Mercurial > repos > lsong10 > psiclass
comparison PsiCLASS-1.0.2/samtools-0.1.19/phase.c @ 0:903fc43d6227 draft default tip
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author | lsong10 |
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date | Fri, 26 Mar 2021 16:52:45 +0000 |
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1 #include <stdio.h> | |
2 #include <stdlib.h> | |
3 #include <unistd.h> | |
4 #include <stdint.h> | |
5 #include <math.h> | |
6 #include <zlib.h> | |
7 #include "bam.h" | |
8 #include "errmod.h" | |
9 | |
10 #include "kseq.h" | |
11 KSTREAM_INIT(gzFile, gzread, 16384) | |
12 | |
13 #define MAX_VARS 256 | |
14 #define FLIP_PENALTY 2 | |
15 #define FLIP_THRES 4 | |
16 #define MASK_THRES 3 | |
17 | |
18 #define FLAG_FIX_CHIMERA 0x1 | |
19 #define FLAG_LIST_EXCL 0x4 | |
20 #define FLAG_DROP_AMBI 0x8 | |
21 | |
22 typedef struct { | |
23 // configurations, initialized in the main function | |
24 int flag, k, min_baseQ, min_varLOD, max_depth; | |
25 // other global variables | |
26 int vpos_shift; | |
27 bamFile fp; | |
28 char *pre; | |
29 bamFile out[3]; | |
30 // alignment queue | |
31 int n, m; | |
32 bam1_t **b; | |
33 } phaseg_t; | |
34 | |
35 typedef struct { | |
36 int8_t seq[MAX_VARS]; // TODO: change to dynamic memory allocation! | |
37 int vpos, beg, end; | |
38 uint32_t vlen:16, single:1, flip:1, phase:1, phased:1, ambig:1; | |
39 uint32_t in:16, out:16; // in-phase and out-phase | |
40 } frag_t, *frag_p; | |
41 | |
42 #define rseq_lt(a,b) ((a)->vpos < (b)->vpos) | |
43 | |
44 #include "khash.h" | |
45 KHASH_SET_INIT_INT64(set64) | |
46 KHASH_MAP_INIT_INT64(64, frag_t) | |
47 | |
48 typedef khash_t(64) nseq_t; | |
49 | |
50 #include "ksort.h" | |
51 KSORT_INIT(rseq, frag_p, rseq_lt) | |
52 | |
53 static char nt16_nt4_table[] = { 4, 0, 1, 4, 2, 4, 4, 4, 3, 4, 4, 4, 4, 4, 4, 4 }; | |
54 | |
55 static inline uint64_t X31_hash_string(const char *s) | |
56 { | |
57 uint64_t h = *s; | |
58 if (h) for (++s ; *s; ++s) h = (h << 5) - h + *s; | |
59 return h; | |
60 } | |
61 | |
62 static void count1(int l, const uint8_t *seq, int *cnt) | |
63 { | |
64 int i, j, n_ambi; | |
65 uint32_t z, x; | |
66 if (seq[l-1] == 0) return; // do nothing is the last base is ambiguous | |
67 for (i = n_ambi = 0; i < l; ++i) // collect ambiguous bases | |
68 if (seq[i] == 0) ++n_ambi; | |
69 if (l - n_ambi <= 1) return; // only one SNP | |
70 for (x = 0; x < 1u<<n_ambi; ++x) { // count | |
71 for (i = j = 0, z = 0; i < l; ++i) { | |
72 int c; | |
73 if (seq[i]) c = seq[i] - 1; | |
74 else { | |
75 c = x>>j&1; | |
76 ++j; | |
77 } | |
78 z = z<<1 | c; | |
79 } | |
80 ++cnt[z]; | |
81 } | |
82 } | |
83 | |
84 static int **count_all(int l, int vpos, nseq_t *hash) | |
85 { | |
86 khint_t k; | |
87 int i, j, **cnt; | |
88 uint8_t *seq; | |
89 seq = calloc(l, 1); | |
90 cnt = calloc(vpos, sizeof(void*)); | |
91 for (i = 0; i < vpos; ++i) cnt[i] = calloc(1<<l, sizeof(int)); | |
92 for (k = 0; k < kh_end(hash); ++k) { | |
93 if (kh_exist(hash, k)) { | |
94 frag_t *f = &kh_val(hash, k); | |
95 if (f->vpos >= vpos || f->single) continue; // out of region; or singleton | |
