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hisat2.cpp
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hisat2.cpp
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/*
* Copyright 2015, Daehwan Kim <[email protected]>
*
* This file is part of HISAT 2.
*
* HISAT 2 is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* HISAT 2 is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HISAT 2. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <iostream>
#include <fstream>
#include <string>
#include <cassert>
#include <stdexcept>
#include <getopt.h>
#include <math.h>
#include <utility>
#include <limits>
#include "alphabet.h"
#include "assert_helpers.h"
#include "endian_swap.h"
#include "hgfm.h"
#include "rfm.h"
#include "formats.h"
#include "sequence_io.h"
#include "tokenize.h"
#include "aln_sink.h"
#include "pat.h"
#include "threading.h"
#include "ds.h"
#include "aligner_metrics.h"
#include "sam.h"
#include "aligner_seed.h"
#include "splice_site.h"
#include "spliced_aligner.h"
#include "aligner_seed_policy.h"
#include "aligner_sw.h"
#include "aligner_sw_driver.h"
#include "aligner_cache.h"
#include "util.h"
#include "pe.h"
#include "tp.h"
#include "gp.h"
#include "simple_func.h"
#include "presets.h"
#include "opts.h"
#include "outq.h"
#include "repeat_kmer.h"
using namespace std;
MemoryTally gMemTally;
static EList<string> mates1; // mated reads (first mate)
static EList<string> mates2; // mated reads (second mate)
static EList<string> mates12; // mated reads (1st/2nd interleaved in 1 file)
static string adjIdxBase;
bool gColor; // colorspace (not supported)
int gVerbose; // be talkative
static bool startVerbose; // be talkative at startup
int gQuiet; // print nothing but the alignments
static int sanityCheck; // enable expensive sanity checks
static int format; // default read format is FASTQ
static string origString; // reference text, or filename(s)
static int seed; // srandom() seed
static int timing; // whether to report basic timing data
static int metricsIval; // interval between alignment metrics messages (0 = no messages)
static string metricsFile;// output file to put alignment metrics in
static bool metricsStderr;// output file to put alignment metrics in
static bool metricsPerRead; // report a metrics tuple for every read
static bool allHits; // for multihits, report just one
static bool showVersion; // just print version and quit?
static int ipause; // pause before maching?
static uint32_t qUpto; // max # of queries to read
int gTrim5; // amount to trim from 5' end
int gTrim3; // amount to trim from 3' end
static int offRate; // keep default offRate
static bool solexaQuals; // quality strings are solexa quals, not phred, and subtract 64 (not 33)
static bool phred64Quals; // quality chars are phred, but must subtract 64 (not 33)
static bool integerQuals; // quality strings are space-separated strings of integers, not ASCII
static int nthreads; // number of pthreads operating concurrently
static int outType; // style of output
static bool noRefNames; // true -> print reference indexes; not names
static uint32_t khits; // number of hits per read; >1 is much slower
static uint32_t mhits; // don't report any hits if there are > mhits
static int partitionSz; // output a partitioning key in first field
static bool useSpinlock; // false -> don't use of spinlocks even if they're #defines
static bool fileParallel; // separate threads read separate input files in parallel
static bool useShmem; // use shared memory to hold the index
static bool useMm; // use memory-mapped files to hold the index
static bool mmSweep; // sweep through memory-mapped files immediately after mapping
int gMinInsert; // minimum insert size
int gMaxInsert; // maximum insert size
bool gMate1fw; // -1 mate aligns in fw orientation on fw strand
bool gMate2fw; // -2 mate aligns in rc orientation on fw strand
bool gFlippedMatesOK; // allow mates to be in wrong order
bool gDovetailMatesOK; // allow one mate to extend off the end of the other
bool gContainMatesOK; // allow one mate to contain the other in PE alignment
bool gOlapMatesOK; // allow mates to overlap in PE alignment
bool gExpandToFrag; // incr max frag length to =larger mate len if necessary
bool gReportDiscordant; // find and report discordant paired-end alignments
bool gReportMixed; // find and report unpaired alignments for paired reads
static uint32_t cacheLimit; // ranges w/ size > limit will be cached
static uint32_t cacheSize; // # words per range cache
static uint32_t skipReads; // # reads/read pairs to skip
bool gNofw; // don't align fw orientation of read
bool gNorc; // don't align rc orientation of read
static uint32_t fastaContLen;
static uint32_t fastaContFreq;
static bool hadoopOut; // print Hadoop status and summary messages
static bool fuzzy;
static bool fullRef;
static bool samTruncQname; // whether to truncate QNAME to 255 chars
static bool samOmitSecSeqQual; // omit SEQ/QUAL for 2ndary alignments?
