best, mut bi, mut bj) = (0i32, 0usize, 0usize);
322 for i in 1..=n {
323 ch[0] = 0; cf[0] = NEG;
324 let mut e_prev = NEG; let qi = q[i-1];
326 let row = i * stride;
327 for j in 1..=m {
328 let sc = if qi == r[j-1] && matches!(qi, b'A'|b'C'|b'G'|b'T')
329 { SW_MATCH } else { SW_MISMATCH };
330 let e_open = ch[j-1] - SW_OPEN;
332 let e_ext = e_prev - SW_EXTEND;
333 let (e_val, e_code) = if e_ext > e_open { (e_ext, 1u8) } else { (e_open, 0u8) };
334 let f_open = ph[j] - SW_OPEN;
336 let f_ext = pf[j] - SW_EXTEND;
337 let (f_val, f_code) = if f_ext > f_open { (f_ext, 1u8) } else { (f_open, 0u8) };
338 let diag = ph[j-1] + sc;
340 let mut h = 0i32; let mut hc = 0u8;
341 if diag > h { h = diag; hc = 1; }
342 if f_val > h { h = f_val; hc = 3; }
343 if e_val > h { h = e_val; hc = 2; }
344 ch[j] = h; cf[j] = f_val; e_prev = e_val;
345 hp[row + j] = hc; ep[row + j] = e_code; fp[row + j] = f_code;
346 if h >= best && h > 0 { best = h; bi = i; bj = j; }
348 }
349 std::mem::swap(ph, ch);
350 std::mem::swap(pf, cf);
351 }
352 if best <= 0 { return None; }
353 let (mut i, mut j, mut state) = (bi, bj, 0u8);
355 loop {
356 match state {
357 0 => match hp[i*stride + j] {
358 0 => break, 1 => { i -= 1; j -= 1; } 2 => state = 1, _ => state = 2, },
363 1 => { let ext = ep[i*stride + j] == 1; j -= 1; if !ext { state = 0; } }
364 _ => { let ext = fp[i*stride + j] == 1; i -= 1; if !ext { state = 0; } }
365 }
366 if i == 0 || j == 0 { break; }
367 }
368 Some((best, i, bi - 1, j, bj - 1))
369 })
370}
371
372fn find_tir(contig: &[u8], orf_b: i64, orf_e: i64, family: &str,
373 tir_tbl: &HashMap<String,(i64,i64,i64,i64)>) -> Option<Tir> {
374 let fam = family.split('-').next().unwrap();
375 let info = lookup(tir_tbl, fam);
376 if let Some(t) = info { if t.3 == 0 { return None; } }
377 let min_ir = info.map(|t| t.0).unwrap_or(4);
378 if min_ir > 1000 { return None; }
379 let l = contig.len() as i64;
380 let lb = (orf_b - MAX_DIST).max(1);
381 let le = (orf_b + MIN_DIST_ABS).min(l);
382 let rb = (orf_e - MIN_DIST_ABS).max(1);
383 let re = (orf_e + MAX_DIST).min(l);
384 if le < lb || re < rb { return None; }
385 let left = &contig[(lb-1) as usize..le as usize];
386 let right = &contig[(rb-1) as usize..re as usize];
387 if (left.len() as i64) < min_ir || (right.len() as i64) < min_ir { return None; }
388 let rrc = revcomp(right);
389 let (score, qs, qe, ts, te) = sw_local(left, &rrc)?;
390 if score < (2 * min_ir) as i32 { return None; }
391 let ir_len = qe as i64 - qs as i64 + 1;
392 if ir_len < min_ir { return None; }
393 let seq1 = left[qs..=qe].to_vec();
394 let r_local_end = right.len() - 1 - ts;
395 let r_local_beg = right.len() - 1 - te;
396 let start1 = lb + qs as i64; let end1 = lb + qe as i64;
397 let start2 = rb + r_local_beg as i64; let end2 = rb + r_local_end as i64;
398 let seq2 = right[r_local_beg..=r_local_end].to_vec();