96 if (f->vlen == 1) { // such reads should be flagged as deleted previously if everything is right | |
97 f->single = 1; | |
98 continue; | |
99 } | |
100 for (j = 1; j < f->vlen; ++j) { | |
101 for (i = 0; i < l; ++i) | |
102 seq[i] = j < l - 1 - i? 0 : f->seq[j - (l - 1 - i)]; | |
103 count1(l, seq, cnt[f->vpos + j]); | |
104 } | |
105 } | |
106 } | |
107 free(seq); | |
108 return cnt; | |
109 } | |
110 | |
111 // phasing | |
112 static int8_t *dynaprog(int l, int vpos, int **w) | |
113 { | |
114 int *f[2], *curr, *prev, max, i; | |
115 int8_t **b, *h = 0; | |
116 uint32_t x, z = 1u<<(l-1), mask = (1u<<l) - 1; | |
117 f[0] = calloc(z, sizeof(int)); | |
118 f[1] = calloc(z, sizeof(int)); | |
119 b = calloc(vpos, sizeof(void*)); | |
120 prev = f[0]; curr = f[1]; | |
121 // fill the backtrack matrix | |
122 for (i = 0; i < vpos; ++i) { | |
123 int *wi = w[i], *tmp; | |
124 int8_t *bi; | |
125 bi = b[i] = calloc(z, 1); | |
126 /* In the following, x is the current state, which is the | |
127 * lexicographically smaller local haplotype. xc is the complement of | |
128 * x, or the larger local haplotype; y0 and y1 are the two predecessors | |
129 * of x. */ | |
130 for (x = 0; x < z; ++x) { // x0 is the smaller | |
131 uint32_t y0, y1, xc; | |
132 int c0, c1; | |
133 xc = ~x&mask; y0 = x>>1; y1 = xc>>1; | |
134 c0 = prev[y0] + wi[x] + wi[xc]; | |
135 c1 = prev[y1] + wi[x] + wi[xc]; | |
136 if (c0 > c1) bi[x] = 0, curr[x] = c0; | |
137 else bi[x] = 1, curr[x] = c1; | |
138 } | |
139 tmp = prev; prev = curr; curr = tmp; // swap | |
140 } | |
141 { // backtrack | |
142 uint32_t max_x = 0; | |
143 int which = 0; | |
144 h = calloc(vpos, 1); | |
145 for (x = 0, max = 0, max_x = 0; x < z; ++x) | |
146 if (prev[x] > max) max = prev[x], max_x = x; | |
147 for (i = vpos - 1, x = max_x; i >= 0; --i) { | |
148 h[i] = which? (~x&1) : (x&1); | |
149 which = b[i][x]? !which : which; | |
150 x = b[i][x]? (~x&mask)>>1 : x>>1; | |
151 } | |
152 } | |
153 // free | |
154 for (i = 0; i < vpos; ++i) free(b[i]); | |
155 free(f[0]); free(f[1]); free(b); | |
156 return h; | |
157 } | |
158 | |
159 // phase each fragment | |
160 static uint64_t *fragphase(int vpos, const int8_t *path, nseq_t *hash, int flip) | |
161 { | |
162 khint_t k; | |
163 uint64_t *pcnt; | |
164 uint32_t *left, *rght, max; | |
165 left = rght = 0; max = 0; | |
166 pcnt = calloc(vpos, 8); | |
167 for (k = 0; k < kh_end(hash); ++k) { | |
168 if (kh_exist(hash, k)) { | |
169 int i, c[2]; | |
170 frag_t *f = &kh_val(hash, k); | |
171 if (f->vpos >= vpos) continue; | |
172 // get the phase | |
173 c[0] = c[1] = 0; | |
174 for (i = 0; i < f->vlen; ++i) { | |
175 if (f->seq[i] == 0) continue; | |
176 ++c[f->seq[i] == path[f->vpos + i] + 1? 0 : 1]; | |
177 } | |
178 f->phase = c[0] > c[1]? 0 : 1; | |
179 f->in = c[f->phase]; f->out = c[1 - f->phase]; | |
180 f->phased = f->in == f->out? 0 : 1; | |
181 f->ambig = (f->in && f->out && f->out < 3 && f->in <= f->out + 1)? 1 : 0; | |
182 // fix chimera | |
183 f->flip = 0; | |
184 if (flip && c[0] >= 3 && c[1] >= 3) { | |
185 int sum[2], m, mi, md; | |
