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main.c
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main.c
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#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include "bseq.h"
#include "minimap.h"
#include "mmpriv.h"
#include "ketopt.h"
#ifdef __linux__
#include <sys/resource.h>
#include <sys/time.h>
void liftrlimit()
{
struct rlimit r;
getrlimit(RLIMIT_AS, &r);
r.rlim_cur = r.rlim_max;
setrlimit(RLIMIT_AS, &r);
}
#else
void liftrlimit() {}
#endif
static ko_longopt_t long_options[] = {
{ "bucket-bits", ko_required_argument, 300 },
{ "mb-size", ko_required_argument, 'K' },
{ "seed", ko_required_argument, 302 },
{ "no-kalloc", ko_no_argument, 303 },
{ "print-qname", ko_no_argument, 304 },
{ "no-self", ko_no_argument, 'D' },
{ "print-seeds", ko_no_argument, 306 },
{ "max-chain-skip", ko_required_argument, 307 },
{ "min-dp-len", ko_required_argument, 308 },
{ "print-aln-seq", ko_no_argument, 309 },
{ "splice", ko_no_argument, 310 },
{ "cost-non-gt-ag", ko_required_argument, 'C' },
{ "no-long-join", ko_no_argument, 312 },
{ "sr", ko_no_argument, 313 },
{ "frag", ko_required_argument, 314 },
{ "secondary", ko_required_argument, 315 },
{ "cs", ko_optional_argument, 316 },
{ "end-bonus", ko_required_argument, 317 },
{ "no-pairing", ko_no_argument, 318 },
{ "splice-flank", ko_required_argument, 319 },
{ "idx-no-seq", ko_no_argument, 320 },
{ "end-seed-pen", ko_required_argument, 321 },
{ "for-only", ko_no_argument, 322 },
{ "rev-only", ko_no_argument, 323 },
{ "heap-sort", ko_required_argument, 324 },
{ "all-chain", ko_no_argument, 'P' },
{ "dual", ko_required_argument, 326 },
{ "max-clip-ratio", ko_required_argument, 327 },
{ "min-occ-floor", ko_required_argument, 328 },
{ "MD", ko_no_argument, 329 },
{ "lj-min-ratio", ko_required_argument, 330 },
{ "score-N", ko_required_argument, 331 },
{ "eqx", ko_no_argument, 332 },
{ "paf-no-hit", ko_no_argument, 333 },
{ "split-prefix", ko_required_argument, 334 },
{ "no-end-flt", ko_no_argument, 335 },
{ "hard-mask-level",ko_no_argument, 336 },
{ "cap-sw-mem", ko_required_argument, 337 },
{ "max-qlen", ko_required_argument, 338 },
{ "max-chain-iter", ko_required_argument, 339 },
{ "junc-bed", ko_required_argument, 340 },
{ "junc-bonus", ko_required_argument, 341 },
{ "sam-hit-only", ko_no_argument, 342 },
{ "chain-gap-scale",ko_required_argument, 343 },
{ "alt", ko_required_argument, 344 },
{ "alt-drop", ko_required_argument, 345 },
{ "mask-len", ko_required_argument, 346 },
{ "rmq", ko_optional_argument, 347 },
{ "qstrand", ko_no_argument, 348 },
{ "cap-kalloc", ko_required_argument, 349 },
{ "q-occ-frac", ko_required_argument, 350 },
{ "chain-skip-scale",ko_required_argument,351 },
{ "print-chains", ko_no_argument, 352 },
{ "no-hash-name", ko_no_argument, 353 },
{ "secondary-seq", ko_no_argument, 354 },
{ "help", ko_no_argument, 'h' },
{ "max-intron-len", ko_required_argument, 'G' },
{ "version", ko_no_argument, 'V' },