399 let seq2rc = revcomp(&seq2);
400 let ir_id = seq1.iter().zip(seq2rc.iter()).filter(|(a, b)| a == b).count() as i64;
401 if ir_len == 0 || (ir_id as f64) / (ir_len as f64) < 0.5 { return None; }
402 Some(Tir { irid: ir_id, irlen: ir_len, start1, end1, start2, end2, seq1, seq2 })
403}
404
405fn lookup<'a>(tbl: &'a HashMap<String,(i64,i64,i64,i64)>, fam: &str) -> Option<&'a (i64,i64,i64,i64)> {
407 tbl.get(&norm_fam(fam))
408}
409
410fn classify_is(label: &str, b: i64, e: i64, tir: &Option<Tir>,
412 tir_tbl: &HashMap<String,(i64,i64,i64,i64)>,
413 tpase_tbl: &HashMap<String,(i64,i64,i64)>) -> (i64, i64, char) {
414 let fam = label.split('-').next().unwrap();
415 if let Some(t) = tir {
416 return (t.start1.min(t.start2), t.end1.max(t.end2), 'c');
417 }
418 let info = lookup(tir_tbl, fam);
419 let has_tir = info.map(|t| t.3).unwrap_or(-1);
420 let lenb = tpase_tbl.get(&norm_fam(fam)).copied();
421 let orflen = e - b + 1;
422 if has_tir == 0 {
423 if let Some((lo, hi, _)) = lenb {
424 if lo <= orflen && orflen <= hi { return (b, e, 'c'); }
425 }
426 }
427 (b, e, 'p')
428}
429
430#[derive(Clone)]
432pub struct Call {
433 pub seqid: String, pub family: String, pub tier: String, pub is_begin: i64, pub is_end: i64, pub is_len: i64,
434 pub orf_begin: i64, pub orf_end: i64, pub strand: char, pub evalue: f64, pub qcov: f64, pub pident: f64,
435 pub typ: char, pub tir: Option<Tir>, pub ncopy: i64,
436 pub fp_flag: String,
438}
439
440fn dedup(mut calls: Vec<Call>, min_overlap: f64) -> Vec<Call> {
441 let mut by_contig: HashMap<String, Vec<Call>> = HashMap::new();
442 for c in calls.drain(..) { by_contig.entry(c.seqid.clone()).or_default().push(c); }
443 let mut kept: Vec<Call> = Vec::new();
444 for (_, mut cs) in by_contig {
445 cs.sort_by(|a, b| a.evalue.partial_cmp(&b.evalue).unwrap()
448 .then(a.orf_begin.cmp(&b.orf_begin))
449 .then(a.orf_end.cmp(&b.orf_end))
450 .then(a.strand.cmp(&b.strand)));
451 let mut acc: Vec<Call> = Vec::new();
452 for c in cs {
453 let (cb, ce) = (c.orf_begin, c.orf_end);
454 let clash = acc.iter().any(|a| {
455 let ov = ce.min(a.orf_end) - cb.max(a.orf_begin);
456 ov > 0 && ov as f64 >= min_overlap * ((ce - cb).min(a.orf_end - a.orf_begin)) as f64
457 });
458 if !clash { acc.push(c); }
459 }
460 kept.extend(acc);
461 }
462 kept
463}
464
465fn merge_adjacent(calls: Vec<Call>, gap: i64, contig_map: &HashMap<&str, &Vec<u8>>,
474 tir_tbl: &HashMap<String,(i64,i64,i64,i64)>,
475 tpase_tbl: &HashMap<String,(i64,i64,i64)>) -> Vec<Call> {
476 let mut by_contig: HashMap<String, Vec<Call>> = HashMap::new();
477 for c in calls { by_contig.entry(c.seqid.clone()).or_default().push(c); }
478 let mut out: Vec<Call> = Vec::new();
479 for (_, cs) in by_contig {
480 let mut cs = cs;
481 cs.sort_by(|a, b| a.orf_begin.cmp(&b.orf_begin)
483 .then(a.orf_end.cmp(&b.orf_end))
484 .then(a.strand.cmp(&b.strand)));
485 let n = cs.len();