186 if (f->vlen > max) { // enlarge the array | |
187 max = f->vlen; | |
188 kroundup32(max); | |
189 left = realloc(left, max * 4); | |
190 rght = realloc(rght, max * 4); | |
191 } | |
192 for (i = 0, sum[0] = sum[1] = 0; i < f->vlen; ++i) { // get left counts | |
193 if (f->seq[i]) { | |
194 int c = f->phase? 2 - f->seq[i] : f->seq[i] - 1; | |
195 ++sum[c == path[f->vpos + i]? 0 : 1]; | |
196 } | |
197 left[i] = sum[1]<<16 | sum[0]; | |
198 } | |
199 for (i = f->vlen - 1, sum[0] = sum[1] = 0; i >= 0; --i) { // get right counts | |
200 if (f->seq[i]) { | |
201 int c = f->phase? 2 - f->seq[i] : f->seq[i] - 1; | |
202 ++sum[c == path[f->vpos + i]? 0 : 1]; | |
203 } | |
204 rght[i] = sum[1]<<16 | sum[0]; | |
205 } | |
206 // find the best flip point | |
207 for (i = m = 0, mi = -1, md = -1; i < f->vlen - 1; ++i) { | |
208 int a[2]; | |
209 a[0] = (left[i]&0xffff) + (rght[i+1]>>16&0xffff) - (rght[i+1]&0xffff) * FLIP_PENALTY; | |
210 a[1] = (left[i]>>16&0xffff) + (rght[i+1]&0xffff) - (rght[i+1]>>16&0xffff) * FLIP_PENALTY; | |
211 if (a[0] > a[1]) { | |
212 if (a[0] > m) m = a[0], md = 0, mi = i; | |
213 } else { | |
214 if (a[1] > m) m = a[1], md = 1, mi = i; | |
215 } | |
216 } | |
217 if (m - c[0] >= FLIP_THRES && m - c[1] >= FLIP_THRES) { // then flip | |
218 f->flip = 1; | |
219 if (md == 0) { // flip the tail | |
220 for (i = mi + 1; i < f->vlen; ++i) | |
221 if (f->seq[i] == 1) f->seq[i] = 2; | |
222 else if (f->seq[i] == 2) f->seq[i] = 1; | |
223 } else { // flip the head | |
224 for (i = 0; i <= mi; ++i) | |
225 if (f->seq[i] == 1) f->seq[i] = 2; | |
226 else if (f->seq[i] == 2) f->seq[i] = 1; | |
227 } | |
228 } | |
229 } | |
230 // update pcnt[] | |
231 if (!f->single) { | |
232 for (i = 0; i < f->vlen; ++i) { | |
233 int c; | |
234 if (f->seq[i] == 0) continue; | |
235 c = f->phase? 2 - f->seq[i] : f->seq[i] - 1; | |
236 if (c == path[f->vpos + i]) { | |
237 if (f->phase == 0) ++pcnt[f->vpos + i]; | |
238 else pcnt[f->vpos + i] += 1ull<<32; | |
239 } else { | |
240 if (f->phase == 0) pcnt[f->vpos + i] += 1<<16; | |
241 else pcnt[f->vpos + i] += 1ull<<48; | |
242 } | |
243 } | |
244 } | |
245 } | |
246 } | |
247 free(left); free(rght); | |
248 return pcnt; | |
249 } | |
250 | |
251 static uint64_t *genmask(int vpos, const uint64_t *pcnt, int *_n) | |
252 { | |
253 int i, max = 0, max_i = -1, m = 0, n = 0, beg = 0, score = 0; | |
254 uint64_t *list = 0; | |
255 for (i = 0; i < vpos; ++i) { | |
256 uint64_t x = pcnt[i]; | |
257 int c[4], pre = score, s; | |
258 c[0] = x&0xffff; c[1] = x>>16&0xffff; c[2] = x>>32&0xffff; c[3] = x>>48&0xffff; | |
259 s = (c[1] + c[3] == 0)? -(c[0] + c[2]) : (c[1] + c[3] - 1); | |
260 if (c[3] > c[2]) s += c[3] - c[2]; | |
261 if (c[1] > c[0]) s += c[1] - c[0]; | |
262 score += s; | |
263 if (score < 0) score = 0; | |
264 if (pre == 0 && score > 0) beg = i; // change from zero to non-zero | |
265 if ((i == vpos - 1 || score == 0) && max >= MASK_THRES) { | |
266 if (n == m) { | |
267 m = m? m<<1 : 4; | |
268 list = realloc(list, m * 8); | |
269 } | |
270 list[n++] = (uint64_t)beg<<32 | max_i; | |
271 i = max_i; // reset i to max_i | |
272 score = 0; | |