{ "min-count", ko_required_argument, 'n' },
{ "min-chain-score",ko_required_argument, 'm' },
{ "mask-level", ko_required_argument, 'M' },
{ "min-dp-score", ko_required_argument, 's' },
{ "sam", ko_no_argument, 'a' },
{ 0, 0, 0 }
};
static inline int64_t mm_parse_num2(const char *str, char **q)
{
double x;
char *p;
x = strtod(str, &p);
if (*p == 'G' || *p == 'g') x *= 1e9, ++p;
else if (*p == 'M' || *p == 'm') x *= 1e6, ++p;
else if (*p == 'K' || *p == 'k') x *= 1e3, ++p;
if (q) *q = p;
return (int64_t)(x + .499);
}
static inline int64_t mm_parse_num(const char *str)
{
return mm_parse_num2(str, 0);
}
static inline void yes_or_no(mm_mapopt_t *opt, int64_t flag, int long_idx, const char *arg, int yes_to_set)
{
if (yes_to_set) {
if (strcmp(arg, "yes") == 0 || strcmp(arg, "y") == 0) opt->flag |= flag;
else if (strcmp(arg, "no") == 0 || strcmp(arg, "n") == 0) opt->flag &= ~flag;
else fprintf(stderr, "[WARNING]\033[1;31m option '--%s' only accepts 'yes' or 'no'.\033[0m\n", long_options[long_idx].name);
} else {
if (strcmp(arg, "yes") == 0 || strcmp(arg, "y") == 0) opt->flag &= ~flag;
else if (strcmp(arg, "no") == 0 || strcmp(arg, "n") == 0) opt->flag |= flag;
else fprintf(stderr, "[WARNING]\033[1;31m option '--%s' only accepts 'yes' or 'no'.\033[0m\n", long_options[long_idx].name);
}
}
int main(int argc, char *argv[])
{
const char *opt_str = "2aSDw:k:K:t:r:f:Vv:g:G:I:d:XT:s:x:Hcp:M:n:z:A:B:O:E:m:N:Qu:R:hF:LC:yYPo:e:U:J:";
ketopt_t o = KETOPT_INIT;
mm_mapopt_t opt;
mm_idxopt_t ipt;
int i, c, n_threads = 3, n_parts, old_best_n = -1;
char *fnw = 0, *rg = 0, *junc_bed = 0, *s, *alt_list = 0;
FILE *fp_help = stderr;
mm_idx_reader_t *idx_rdr;
mm_idx_t *mi;
mm_verbose = 3;
liftrlimit();
mm_realtime0 = realtime();
mm_set_opt(0, &ipt, &opt);
while ((c = ketopt(&o, argc, argv, 1, opt_str, long_options)) >= 0) { // test command line options and apply option -x/preset first
if (c == 'x') {
if (mm_set_opt(o.arg, &ipt, &opt) < 0) {
fprintf(stderr, "[ERROR] unknown preset '%s'\n", o.arg);
return 1;
}
} else if (c == ':') {
fprintf(stderr, "[ERROR] missing option argument\n");
return 1;
} else if (c == '?') {
fprintf(stderr, "[ERROR] unknown option in \"%s\"\n", argv[o.i - 1]);
return 1;
}
}
o = KETOPT_INIT;
while ((c = ketopt(&o, argc, argv, 1, opt_str, long_options)) >= 0) {
if (c == 'w') ipt.w = atoi(o.arg);
else if (c == 'k') ipt.k = atoi(o.arg);
else if (c == 'H') ipt.flag |= MM_I_HPC;
else if (c == 'd') fnw = o.arg; // the above are indexing related options, except -I
else if (c == 't') n_threads = atoi(o.arg);
else if (c == 'v') mm_verbose = atoi(o.arg);
else if (c == 'g') opt.max_gap = (int)mm_parse_num(o.arg);
else if (c == 'G') mm_mapopt_max_intron_len(&opt, (int)mm_parse_num(o.arg));
else if (c == 'F') opt.max_frag_len = (int)mm_parse_num(o.arg);
else if (c == 'N') old_best_n = opt.best_n, opt.best_n = atoi(o.arg);
else if (c == 'p') opt.pri_ratio = atof(o.arg);
else if (c == 'M') opt.mask_level = atof(o.arg);