static bool samNoUnal; // don't print records for unaligned reads
static bool samNoHead; // don't print any header lines in SAM output
static bool samNoSQ; // don't print @SQ header lines
static bool sam_print_as;
static bool sam_print_xs; // XS:i
static bool sam_print_xss; // Xs:i and Ys:i
static bool sam_print_yn; // YN:i and Yn:i
static bool sam_print_xn;
static bool sam_print_cs;
static bool sam_print_cq;
static bool sam_print_x0;
static bool sam_print_x1;
static bool sam_print_xm;
static bool sam_print_xo;
static bool sam_print_xg;
static bool sam_print_nm;
static bool sam_print_md;
static bool sam_print_yf;
static bool sam_print_yi;
static bool sam_print_ym;
static bool sam_print_yp;
static bool sam_print_yt;
static bool sam_print_ys;
static bool sam_print_zs;
static bool sam_print_xr;
static bool sam_print_xt;
static bool sam_print_xd;
static bool sam_print_xu;
static bool sam_print_yl;
static bool sam_print_ye;
static bool sam_print_yu;
static bool sam_print_xp;
static bool sam_print_yr;
static bool sam_print_zb;
static bool sam_print_zr;
static bool sam_print_zf;
static bool sam_print_zm;
static bool sam_print_zi;
static bool sam_print_zp;
static bool sam_print_zu;
static bool sam_print_xs_a;
static bool sam_print_nh;
static bool bwaSwLike;
static float bwaSwLikeC;
static float bwaSwLikeT;
static bool qcFilter;
static bool sortByScore; // prioritize alignments to report by score?
bool gReportOverhangs; // false -> filter out alignments that fall off the end of a reference sequence
static string rgid; // ID: setting for @RG header line
static string rgs; // SAM outputs for @RG header line
static string rgs_optflag; // SAM optional flag to add corresponding to @RG ID
static bool msample; // whether to report a random alignment when maxed-out via -m/-M
int gGapBarrier; // # diags on top/bot only to be entered diagonally
static EList<string> qualities;
static EList<string> qualities1;
static EList<string> qualities2;
static string polstr; // temporary holder for policy string
static bool msNoCache; // true -> disable local cache
static int bonusMatchType; // how to reward matches
static int bonusMatch; // constant reward if bonusMatchType=constant
static int penMmcType; // how to penalize mismatches
static int penMmcMax; // max mm penalty
static int penMmcMin; // min mm penalty
static int penScMax; // max sc penalty
static int penScMin; // min sc penalty
static int penNType; // how to penalize Ns in the read
static int penN; // constant if N pelanty is a constant
static bool penNCatPair; // concatenate mates before N filtering?