273 } else if (score > max) max = score, max_i = i; | |
274 if (score == 0) max = 0; | |
275 } | |
276 *_n = n; | |
277 return list; | |
278 } | |
279 | |
280 // trim heading and tailing ambiguous bases; mark deleted and remove sequence | |
281 static int clean_seqs(int vpos, nseq_t *hash) | |
282 { | |
283 khint_t k; | |
284 int ret = 0; | |
285 for (k = 0; k < kh_end(hash); ++k) { | |
286 if (kh_exist(hash, k)) { | |
287 frag_t *f = &kh_val(hash, k); | |
288 int beg, end, i; | |
289 if (f->vpos >= vpos) { | |
290 ret = 1; | |
291 continue; | |
292 } | |
293 for (i = 0; i < f->vlen; ++i) | |
294 if (f->seq[i] != 0) break; | |
295 beg = i; | |
296 for (i = f->vlen - 1; i >= 0; --i) | |
297 if (f->seq[i] != 0) break; | |
298 end = i + 1; | |
299 if (end - beg <= 0) kh_del(64, hash, k); | |
300 else { | |
301 if (beg != 0) memmove(f->seq, f->seq + beg, end - beg); | |
302 f->vpos += beg; f->vlen = end - beg; | |
303 f->single = f->vlen == 1? 1 : 0; | |
304 } | |
305 } | |
306 } | |
307 return ret; | |
308 } | |
309 | |
310 static void dump_aln(phaseg_t *g, int min_pos, const nseq_t *hash) | |
311 { | |
312 int i, is_flip, drop_ambi; | |
313 drop_ambi = g->flag & FLAG_DROP_AMBI; | |
314 is_flip = (drand48() < 0.5); | |
315 for (i = 0; i < g->n; ++i) { | |
316 int end, which; | |
317 uint64_t key; | |
318 khint_t k; | |
319 bam1_t *b = g->b[i]; | |
320 key = X31_hash_string(bam1_qname(b)); | |
321 end = bam_calend(&b->core, bam1_cigar(b)); | |
322 if (end > min_pos) break; | |
323 k = kh_get(64, hash, key); | |
324 if (k == kh_end(hash)) which = 3; | |
325 else { | |
326 frag_t *f = &kh_val(hash, k); | |
327 if (f->ambig) which = drop_ambi? 2 : 3; | |
328 else if (f->phased && f->flip) which = 2; | |
329 else if (f->phased == 0) which = 3; | |
330 else { // phased and not flipped | |
331 char c = 'Y'; | |
332 which = f->phase; | |
333 bam_aux_append(b, "ZP", 'A', 1, (uint8_t*)&c); | |
334 } | |
335 if (which < 2 && is_flip) which = 1 - which; // increase the randomness | |
336 } | |
337 if (which == 3) which = (drand48() < 0.5); | |
338 bam_write1(g->out[which], b); | |
339 bam_destroy1(b); | |
340 g->b[i] = 0; | |
341 } | |
342 memmove(g->b, g->b + i, (g->n - i) * sizeof(void*)); | |
343 g->n -= i; | |
344 } | |
345 | |
346 static int phase(phaseg_t *g, const char *chr, int vpos, uint64_t *cns, nseq_t *hash) | |
347 { | |
348 int i, j, n_seqs = kh_size(hash), n_masked = 0, min_pos; | |
349 khint_t k; | |
350 frag_t **seqs; | |
351 int8_t *path, *sitemask; | |
352 uint64_t *pcnt, *regmask; | |
353 | |
354 if (vpos == 0) return 0; | |
355 i = clean_seqs(vpos, hash); // i is true if hash has an element with its vpos >= vpos | |
356 min_pos = i? cns[vpos]>>32 : 0x7fffffff; | |
357 if (vpos == 1) { | |
358 printf("PS\t%s\t%d\t%d\n", chr, (int)(cns[0]>>32) + 1, (int)(cns[0]>>32) + 1); | |
359 printf("M0\t%s\t%d\t%d\t%c\t%c\t%d\t0\t0\t0\t0\n//\n", chr, (int)(cns[0]>>32) + 1, (int)(cns[0]>>32) + 1, | |
360 "ACGTX"[cns[0]&3], "ACGTX"[cns[0]>>16&3], g->vpos_shift + 1); | |
361 for (k = 0; k < kh_end(hash); ++k) { | |
362 if (kh_exist(hash, k)) { | |
363 frag_t *f = &kh_val(hash, k); | |