else if (c == 'c') opt.flag |= MM_F_OUT_CG | MM_F_CIGAR;
else if (c == 'D') opt.flag |= MM_F_NO_DIAG;
else if (c == 'P') opt.flag |= MM_F_ALL_CHAINS;
else if (c == 'X') opt.flag |= MM_F_ALL_CHAINS | MM_F_NO_DIAG | MM_F_NO_DUAL | MM_F_NO_LJOIN; // -D -P --no-long-join --dual=no
else if (c == 'a') opt.flag |= MM_F_OUT_SAM | MM_F_CIGAR;
else if (c == 'Q') opt.flag |= MM_F_NO_QUAL;
else if (c == 'Y') opt.flag |= MM_F_SOFTCLIP;
else if (c == 'L') opt.flag |= MM_F_LONG_CIGAR;
else if (c == 'y') opt.flag |= MM_F_COPY_COMMENT;
else if (c == 'T') opt.sdust_thres = atoi(o.arg);
else if (c == 'n') opt.min_cnt = atoi(o.arg);
else if (c == 'm') opt.min_chain_score = atoi(o.arg);
else if (c == 'A') opt.a = atoi(o.arg);
else if (c == 'B') opt.b = atoi(o.arg);
else if (c == 's') opt.min_dp_max = atoi(o.arg);
else if (c == 'C') opt.noncan = atoi(o.arg);
else if (c == 'I') ipt.batch_size = mm_parse_num(o.arg);
else if (c == 'K') opt.mini_batch_size = mm_parse_num(o.arg);
else if (c == 'e') opt.occ_dist = mm_parse_num(o.arg);
else if (c == 'R') rg = o.arg;
else if (c == 'h') fp_help = stdout;
else if (c == '2') opt.flag |= MM_F_2_IO_THREADS;
else if (c == 'J') {
int t;
t = atoi(o.arg);
if (t == 0) opt.flag |= MM_F_SPLICE_OLD;
else if (t == 1) opt.flag &= ~MM_F_SPLICE_OLD;
} else if (c == 'o') {
if (strcmp(o.arg, "-") != 0) {
if (freopen(o.arg, "wb", stdout) == NULL) {
fprintf(stderr, "[ERROR]\033[1;31m failed to write the output to file '%s'\033[0m: %s\n", o.arg, strerror(errno));
exit(1);
}
}
}
else if (c == 300) ipt.bucket_bits = atoi(o.arg); // --bucket-bits
else if (c == 302) opt.seed = atoi(o.arg); // --seed
else if (c == 303) mm_dbg_flag |= MM_DBG_NO_KALLOC; // --no-kalloc
else if (c == 304) mm_dbg_flag |= MM_DBG_PRINT_QNAME; // --print-qname
else if (c == 306) mm_dbg_flag |= MM_DBG_PRINT_QNAME | MM_DBG_PRINT_SEED, n_threads = 1; // --print-seed
else if (c == 307) opt.max_chain_skip = atoi(o.arg); // --max-chain-skip
else if (c == 339) opt.max_chain_iter = atoi(o.arg); // --max-chain-iter
else if (c == 308) opt.min_ksw_len = atoi(o.arg); // --min-dp-len
else if (c == 309) mm_dbg_flag |= MM_DBG_PRINT_QNAME | MM_DBG_PRINT_ALN_SEQ, n_threads = 1; // --print-aln-seq
else if (c == 310) opt.flag |= MM_F_SPLICE; // --splice
else if (c == 312) opt.flag |= MM_F_NO_LJOIN; // --no-long-join
else if (c == 313) opt.flag |= MM_F_SR; // --sr
else if (c == 317) opt.end_bonus = atoi(o.arg); // --end-bonus
else if (c == 318) opt.flag |= MM_F_INDEPEND_SEG; // --no-pairing
else if (c == 320) ipt.flag |= MM_I_NO_SEQ; // --idx-no-seq
else if (c == 321) opt.anchor_ext_shift = atoi(o.arg); // --end-seed-pen
else if (c == 322) opt.flag |= MM_F_FOR_ONLY; // --for-only
else if (c == 323) opt.flag |= MM_F_REV_ONLY; // --rev-only
else if (c == 327) opt.max_clip_ratio = atof(o.arg); // --max-clip-ratio
else if (c == 328) opt.min_mid_occ = atoi(o.arg); // --min-occ-floor
else if (c == 329) opt.flag |= MM_F_OUT_MD; // --MD
else if (c == 331) opt.sc_ambi = atoi(o.arg); // --score-N