486 let mut slots: Vec<Option<Call>> = cs.into_iter().map(Some).collect();
487 let mut i = 0;
488 while i < n {
489 let fam = norm_fam(&slots[i].as_ref().unwrap().family);
490 let strand = slots[i].as_ref().unwrap().strand;
491 let mut chain_end = slots[i].as_ref().unwrap().orf_end;
492 let mut j = i + 1;
493 while j < n {
494 let cj = slots[j].as_ref().unwrap();
495 if norm_fam(&cj.family) == fam && cj.strand == strand
496 && cj.orf_begin - chain_end <= gap {
497 chain_end = chain_end.max(cj.orf_end);
498 j += 1;
499 } else { break; }
500 }
501 if j - i == 1 {
502 out.push(slots[i].take().unwrap());
503 } else {
504 let chain: Vec<Call> = (i..j).map(|k| slots[k].take().unwrap()).collect();
505 let mb = chain.iter().map(|c| c.orf_begin).min().unwrap();
506 let me = chain.iter().map(|c| c.orf_end).max().unwrap();
507 let bi = (0..chain.len()).min_by(|&a, &b|
509 chain[a].evalue.partial_cmp(&chain[b].evalue).unwrap()
510 .then(chain[a].orf_begin.cmp(&chain[b].orf_begin))
511 .then(chain[a].orf_end.cmp(&chain[b].orf_end))
512 .then(chain[a].strand.cmp(&chain[b].strand))).unwrap();
513 let base = &chain[bi];
514 let label = base.family.clone();
515 let tir = contig_map.get(base.seqid.as_str())
516 .and_then(|seq| find_tir(seq, mb, me, &label, tir_tbl));
517 let (is_b, is_e, typ) = classify_is(&label, mb, me, &tir, tir_tbl, tpase_tbl);
518 out.push(Call {
519 seqid: base.seqid.clone(), family: label, tier: base.tier.clone(),
520 is_begin: is_b, is_end: is_e, is_len: is_e - is_b + 1,
521 orf_begin: mb, orf_end: me, strand: base.strand,
522 evalue: base.evalue, qcov: base.qcov, pident: base.pident,
523 typ, tir, ncopy: 1,
524 fp_flag: "IS".into(),
525 });
526 }
527 i = j;
528 }
529 }
530 out
531}
532
533const MIN_TSD: usize = 4;
540const MAX_TSD: usize = 14;
541fn has_tsd(seq: &[u8], is_begin: i64, is_end: i64) -> bool {
542 const W: i64 = 12; const SHIFT: usize = 2; let n = seq.len() as i64;
545 let (lb, le) = ((is_begin - 1 - W).max(0), (is_begin - 1).max(0)); let (rb, re) = (is_end.min(n), (is_end + W).min(n)); if le <= lb || re <= rb { return false; }
548 let left = &seq[lb as usize..le as usize]; let right = &seq[rb as usize..re as usize]; for l in (MIN_TSD..=MAX_TSD).rev() {
551 for ls in 0..=SHIFT {
552 if left.len() < l + ls { break; }
553 let lc = &left[left.len() - l - ls..left.len() - ls]; for rs in 0..=SHIFT {
555 if right.len() < l + rs { break; }
556 let rc = &right[rs..rs + l]; if lc == rc { return true; }
558 }
559 }
560 }
561 false
562}
563
564fn fp_control_module(calls: &mut [Call], contig_map: &HashMap<&str, &Vec<u8>>,
578 db_dir: &Path, tmp: &Path, nthread: usize) {
579 let fpc = db_dir.join("fpc");
580 if !fpc.join("refset.dbtype").exists() { return; } let qfa = tmp.join("fpcq.fna");
583 let mut nq = 0usize;
584 {
585 let mut o = BufWriter::new(fs::File::create(&qfa).unwrap());