364 if (f->vpos) continue; | |
365 f->flip = 0; | |
366 if (f->seq[0] == 0) f->phased = 0; | |
367 else f->phased = 1, f->phase = f->seq[0] - 1; | |
368 } | |
369 } | |
370 dump_aln(g, min_pos, hash); | |
371 ++g->vpos_shift; | |
372 return 1; | |
373 } | |
374 { // phase | |
375 int **cnt; | |
376 uint64_t *mask; | |
377 printf("PS\t%s\t%d\t%d\n", chr, (int)(cns[0]>>32) + 1, (int)(cns[vpos-1]>>32) + 1); | |
378 sitemask = calloc(vpos, 1); | |
379 cnt = count_all(g->k, vpos, hash); | |
380 path = dynaprog(g->k, vpos, cnt); | |
381 for (i = 0; i < vpos; ++i) free(cnt[i]); | |
382 free(cnt); | |
383 pcnt = fragphase(vpos, path, hash, 0); // do not fix chimeras when masking | |
384 mask = genmask(vpos, pcnt, &n_masked); | |
385 regmask = calloc(n_masked, 8); | |
386 for (i = 0; i < n_masked; ++i) { | |
387 regmask[i] = cns[mask[i]>>32]>>32<<32 | cns[(uint32_t)mask[i]]>>32; | |
388 for (j = mask[i]>>32; j <= (int32_t)mask[i]; ++j) | |
389 sitemask[j] = 1; | |
390 } | |
391 free(mask); | |
392 if (g->flag & FLAG_FIX_CHIMERA) { | |
393 free(pcnt); | |
394 pcnt = fragphase(vpos, path, hash, 1); | |
395 } | |
396 } | |
397 for (i = 0; i < n_masked; ++i) | |
398 printf("FL\t%s\t%d\t%d\n", chr, (int)(regmask[i]>>32) + 1, (int)regmask[i] + 1); | |
399 for (i = 0; i < vpos; ++i) { | |
400 uint64_t x = pcnt[i]; | |
401 int8_t c[2]; | |
402 c[0] = (cns[i]&0xffff)>>2 == 0? 4 : (cns[i]&3); | |
403 c[1] = (cns[i]>>16&0xffff)>>2 == 0? 4 : (cns[i]>>16&3); | |
404 printf("M%d\t%s\t%d\t%d\t%c\t%c\t%d\t%d\t%d\t%d\t%d\n", sitemask[i]+1, chr, (int)(cns[0]>>32) + 1, (int)(cns[i]>>32) + 1, "ACGTX"[c[path[i]]], "ACGTX"[c[1-path[i]]], | |
405 i + g->vpos_shift + 1, (int)(x&0xffff), (int)(x>>16&0xffff), (int)(x>>32&0xffff), (int)(x>>48&0xffff)); | |
406 } | |
407 free(path); free(pcnt); free(regmask); free(sitemask); | |
408 seqs = calloc(n_seqs, sizeof(void*)); | |
409 for (k = 0, i = 0; k < kh_end(hash); ++k) | |
410 if (kh_exist(hash, k) && kh_val(hash, k).vpos < vpos && !kh_val(hash, k).single) | |
411 seqs[i++] = &kh_val(hash, k); | |
412 n_seqs = i; | |
413 ks_introsort_rseq(n_seqs, seqs); | |
414 for (i = 0; i < n_seqs; ++i) { | |
415 frag_t *f = seqs[i]; | |
416 printf("EV\t0\t%s\t%d\t40\t%dM\t*\t0\t0\t", chr, f->vpos + 1 + g->vpos_shift, f->vlen); | |
417 for (j = 0; j < f->vlen; ++j) { | |
418 uint32_t c = cns[f->vpos + j]; | |
419 if (f->seq[j] == 0) putchar('N'); | |
420 else putchar("ACGT"[f->seq[j] == 1? (c&3) : (c>>16&3)]); | |
421 } | |
422 printf("\t*\tYP:i:%d\tYF:i:%d\tYI:i:%d\tYO:i:%d\tYS:i:%d\n", f->phase, f->flip, f->in, f->out, f->beg+1); | |
423 } | |
424 free(seqs); | |
425 printf("//\n"); | |
426 fflush(stdout); | |
427 g->vpos_shift += vpos; | |
428 dump_aln(g, min_pos, hash); | |
429 return vpos; | |
430 } | |
431 | |
432 static void update_vpos(int vpos, nseq_t *hash) | |
433 { | |
434 khint_t k; | |
435 for (k = 0; k < kh_end(hash); ++k) { | |
436 if (kh_exist(hash, k)) { | |
437 frag_t *f = &kh_val(hash, k); | |
438 if (f->vpos < vpos) kh_del(64, hash, k); // TODO: if frag_t::seq is allocated dynamically, free it | |
439 else f->vpos -= vpos; | |
440 } | |