else if (c == 332) opt.flag |= MM_F_EQX; // --eqx
else if (c == 333) opt.flag |= MM_F_PAF_NO_HIT; // --paf-no-hit
else if (c == 334) opt.split_prefix = o.arg; // --split-prefix
else if (c == 335) opt.flag |= MM_F_NO_END_FLT; // --no-end-flt
else if (c == 336) opt.flag |= MM_F_HARD_MLEVEL; // --hard-mask-level
else if (c == 337) opt.max_sw_mat = mm_parse_num(o.arg); // --cap-sw-mat
else if (c == 338) opt.max_qlen = mm_parse_num(o.arg); // --max-qlen
else if (c == 340) junc_bed = o.arg; // --junc-bed
else if (c == 341) opt.junc_bonus = atoi(o.arg); // --junc-bonus
else if (c == 342) opt.flag |= MM_F_SAM_HIT_ONLY; // --sam-hit-only
else if (c == 343) opt.chain_gap_scale = atof(o.arg); // --chain-gap-scale
else if (c == 351) opt.chain_skip_scale = atof(o.arg); // --chain-skip-scale
else if (c == 344) alt_list = o.arg; // --alt
else if (c == 345) opt.alt_drop = atof(o.arg); // --alt-drop
else if (c == 346) opt.mask_len = mm_parse_num(o.arg); // --mask-len
else if (c == 348) opt.flag |= MM_F_QSTRAND | MM_F_NO_INV; // --qstrand
else if (c == 349) opt.cap_kalloc = mm_parse_num(o.arg); // --cap-kalloc
else if (c == 350) opt.q_occ_frac = atof(o.arg); // --q-occ-frac
else if (c == 352) mm_dbg_flag |= MM_DBG_PRINT_CHAIN; // --print-chains
else if (c == 353) opt.flag |= MM_F_NO_HASH_NAME; // --no-hash-name
else if (c == 354) opt.flag |= MM_F_SECONDARY_SEQ; // --secondary-seq
else if (c == 330) {
fprintf(stderr, "[WARNING] \033[1;31m --lj-min-ratio has been deprecated.\033[0m\n");
} else if (c == 314) { // --frag
yes_or_no(&opt, MM_F_FRAG_MODE, o.longidx, o.arg, 1);
} else if (c == 315) { // --secondary
yes_or_no(&opt, MM_F_NO_PRINT_2ND, o.longidx, o.arg, 0);
} else if (c == 316) { // --cs
opt.flag |= MM_F_OUT_CS | MM_F_CIGAR;
if (o.arg == 0 || strcmp(o.arg, "short") == 0) {
opt.flag &= ~MM_F_OUT_CS_LONG;
} else if (strcmp(o.arg, "long") == 0) {
opt.flag |= MM_F_OUT_CS_LONG;
} else if (strcmp(o.arg, "none") == 0) {
opt.flag &= ~MM_F_OUT_CS;
} else if (mm_verbose >= 2) {
fprintf(stderr, "[WARNING]\033[1;31m --cs only takes 'short' or 'long'. Invalid values are assumed to be 'short'.\033[0m\n");
}
} else if (c == 319) { // --splice-flank
yes_or_no(&opt, MM_F_SPLICE_FLANK, o.longidx, o.arg, 1);
} else if (c == 324) { // --heap-sort
yes_or_no(&opt, MM_F_HEAP_SORT, o.longidx, o.arg, 1);
} else if (c == 326) { // --dual
yes_or_no(&opt, MM_F_NO_DUAL, o.longidx, o.arg, 0);
} else if (c == 347) { // --rmq
if (o.arg) yes_or_no(&opt, MM_F_RMQ, o.longidx, o.arg, 1);
else opt.flag |= MM_F_RMQ;
} else if (c == 'S') {
opt.flag |= MM_F_OUT_CS | MM_F_CIGAR | MM_F_OUT_CS_LONG;
if (mm_verbose >= 2)
fprintf(stderr, "[WARNING]\033[1;31m option -S is deprecated and may be removed in future. Please use --cs=long instead.\033[0m\n");
} else if (c == 'V') {
puts(MM_VERSION);
return 0;
} else if (c == 'r') {
opt.bw = (int)mm_parse_num2(o.arg, &s);
if (*s == ',') opt.bw_long = (int)mm_parse_num2(s + 1, &s);
} else if (c == 'U') {
opt.min_mid_occ = strtol(o.arg, &s, 10);