586 for (i, c) in calls.iter().enumerate() {
587 if let Some(seq) = contig_map.get(c.seqid.as_str()) {
588 let b = c.is_begin.max(1) as usize; let e = c.is_end as usize;
589 if e <= seq.len() && e >= b {
590 let mut sub = seq[b-1..e].to_vec();
591 if c.strand == '-' { sub = revcomp(&sub); }
592 if sub.len() >= 60 {
593 writeln!(o, ">c{}", i).unwrap();
594 o.write_all(&sub).unwrap(); o.write_all(b"\n").unwrap();
595 nq += 1;
596 }
597 }
598 }
599 }
600 }
601 if nq == 0 { return; } let run = |args: &[&str]| {
603 let st = Command::new("mmseqs").args(args)
604 .stdout(std::process::Stdio::null()).stderr(std::process::Stdio::null())
605 .status().expect("spawn mmseqs");
606 assert!(st.success(), "mmseqs {:?} failed", &args[0]);
607 };
608 let nt = nthread.to_string();
609 let qdb = tmp.join("fpcqdb");
610 run(&["createdb", qfa.to_str().unwrap(), qdb.to_str().unwrap(), "--dbtype", "2", "-v", "0"]);
611 let mut posb: HashMap<usize,f64> = HashMap::new();
614 let mut negb: HashMap<usize,f64> = HashMap::new();
615 let (res, aln, tp) = (tmp.join("fpcres"), tmp.join("fpcaln.tsv"), tmp.join("fpctp"));
616 run(&["search", qdb.to_str().unwrap(), fpc.join("refset").to_str().unwrap(), res.to_str().unwrap(),
617 tp.to_str().unwrap(), "--search-type", "3", "-s", "7", "--max-seqs", "50",
618 "-e", "1e-3", "--threads", &nt, "-v", "0"]);
619 run(&["convertalis", qdb.to_str().unwrap(), fpc.join("refset").to_str().unwrap(), res.to_str().unwrap(),
620 aln.to_str().unwrap(), "--format-output", "query,target,bits", "-v", "0"]);
621 for line in BufReader::new(fs::File::open(&aln).unwrap()).lines() {
622 let line = line.unwrap(); let p: Vec<&str> = line.split('\t').collect();
623 if p.len() < 3 { continue; }
624 let idx = match p[0].strip_prefix('c').and_then(|s| s.parse::<usize>().ok()) { Some(i)=>i, None=>continue };
625 let bits: f64 = p[2].parse().unwrap_or(0.0);
626 let tbl = if let Some(_) = p[1].strip_prefix("P|") { &mut posb }
627 else if let Some(_) = p[1].strip_prefix("N|") { &mut negb } else { continue };
628 let ent = tbl.entry(idx).or_insert(0.0);
629 if bits > *ent { *ent = bits; }
630 }
631 for (i, c) in calls.iter_mut().enumerate() {
632 let pb = *posb.get(&i).unwrap_or(&0.0);
633 let nb = *negb.get(&i).unwrap_or(&0.0);
634 let structural = c.tir.is_some()
636 || contig_map.get(c.seqid.as_str()).map(|s| has_tsd(s, c.is_begin, c.is_end)).unwrap_or(false);
637 c.fp_flag = fp_verdict(pb, nb, structural).into();
638 }
639}
640
641fn fp_verdict(pb: f64, nb: f64, structural: bool) -> &'static str {
644 if pb > 0.0 && pb >= nb { "IS"
646 } else if nb > pb { if !structural && pb == 0.0 { "host" } else { "shared" } } else { if structural { "putative" } else { "unresolved" } }
653}
654
655fn py_e(x: f64) -> String {
659 let s = format!("{:.1e}", x);
660 let (m, e) = s.split_once('e').unwrap();
661 let exp: i32 = e.parse().unwrap_or(0);