441 } | |
442 } | |
443 | |
444 static nseq_t *shrink_hash(nseq_t *hash) // TODO: to implement | |
445 { | |
446 return hash; | |
447 } | |
448 | |
449 static int readaln(void *data, bam1_t *b) | |
450 { | |
451 phaseg_t *g = (phaseg_t*)data; | |
452 int ret; | |
453 ret = bam_read1(g->fp, b); | |
454 if (ret < 0) return ret; | |
455 if (!(b->core.flag & (BAM_FUNMAP|BAM_FSECONDARY|BAM_FQCFAIL|BAM_FDUP)) && g->pre) { | |
456 if (g->n == g->m) { | |
457 g->m = g->m? g->m<<1 : 16; | |
458 g->b = realloc(g->b, g->m * sizeof(void*)); | |
459 } | |
460 g->b[g->n++] = bam_dup1(b); | |
461 } | |
462 return ret; | |
463 } | |
464 | |
465 static khash_t(set64) *loadpos(const char *fn, bam_header_t *h) | |
466 { | |
467 gzFile fp; | |
468 kstream_t *ks; | |
469 int ret, dret; | |
470 kstring_t *str; | |
471 khash_t(set64) *hash; | |
472 | |
473 hash = kh_init(set64); | |
474 str = calloc(1, sizeof(kstring_t)); | |
475 fp = strcmp(fn, "-")? gzopen(fn, "r") : gzdopen(fileno(stdin), "r"); | |
476 ks = ks_init(fp); | |
477 while (ks_getuntil(ks, 0, str, &dret) >= 0) { | |
478 int tid = bam_get_tid(h, str->s); | |
479 if (tid >= 0 && dret != '\n') { | |
480 if (ks_getuntil(ks, 0, str, &dret) >= 0) { | |
481 uint64_t x = (uint64_t)tid<<32 | (atoi(str->s) - 1); | |
482 kh_put(set64, hash, x, &ret); | |
483 } else break; | |
484 } | |
485 if (dret != '\n') while ((dret = ks_getc(ks)) > 0 && dret != '\n'); | |
486 if (dret < 0) break; | |
487 } | |
488 ks_destroy(ks); | |
489 gzclose(fp); | |
490 free(str->s); free(str); | |
491 return hash; | |
492 } | |
493 | |
494 static int gl2cns(float q[16]) | |
495 { | |
496 int i, j, min_ij; | |
497 float min, min2; | |
498 min = min2 = 1e30; min_ij = -1; | |
499 for (i = 0; i < 4; ++i) { | |
500 for (j = i; j < 4; ++j) { | |
501 if (q[i<<2|j] < min) min_ij = i<<2|j, min2 = min, min = q[i<<2|j]; | |
502 else if (q[i<<2|j] < min2) min2 = q[i<<2|j]; | |
503 } | |
504 } | |
505 return (min_ij>>2&3) == (min_ij&3)? 0 : 1<<18 | (min_ij>>2&3)<<16 | (min_ij&3) | (int)(min2 - min + .499) << 2; | |
506 } | |
507 | |
508 int main_phase(int argc, char *argv[]) | |
509 { | |
510 extern void bam_init_header_hash(bam_header_t *header); | |
511 int c, tid, pos, vpos = 0, n, lasttid = -1, max_vpos = 0; | |
512 const bam_pileup1_t *plp; | |
513 bam_plp_t iter; | |
514 bam_header_t *h; | |
515 nseq_t *seqs; | |
516 uint64_t *cns = 0; | |
517 phaseg_t g; | |
518 char *fn_list = 0; | |
519 khash_t(set64) *set = 0; | |
520 errmod_t *em; | |
521 uint16_t *bases; | |
522 | |
523 memset(&g, 0, sizeof(phaseg_t)); | |
524 g.flag = FLAG_FIX_CHIMERA; | |
525 g.min_varLOD = 37; g.k = 13; g.min_baseQ = 13; g.max_depth = 256; | |
526 while ((c = getopt(argc, argv, "Q:eFq:k:b:l:D:A:")) >= 0) { | |
527 switch (c) { | |
528 case 'D': g.max_depth = atoi(optarg); break; | |
529 case 'q': g.min_varLOD = atoi(optarg); break; | |
530 case 'Q': g.min_baseQ = atoi(optarg); break; | |
531 case 'k': g.k = atoi(optarg); break; | |
532 case 'F': g.flag &= ~FLAG_FIX_CHIMERA; break; | |
533 case 'e': g.flag |= FLAG_LIST_EXCL; break; | |
534 case 'A': g.flag |= FLAG_DROP_AMBI; break; | |