if (*s == ',') opt.max_mid_occ = strtol(s + 1, &s, 10);
} else if (c == 'f') {
double x;
char *p;
x = strtod(o.arg, &p);
if (x < 1.0) opt.mid_occ_frac = x, opt.mid_occ = 0;
else opt.mid_occ = (int)(x + .499);
if (*p == ',') opt.max_occ = (int)(strtod(p+1, &p) + .499);
} else if (c == 'u') {
if (*o.arg == 'b') opt.flag |= MM_F_SPLICE_FOR|MM_F_SPLICE_REV; // both strands
else if (*o.arg == 'f') opt.flag |= MM_F_SPLICE_FOR, opt.flag &= ~MM_F_SPLICE_REV; // match GT-AG
else if (*o.arg == 'r') opt.flag |= MM_F_SPLICE_REV, opt.flag &= ~MM_F_SPLICE_FOR; // match CT-AC (reverse complement of GT-AG)
else if (*o.arg == 'n') opt.flag &= ~(MM_F_SPLICE_FOR|MM_F_SPLICE_REV); // don't try to match the GT-AG signal
else {
fprintf(stderr, "[ERROR]\033[1;31m unrecognized cDNA direction\033[0m\n");
return 1;
}
} else if (c == 'z') {
opt.zdrop = opt.zdrop_inv = strtol(o.arg, &s, 10);
if (*s == ',') opt.zdrop_inv = strtol(s + 1, &s, 10);
} else if (c == 'O') {
opt.q = opt.q2 = strtol(o.arg, &s, 10);
if (*s == ',') opt.q2 = strtol(s + 1, &s, 10);
} else if (c == 'E') {
opt.e = opt.e2 = strtol(o.arg, &s, 10);
if (*s == ',') opt.e2 = strtol(s + 1, &s, 10);
}
}
if ((opt.flag & MM_F_SPLICE) && (opt.flag & MM_F_FRAG_MODE)) {
fprintf(stderr, "[ERROR]\033[1;31m --splice and --frag should not be specified at the same time.\033[0m\n");
return 1;
}
if (!fnw && !(opt.flag&MM_F_CIGAR))
ipt.flag |= MM_I_NO_SEQ;
if (mm_check_opt(&ipt, &opt) < 0)
return 1;
if (opt.best_n == 0) {
fprintf(stderr, "[WARNING]\033[1;31m changed '-N 0' to '-N %d --secondary=no'.\033[0m\n", old_best_n);
opt.best_n = old_best_n, opt.flag |= MM_F_NO_PRINT_2ND;
}
if (argc == o.ind || fp_help == stdout) {
fprintf(fp_help, "Usage: minimap2 [options] <target.fa>|<target.idx> [query.fa] [...]\n");
fprintf(fp_help, "Options:\n");
fprintf(fp_help, " Indexing:\n");
fprintf(fp_help, " -H use homopolymer-compressed k-mer (preferrable for PacBio)\n");
fprintf(fp_help, " -k INT k-mer size (no larger than 28) [%d]\n", ipt.k);
fprintf(fp_help, " -w INT minimizer window size [%d]\n", ipt.w);
fprintf(fp_help, " -I NUM split index for every ~NUM input bases [8G]\n");
fprintf(fp_help, " -d FILE dump index to FILE []\n");
fprintf(fp_help, " Mapping:\n");
fprintf(fp_help, " -f FLOAT filter out top FLOAT fraction of repetitive minimizers [%g]\n", opt.mid_occ_frac);
fprintf(fp_help, " -g NUM stop chain enlongation if there are no minimizers in INT-bp [%d]\n", opt.max_gap);
fprintf(fp_help, " -G NUM max intron length (effective with -xsplice; changing -r) [200k]\n");
fprintf(fp_help, " -F NUM max fragment length (effective with -xsr or in the fragment mode) [800]\n");
fprintf(fp_help, " -r NUM[,NUM] chaining/alignment bandwidth and long-join bandwidth [%d,%d]\n", opt.bw, opt.bw_long);
fprintf(fp_help, " -n INT minimal number of minimizers on a chain [%d]\n", opt.min_cnt);
fprintf(fp_help, " -m INT minimal chaining score (matching bases minus log gap penalty) [%d]\n", opt.min_chain_score);