662 format!("{}e{}{:02}", m, if exp < 0 { "-" } else { "+" }, exp.abs())
663}
664
665pub fn write_tsv(calls: &[Call], path: &Path) {
666 let mut o = BufWriter::new(fs::File::create(path).unwrap());
667 writeln!(o, "seqID\tfamily\ttier\tisBegin\tisEnd\tisLen\tncopy4is\torfBegin\torfEnd\tstrand\tE-value\tqcov\tpident\ttype\tirLen\tirId\tstart2\tend2\ttir\tfpFlag").unwrap();
668 let mut idx: Vec<usize> = (0..calls.len()).collect();
669 idx.sort_by(|&a, &b| (calls[a].seqid.as_str(), calls[a].is_begin)
670 .cmp(&(calls[b].seqid.as_str(), calls[b].is_begin)));
671 for &i in &idx {
672 let c = &calls[i];
673 let (irlen, irid, s2, e2, tirstr) = match &c.tir {
674 Some(t) => (t.irlen, t.irid, t.start2, t.end2,
675 format!("{}:{}", String::from_utf8_lossy(&t.seq1), String::from_utf8_lossy(&t.seq2))),
676 None => (0, 0, 0, 0, "-".to_string()),
677 };
678 writeln!(o, "{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t{:.2}\t{:.0}\t{}\t{}\t{}\t{}\t{}\t{}\t{}",
679 c.seqid, c.family, c.tier, c.is_begin, c.is_end, c.is_len, c.ncopy,
680 c.orf_begin, c.orf_end, c.strand, py_e(c.evalue), c.qcov, c.pident, c.typ,
681 irlen, irid, s2, e2, tirstr, c.fp_flag).unwrap();
682 }
683}
684
685pub fn write_gff(calls: &[Call], path: &Path) {
686 let mut o = BufWriter::new(fs::File::create(path).unwrap());
687 writeln!(o, "##gff-version 3").unwrap();
688 let mut idx: Vec<usize> = (0..calls.len()).collect();
689 idx.sort_by(|&a, &b| (calls[a].seqid.as_str(), calls[a].is_begin)
690 .cmp(&(calls[b].seqid.as_str(), calls[b].is_begin)));
691 for (n, &i) in idx.iter().enumerate() {
692 let c = &calls[i];
693 let id = n + 1;
694 writeln!(o, "{}\tisscan\tinsertion_sequence\t{}\t{}\t.\t{}\t.\tID=IS_{};family={};type={};tier={};ncopy={};evalue={};orf={}..{}",
695 c.seqid, c.is_begin, c.is_end, c.strand, id, c.family, c.typ, c.tier, c.ncopy, py_e(c.evalue), c.orf_begin, c.orf_end).unwrap();
696 if c.fp_flag != "IS" {
697 writeln!(o, "# IS_{} fpFlag={}", id, c.fp_flag).unwrap();
698 }
699 if let Some(t) = &c.tir {
700 writeln!(o, "{}\tisscan\tterminal_inverted_repeat\t{}\t{}\t.\t{}\t.\tParent=IS_{};irLen={};irId={}",
701 c.seqid, t.start1, t.end1, c.strand, id, t.irlen, t.irid).unwrap();
702 writeln!(o, "{}\tisscan\tterminal_inverted_repeat\t{}\t{}\t.\t{}\t.\tParent=IS_{};irLen={};irId={}",
703 c.seqid, t.start2, t.end2, c.strand, id, t.irlen, t.irid).unwrap();
704 }
705 }
706}
707
708pub fn write_sum(calls: &[Call], path: &Path) {
709 let mut o = BufWriter::new(fs::File::create(path).unwrap());
710 let mut byfam: HashMap<String, Vec<usize>> = HashMap::new();
711 for (i, c) in calls.iter().enumerate() {
712 byfam.entry(c.family.split('-').next().unwrap().to_string()).or_default().push(i);
713 }
714 let mut fams: Vec<&String> = byfam.keys().collect();
715 fams.sort_by(|a, b| byfam[*b].len().cmp(&byfam[*a].len()).then_with(|| a.cmp(b)));