535 case 'b': g.pre = strdup(optarg); break; | |
536 case 'l': fn_list = strdup(optarg); break; | |
537 } | |
538 } | |
539 if (argc == optind) { | |
540 fprintf(stderr, "\n"); | |
541 fprintf(stderr, "Usage: samtools phase [options] <in.bam>\n\n"); | |
542 fprintf(stderr, "Options: -k INT block length [%d]\n", g.k); | |
543 fprintf(stderr, " -b STR prefix of BAMs to output [null]\n"); | |
544 fprintf(stderr, " -q INT min het phred-LOD [%d]\n", g.min_varLOD); | |
545 fprintf(stderr, " -Q INT min base quality in het calling [%d]\n", g.min_baseQ); | |
546 fprintf(stderr, " -D INT max read depth [%d]\n", g.max_depth); | |
547 // fprintf(stderr, " -l FILE list of sites to phase [null]\n"); | |
548 fprintf(stderr, " -F do not attempt to fix chimeras\n"); | |
549 fprintf(stderr, " -A drop reads with ambiguous phase\n"); | |
550 // fprintf(stderr, " -e do not discover SNPs (effective with -l)\n"); | |
551 fprintf(stderr, "\n"); | |
552 return 1; | |
553 } | |
554 g.fp = strcmp(argv[optind], "-")? bam_open(argv[optind], "r") : bam_dopen(fileno(stdin), "r"); | |
555 h = bam_header_read(g.fp); | |
556 if (fn_list) { // read the list of sites to phase | |
557 bam_init_header_hash(h); | |
558 set = loadpos(fn_list, h); | |
559 free(fn_list); | |
560 } else g.flag &= ~FLAG_LIST_EXCL; | |
561 if (g.pre) { // open BAMs to write | |
562 char *s = malloc(strlen(g.pre) + 20); | |
563 strcpy(s, g.pre); strcat(s, ".0.bam"); g.out[0] = bam_open(s, "w"); | |
564 strcpy(s, g.pre); strcat(s, ".1.bam"); g.out[1] = bam_open(s, "w"); | |
565 strcpy(s, g.pre); strcat(s, ".chimera.bam"); g.out[2] = bam_open(s, "w"); | |
566 for (c = 0; c <= 2; ++c) bam_header_write(g.out[c], h); | |
567 free(s); | |
568 } | |
569 | |
570 iter = bam_plp_init(readaln, &g); | |
571 g.vpos_shift = 0; | |
572 seqs = kh_init(64); | |
573 em = errmod_init(1. - 0.83); | |
574 bases = calloc(g.max_depth, 2); | |
575 printf("CC\n"); | |
576 printf("CC\tDescriptions:\nCC\n"); | |
577 printf("CC\t CC comments\n"); | |
578 printf("CC\t PS start of a phase set\n"); | |
579 printf("CC\t FL filtered region\n"); | |
580 printf("CC\t M[012] markers; 0 for singletons, 1 for phased and 2 for filtered\n"); | |
581 printf("CC\t EV supporting reads; SAM format\n"); | |
582 printf("CC\t // end of a phase set\nCC\n"); | |
583 printf("CC\tFormats of PS, FL and M[012] lines (1-based coordinates):\nCC\n"); | |
584 printf("CC\t PS chr phaseSetStart phaseSetEnd\n"); | |
585 printf("CC\t FL chr filterStart filterEnd\n"); | |
586 printf("CC\t M? chr PS pos allele0 allele1 hetIndex #supports0 #errors0 #supp1 #err1\n"); | |
587 printf("CC\nCC\n"); | |
588 fflush(stdout); | |
589 while ((plp = bam_plp_auto(iter, &tid, &pos, &n)) != 0) { | |
590 int i, k, c, tmp, dophase = 1, in_set = 0; | |
591 float q[16]; | |
592 if (tid < 0) break; | |
593 if (tid != lasttid) { // change of chromosome | |
594 g.vpos_shift = 0; | |
595 if (lasttid >= 0) { | |
596 seqs = shrink_hash(seqs); | |
597 phase(&g, h->target_name[lasttid], vpos, cns, seqs); | |
598 update_vpos(0x7fffffff, seqs); | |
599 } | |
600 lasttid = tid; | |
601 vpos = 0; | |
602 } | |