// fprintf(fp_help, " -T INT SDUST threshold; 0 to disable SDUST [%d]\n", opt.sdust_thres); // TODO: this option is never used; might be buggy
fprintf(fp_help, " -X skip self and dual mappings (for the all-vs-all mode)\n");
fprintf(fp_help, " -p FLOAT min secondary-to-primary score ratio [%g]\n", opt.pri_ratio);
fprintf(fp_help, " -N INT retain at most INT secondary alignments [%d]\n", opt.best_n);
fprintf(fp_help, " Alignment:\n");
fprintf(fp_help, " -A INT matching score [%d]\n", opt.a);
fprintf(fp_help, " -B INT mismatch penalty (larger value for lower divergence) [%d]\n", opt.b);
fprintf(fp_help, " -O INT[,INT] gap open penalty [%d,%d]\n", opt.q, opt.q2);
fprintf(fp_help, " -E INT[,INT] gap extension penalty; a k-long gap costs min{O1+k*E1,O2+k*E2} [%d,%d]\n", opt.e, opt.e2);
fprintf(fp_help, " -z INT[,INT] Z-drop score and inversion Z-drop score [%d,%d]\n", opt.zdrop, opt.zdrop_inv);
fprintf(fp_help, " -s INT minimal peak DP alignment score [%d]\n", opt.min_dp_max);
fprintf(fp_help, " -u CHAR how to find GT-AG. f:transcript strand, b:both strands, n:don't match GT-AG [n]\n");
fprintf(fp_help, " -J INT splice mode. 0: original minimap2 model; 1: miniprot model [1]\n");
fprintf(fp_help, " Input/Output:\n");
fprintf(fp_help, " -a output in the SAM format (PAF by default)\n");
fprintf(fp_help, " -o FILE output alignments to FILE [stdout]\n");
fprintf(fp_help, " -L write CIGAR with >65535 ops at the CG tag\n");
fprintf(fp_help, " -R STR SAM read group line in a format like '@RG\\tID:foo\\tSM:bar' []\n");
fprintf(fp_help, " -c output CIGAR in PAF\n");
fprintf(fp_help, " --cs[=STR] output the cs tag; STR is 'short' (if absent) or 'long' [none]\n");
fprintf(fp_help, " --MD output the MD tag\n");
fprintf(fp_help, " --eqx write =/X CIGAR operators\n");
fprintf(fp_help, " -Y use soft clipping for supplementary alignments\n");
fprintf(fp_help, " -t INT number of threads [%d]\n", n_threads);
fprintf(fp_help, " -K NUM minibatch size for mapping [500M]\n");
// fprintf(fp_help, " -v INT verbose level [%d]\n", mm_verbose);
fprintf(fp_help, " --version show version number\n");
fprintf(fp_help, " Preset:\n");
fprintf(fp_help, " -x STR preset (always applied before other options; see minimap2.1 for details) []\n");
fprintf(fp_help, " - map-pb/map-ont - PacBio CLR/Nanopore vs reference mapping\n");
fprintf(fp_help, " - map-hifi - PacBio HiFi reads vs reference mapping\n");
fprintf(fp_help, " - ava-pb/ava-ont - PacBio/Nanopore read overlap\n");
fprintf(fp_help, " - asm5/asm10/asm20 - asm-to-ref mapping, for ~0.1/1/5%% sequence divergence\n");
fprintf(fp_help, " - splice/splice:hq - long-read/Pacbio-CCS spliced alignment\n");
fprintf(fp_help, " - sr - genomic short-read mapping\n");
fprintf(fp_help, "\nSee `man ./minimap2.1' for detailed description of these and other advanced command-line options.\n");
return fp_help == stdout? 0 : 1;
}
if ((opt.flag & MM_F_SR) && argc - o.ind > 3) {