717 writeln!(o, "family\tnIS\tcomplete\tpartial\tmeanIsLen").unwrap();
718 let (mut tot, mut nc, mut np) = (0i64, 0i64, 0i64);
719 for f in fams {
720 let cs = &byfam[f];
721 let comp = cs.iter().filter(|&&i| calls[i].typ == 'c').count() as i64;
722 let part = cs.len() as i64 - comp;
723 let mean: i64 = cs.iter().map(|&i| calls[i].is_len).sum::<i64>() / cs.len() as i64;
724 writeln!(o, "{}\t{}\t{}\t{}\t{}", f, cs.len(), comp, part, mean).unwrap();
725 tot += cs.len() as i64; nc += comp; np += part;
726 }
727 writeln!(o, "TOTAL\t{}\t{}\t{}\t-", tot, nc, np).unwrap();
728 if calls.iter().any(|c| c.fp_flag != "IS") {
730 let cnt = |f: &str| calls.iter().filter(|c| c.fp_flag == f).count();
731 writeln!(o, "#fpControl\tIS\tputative\tshared\thost\tunresolved").unwrap();
732 writeln!(o, "#fpControl\t{}\t{}\t{}\t{}\t{}",
733 cnt("IS"), cnt("putative"), cnt("shared"), cnt("host"), cnt("unresolved")).unwrap();
734 }
735}
736
737fn tir_table() -> HashMap<String,(i64,i64,i64,i64)> {
739 [("IS1",(8,67,14,1)),("IS110",(2,31,14,-1)),("IS1182",(8,44,10,1)),("IS1380",(7,39,10,1)),
740 ("IS1595",(10,43,15,1)),("IS1634",(11,32,12,1)),("IS200/IS605",(10000,0,10000,0)),
741 ("IS21",(8,76,10,1)),("IS256",(8,48,15,1)),("IS3",(7,54,10,-1)),("IS30",(11,50,12,1)),
742 ("IS4",(8,67,12,1)),("IS481",(5,52,10,1)),("IS5",(7,45,14,1)),("IS6",(12,36,14,1)),
743 ("IS607",(12,46,12,-1)),("IS630",(3,92,11,1)),("IS66",(11,144,11,1)),("IS701",(12,38,12,1)),
744 ("IS91",(11,21,11,-1)),("IS982",(11,35,11,1)),("ISAS1",(12,34,12,1)),("ISAZO13",(18,48,18,1)),
745 ("ISH3",(11,31,15,1)),("ISKRA4",(15,40,18,1)),("ISL3",(6,50,11,1)),("ISNCY",(4,52,13,-1)),
746 ("new",(10,50,20,-1))]
747 .iter().map(|(k,v)| (norm_fam(k), *v)).collect() }
749fn tpase_table() -> HashMap<String,(i64,i64,i64)> {
750 [("IS1",(666,1119,252)),("IS110",(603,1380,156)),("IS1182",(822,1731,570)),("IS1380",(1158,1554,1158)),
751 ("IS1595",(576,1158,426)),("IS1634",(1314,1875,1314)),("IS200/IS605",(366,1482,147)),("IS21",(882,1758,231)),
752 ("IS256",(990,1389,990)),("IS3",(441,1581,120)),("IS30",(540,1419,189)),("IS4",(570,1629,219)),
753 ("IS481",(447,1794,447)),("IS5",(360,1908,75)),("IS6",(528,1062,246)),("IS607",(768,1653,453)),
754 ("IS630",(510,1194,318)),("IS66",(354,1695,165)),("IS701",(921,1410,921)),("IS91",(648,1548,648)),
755 ("IS982",(627,981,429)),("ISAS1",(594,1329,189)),("ISAZO13",(1203,2094,513)),("ISH3",(573,1206,549)),
756 ("ISKRA4",(1047,1719,114)),("ISL3",(414,1716,408)),("ISNCY",(573,1815,123)),("new",(300,2100,50))]
757 .iter().map(|(k,v)| (norm_fam(k), *v)).collect() }
759
760pub struct IseConfig {
763 pub threads: usize,
765 pub gpu: bool,
767 pub strict: bool,
769 pub db_dir: PathBuf,
771}
772
773pub fn run(seqfile: &Path, work_dir: &Path, config: &IseConfig) -> Result<Vec<Call>, String> {
781 if !config
782 .db_dir
783 .join("mmdb_union")
784 .join("profileDb.dbtype")
785 .exists()
786 {