603 if (set && kh_get(set64, set, (uint64_t)tid<<32 | pos) != kh_end(set)) in_set = 1; | |
604 if (n > g.max_depth) continue; // do not proceed if the depth is too high | |
605 // fill the bases array and check if there is a variant | |
606 for (i = k = 0; i < n; ++i) { | |
607 const bam_pileup1_t *p = plp + i; | |
608 uint8_t *seq; | |
609 int q, baseQ, b; | |
610 if (p->is_del || p->is_refskip) continue; | |
611 baseQ = bam1_qual(p->b)[p->qpos]; | |
612 if (baseQ < g.min_baseQ) continue; | |
613 seq = bam1_seq(p->b); | |
614 b = bam_nt16_nt4_table[bam1_seqi(seq, p->qpos)]; | |
615 if (b > 3) continue; | |
616 q = baseQ < p->b->core.qual? baseQ : p->b->core.qual; | |
617 if (q < 4) q = 4; | |
618 if (q > 63) q = 63; | |
619 bases[k++] = q<<5 | (int)bam1_strand(p->b)<<4 | b; | |
620 } | |
621 if (k == 0) continue; | |
622 errmod_cal(em, k, 4, bases, q); // compute genotype likelihood | |
623 c = gl2cns(q); // get the consensus | |
624 // tell if to proceed | |
625 if (set && (g.flag&FLAG_LIST_EXCL) && !in_set) continue; // not in the list | |
626 if (!in_set && (c&0xffff)>>2 < g.min_varLOD) continue; // not a variant | |
627 // add the variant | |
628 if (vpos == max_vpos) { | |
629 max_vpos = max_vpos? max_vpos<<1 : 128; | |
630 cns = realloc(cns, max_vpos * 8); | |
631 } | |
632 cns[vpos] = (uint64_t)pos<<32 | c; | |
633 for (i = 0; i < n; ++i) { | |
634 const bam_pileup1_t *p = plp + i; | |
635 uint64_t key; | |
636 khint_t k; | |
637 uint8_t *seq = bam1_seq(p->b); | |
638 frag_t *f; | |
639 if (p->is_del || p->is_refskip) continue; | |
640 if (p->b->core.qual == 0) continue; | |
641 // get the base code | |
642 c = nt16_nt4_table[(int)bam1_seqi(seq, p->qpos)]; | |
643 if (c == (cns[vpos]&3)) c = 1; | |
644 else if (c == (cns[vpos]>>16&3)) c = 2; | |
645 else c = 0; | |
646 // write to seqs | |
647 key = X31_hash_string(bam1_qname(p->b)); | |
648 k = kh_put(64, seqs, key, &tmp); | |
649 f = &kh_val(seqs, k); | |
650 if (tmp == 0) { // present in the hash table | |
651 if (vpos - f->vpos + 1 < MAX_VARS) { | |
652 f->vlen = vpos - f->vpos + 1; | |
653 f->seq[f->vlen-1] = c; | |
654 f->end = bam_calend(&p->b->core, bam1_cigar(p->b)); | |
655 } | |
656 dophase = 0; | |
657 } else { // absent | |
658 memset(f->seq, 0, MAX_VARS); | |
659 f->beg = p->b->core.pos; | |
660 f->end = bam_calend(&p->b->core, bam1_cigar(p->b)); | |
661 f->vpos = vpos, f->vlen = 1, f->seq[0] = c, f->single = f->phased = f->flip = f->ambig = 0; | |
662 } | |
663 } | |
664 if (dophase) { | |
665 seqs = shrink_hash(seqs); | |
666 phase(&g, h->target_name[tid], vpos, cns, seqs); | |
667 update_vpos(vpos, seqs); | |
668 cns[0] = cns[vpos]; | |
669 vpos = 0; | |
670 } | |
671 ++vpos; | |
672 } | |
673 if (tid >= 0) phase(&g, h->target_name[tid], vpos, cns, seqs); | |
674 bam_header_destroy(h); | |
675 bam_plp_destroy(iter); | |
676 bam_close(g.fp); | |
677 kh_destroy(64, seqs); | |
678 kh_destroy(set64, set); | |
679 free(cns); | |
680 errmod_destroy(em); | |
681 free(bases); | |
682 if (g.pre) { | |
683 for (c = 0; c <= 2; ++c) bam_close(g.out[c]); | |
684 free(g.pre); free(g.b); | |
685 } | |
686 return 0; | |
687 } |