fprintf(stderr, "[ERROR] incorrect input: in the sr mode, please specify no more than two query files.\n");
return 1;
}
idx_rdr = mm_idx_reader_open(argv[o.ind], &ipt, fnw);
if (idx_rdr == 0) {
fprintf(stderr, "[ERROR] failed to open file '%s': %s\n", argv[o.ind], strerror(errno));
return 1;
}
if (!idx_rdr->is_idx && fnw == 0 && argc - o.ind < 2) {
fprintf(stderr, "[ERROR] missing input: please specify a query file to map or option -d to keep the index\n");
mm_idx_reader_close(idx_rdr);
return 1;
}
if (opt.best_n == 0 && (opt.flag&MM_F_CIGAR) && mm_verbose >= 2)
fprintf(stderr, "[WARNING]\033[1;31m `-N 0' reduces alignment accuracy. Please use --secondary=no to suppress secondary alignments.\033[0m\n");
while ((mi = mm_idx_reader_read(idx_rdr, n_threads)) != 0) {
int ret;
if ((opt.flag & MM_F_CIGAR) && (mi->flag & MM_I_NO_SEQ)) {
fprintf(stderr, "[ERROR] the prebuilt index doesn't contain sequences.\n");
mm_idx_destroy(mi);
mm_idx_reader_close(idx_rdr);
return 1;
}
if ((opt.flag & MM_F_OUT_SAM) && idx_rdr->n_parts == 1) {
if (mm_idx_reader_eof(idx_rdr)) {
if (opt.split_prefix == 0)
ret = mm_write_sam_hdr(mi, rg, MM_VERSION, argc, argv);
else
ret = mm_write_sam_hdr(0, rg, MM_VERSION, argc, argv);
} else {
ret = mm_write_sam_hdr(0, rg, MM_VERSION, argc, argv);
if (opt.split_prefix == 0 && mm_verbose >= 2)
fprintf(stderr, "[WARNING]\033[1;31m For a multi-part index, no @SQ lines will be outputted. Please use --split-prefix.\033[0m\n");
}
if (ret != 0) {
mm_idx_destroy(mi);
mm_idx_reader_close(idx_rdr);
return 1;
}
}
if (mm_verbose >= 3)
fprintf(stderr, "[M::%s::%.3f*%.2f] loaded/built the index for %d target sequence(s)\n",
__func__, realtime() - mm_realtime0, cputime() / (realtime() - mm_realtime0), mi->n_seq);
if (argc != o.ind + 1) mm_mapopt_update(&opt, mi);
if (mm_verbose >= 3) mm_idx_stat(mi);
if (junc_bed) mm_idx_bed_read(mi, junc_bed, 1);
if (alt_list) mm_idx_alt_read(mi, alt_list);
if (argc - (o.ind + 1) == 0) {
mm_idx_destroy(mi);
continue; // no query files
}
ret = 0;
if (!(opt.flag & MM_F_FRAG_MODE)) {
for (i = o.ind + 1; i < argc; ++i) {
ret = mm_map_file(mi, argv[i], &opt, n_threads);
if (ret < 0) break;
}
} else {
ret = mm_map_file_frag(mi, argc - (o.ind + 1), (const char**)&argv[o.ind + 1], &opt, n_threads);
}
mm_idx_destroy(mi);
if (ret < 0) {
fprintf(stderr, "ERROR: failed to map the query file\n");
exit(EXIT_FAILURE);
}
}
n_parts = idx_rdr->n_parts;
mm_idx_reader_close(idx_rdr);
if (opt.split_prefix)
mm_split_merge(argc - (o.ind + 1), (const char**)&argv[o.ind + 1], &opt, n_parts);
if (fflush(stdout) == EOF) {
perror("[ERROR] failed to write the results");
exit(EXIT_FAILURE);
}
if (mm_verbose >= 3) {
fprintf(stderr, "[M::%s] Version: %s\n", __func__, MM_VERSION);
fprintf(stderr, "[M::%s] CMD:", __func__);
for (i = 0; i < argc; ++i)
fprintf(stderr, " %s", argv[i]);
fprintf(stderr, "\n[M::%s] Real time: %.3f sec; CPU: %.3f sec; Peak RSS: %.3f GB\n", __func__, realtime() - mm_realtime0, cputime(), peakrss() / 1024.0 / 1024.0 / 1024.0);
}
return 0;
}