787 return Err(format!(
788 "'{}' is not a valid isscan DB (missing mmdb_union/profileDb)",
789 config.db_dir.display()
790 ));
791 }
792 fs::create_dir_all(work_dir).map_err(|e| format!("create {}: {e}", work_dir.display()))?;
793 let tmp = work_dir.join("isscan_tmp");
794 fs::create_dir_all(&tmp).map_err(|e| format!("create {}: {e}", tmp.display()))?;
795
796 let seqfile = seqfile.to_str().ok_or("non-UTF8 seqfile path")?;
797 let contigs = read_fasta(seqfile);
798 let contig_map: HashMap<&str, &Vec<u8>> =
799 contigs.iter().map(|(k, v)| (k.as_str(), v)).collect();
800
801 let meta = rustygal::meta_api::meta_bins();
803 let per_contig: Vec<Vec<u8>> = contigs
804 .par_iter()
805 .enumerate()
806 .map(|(i, (hdr, dna))| rustygal::meta_api::run_meta(i as i32 + 1, hdr, dna, &meta).trans_faa)
807 .collect();
808 let faa: Vec<u8> = per_contig.concat();
809 let mut orfs = parse_rustygal_faa(&faa);
810 let edges: Vec<(String, Vec<Orf>)> = contigs
811 .par_iter()
812 .map(|(cid, seq)| {
813 let empty = Vec::new();
814 let pyr = orfs.get(cid).unwrap_or(&empty);
815 (cid.clone(), edge_orfs(seq, pyr, 30, 3))
816 })
817 .collect();
818 for (cid, mut e) in edges {
819 orfs.entry(cid).or_default().append(&mut e);
820 }
821 let proteome = work_dir.join("proteome.faa");
824 {
825 let mut o = BufWriter::new(fs::File::create(&proteome).map_err(|e| e.to_string())?);
826 for (cid, _) in &contigs {
827 if let Some(list) = orfs.get(cid) {
828 for orf in list {
829 let suffix = if orf.edge { "_edge" } else { "" };
830 writeln!(o, ">{}_{}_{}_{}{}", cid, orf.begin, orf.end, orf.strand, suffix)
831 .map_err(|e| e.to_string())?;
832 o.write_all(&orf.prot).map_err(|e| e.to_string())?;
833 o.write_all(b"\n").map_err(|e| e.to_string())?;
834 }
835 }
836 }
837 }
838
839 let hits = mmseqs_search(&proteome, &config.db_dir, &tmp, config.threads, config.gpu);
841
842 let tir_tbl = tir_table();
844 let tpase_tbl = tpase_table();
845 let hit_vec: Vec<(&String, &Vec<Hit>)> = hits.iter().collect();
846 let raw_calls: Vec<Call> = hit_vec
847 .par_iter()
848 .filter_map(|(orf, oh)| {
849 let (label, tier, best) = family_call(oh)?;
850 if tier == "novel" {
851 return None;
852 }
853 let core: &str = if orf.ends_with("_edge") {
855 &orf[..orf.len() - 5]
856 } else {
857 orf
858 };
859 let mut it = core.rsplitn(4, '_');
860 let strand = it.next()?;
861 let e: i64 = it.next()?.parse().ok()?;
862 let b: i64 = it.next()?.parse().ok()?;
863 let contig = it.next()?;
864 let strand_c = strand.chars().next().unwrap_or('+');
865 let tir = contig_map
866 .get(contig)
867 .and_then(|seq| find_tir(seq, b, e, &label, &tir_tbl));
868 let (is_b, is_e, typ) = classify_is(&label, b, e, &tir, &tir_tbl, &tpase_tbl);
869 Some(Call {
870 seqid: contig.to_string(),
871 family: label,
872 tier,
873 is_begin: is_b,
874 is_end: is_e,
875 is_len: is_e - is_b + 1,
876 orf_begin: b,
877 orf_end: e,
878 strand: strand_c,
879 evalue: best.evalue,
880 qcov: best.qcov,
881 pident: best.pident,
882 typ,
883 tir,
884 ncopy: 1,
885 fp_flag: "IS".into(),
886 })
887 })
888 .collect();
889 let calls = dedup(raw_calls, 0.5);
890 let mut calls = merge_adjacent(calls, 50, &contig_map, &tir_tbl, &tpase_tbl);
892
893 fp_control_module(&mut calls, &contig_map, &config.db_dir, &tmp, config.threads);
895 if config.strict {
896 calls.retain(|c| c.fp_flag != "host"); }
898 Ok(calls)
899}
900
901#[cfg(test)]
903mod tests {
904 use super::*;
905
906 #[test]
907 fn fp_verdict_five_tiers() {
908 assert_eq!(fp_verdict(100.0, 0.0, false), "IS");
910 assert_eq!(fp_verdict(100.0, 100.0, false), "IS");
911 assert_eq!(fp_verdict(50.0, 100.0, false), "shared");
913 assert_eq!(fp_verdict(0.0, 100.0, false), "host");
915 assert_eq!(fp_verdict(0.0, 100.0, true), "shared");
917 assert_eq!(fp_verdict(0.0, 0.0, true), "putative");
919 assert_eq!(fp_verdict(0.0, 0.0, false), "unresolved");
920 }
921
922 #[test]
923 fn tsd_detected_and_rejected() {
924 let s = b"GGGGGGACGTACTTTTTTTTTTACGTACCCCCC";
926 assert!(has_tsd(s, 13, 22), "flanking 6bp direct repeat should be found");
927 let s2 = b"GGGGGGGGGGGGTTTTTTTTTTCCCCCCCCCCCC";
929 assert!(!has_tsd(s2, 13, 22), "distinct flanks have no TSD");
930 let s3 = b"GGGGGGGGGACGTTTTTTTTTTACGCCCCCCCCC";
932 assert!(!has_tsd(s3, 13, 22), "3bp repeat must not count as TSD");
933 }
934
935 #[test]
936 fn revcomp_translate_norm() {
937 assert_eq!(revcomp(b"ACGT"), b"ACGT"); assert_eq!(revcomp(b"AAAA"), b"TTTT");
939 assert_eq!(revcomp(b"ATGC"), b"GCAT");
940 assert_eq!(translate(b"ATGAAA"), b"MK"); assert_eq!(norm_fam("IS200/IS605"), "IS200IS605");
942 assert_eq!(norm_fam("is_3"), "IS3");
943 }
944
945 #[test]
946 fn py_e_matches_python_format() {
947 assert_eq!(py_e(0.0), "0.0e+00");
948 assert_eq!(py_e(1e-5), "1.0e-05");
949 }
950
951 fn hit(evalue: f64, qcov: f64, pident: f64) -> Hit {
953 Hit { fam: "IS3".into(), evalue, qcov, pident, tstart: 1, tend: 300 }
954 }
955
956 #[test]
957 fn family_call_sig_evalue_floor() {
958 assert!(family_call(&[hit(SIG_EVALUE, 0.9, 90.0)]).is_some(),
960 "E-value == SIG_EVALUE must pass");
961 assert!(family_call(&[hit(SIG_EVALUE * 10.0, 0.9, 90.0)]).is_none(),
962 "E-value weaker than SIG_EVALUE must be rejected");
963 assert!(family_call(&[hit(1e-10, 0.9, 90.0)]).is_none(),
965 "1e-10 hits must no longer qualify after tightening to 1e-30");
966 }
967
968 #[test]
969 fn family_call_qcov_floor() {
970 assert!(family_call(&[hit(1e-50, SIG_QCOV - 0.01, 90.0)]).is_none(),
972 "qcov below SIG_QCOV must be rejected even when E-value is strong");
973 assert!(family_call(&[hit(1e-50, SIG_QCOV, 90.0)]).is_some(),
975 "qcov == SIG_QCOV must pass");
976 assert!(family_call(&[hit(1e-50, 0.55, 90.0)]).is_some(),
978 "mid-coverage (0.55) real IS hits must be retained");
979 }
980}