static bool localAlign; // do local alignment in DP steps
static bool noisyHpolymer; // set to true if gap penalties should be reduced to be consistent with a sequencer that under- and overcalls homopolymers
static int penRdGapConst; // constant cost of extending a gap in the read
static int penRfGapConst; // constant cost of extending a gap in the reference
static int penRdGapLinear; // coeff of linear term for cost of gap extension in read
static int penRfGapLinear; // coeff of linear term for cost of gap extension in ref
static SimpleFunc scoreMin; // minimum valid score as function of read len
static SimpleFunc nCeil; // max # Ns allowed as function of read len
static SimpleFunc msIval; // interval between seeds as function of read len
static double descConsExp; // how to adjust score minimum as we descent further into index-assisted alignment
static size_t descentLanding; // don't place a search root if it's within this many positions of end
static SimpleFunc descentTotSz; // maximum space a DescentDriver can use in bytes
static SimpleFunc descentTotFmops; // maximum # FM ops a DescentDriver can perform
static int multiseedMms; // mismatches permitted in a multiseed seed
static int multiseedLen; // length of multiseed seeds
static size_t multiseedOff; // offset to begin extracting seeds
static uint32_t seedCacheLocalMB; // # MB to use for non-shared seed alignment cacheing
static uint32_t seedCacheCurrentMB; // # MB to use for current-read seed hit cacheing
static uint32_t exactCacheCurrentMB; // # MB to use for current-read seed hit cacheing
static size_t maxhalf; // max width on one side of DP table
static bool seedSumm; // print summary information about seed hits, not alignments
static bool doUngapped; // do ungapped alignment
static size_t maxIters; // stop after this many extend loop iterations
static size_t maxUg; // stop after this many ungap extends
static size_t maxDp; // stop after this many DPs
static size_t maxItersIncr; // amt to add to maxIters for each -k > 1
static size_t maxEeStreak; // stop after this many end-to-end fails in a row
static size_t maxUgStreak; // stop after this many ungap fails in a row
static size_t maxDpStreak; // stop after this many dp fails in a row
static size_t maxStreakIncr; // amt to add to streak for each -k > 1
static size_t maxMateStreak; // stop seed range after this many mate-find fails
static bool doExtend; // extend seed hits
static bool enable8; // use 8-bit SSE where possible?
static size_t cminlen; // longer reads use checkpointing
static size_t cpow2; // checkpoint interval log2
static bool doTri; // do triangular mini-fills?
static string defaultPreset; // default preset; applied immediately
static bool ignoreQuals; // all mms incur same penalty, regardless of qual
static string wrapper; // type of wrapper script, so we can print correct usage
static EList<string> queries; // list of query files
static string outfile; // write SAM output to this file
static int mapqv; // MAPQ calculation version
static int tighten; // -M tighten mode (0=none, 1=best, 2=secbest+1)
static bool doExactUpFront; // do exact search up front if seeds seem good enough
static bool do1mmUpFront; // do 1mm search up front if seeds seem good enough
static size_t do1mmMinLen; // length below which we disable 1mm e2e search
static int seedBoostThresh; // if average non-zero position has more than this many elements
static size_t maxSeeds; // maximum number of seeds allowed
static size_t nSeedRounds; // # seed rounds
static bool reorder; // true -> reorder SAM recs in -p mode
static float sampleFrac; // only align random fraction of input reads
static bool arbitraryRandom; // pseudo-randoms no longer a function of read properties
static bool bowtie2p5;
static bool useTempSpliceSite;
static int penCanSplice;
static int penNoncanSplice;
static int penConflictSplice;
static SimpleFunc penCanIntronLen;
static SimpleFunc penNoncanIntronLen;
static size_t minIntronLen;
static size_t maxIntronLen;
static string knownSpliceSiteInfile; //
static string novelSpliceSiteInfile; //
static string novelSpliceSiteOutfile; //
static bool secondary;
static bool no_spliced_alignment;
static int rna_strandness; //
static bool splicesite_db_only; //
static bool anchorStop;
static bool pseudogeneStop;
static bool tranMapOnly; // transcriptome mapping only
static bool tranAssm; // alignments selected for downstream transcript assembly such as StringTie and Cufflinks
static string tranAssm_program;
static bool avoid_pseudogene;
#ifdef USE_SRA
static EList<string> sra_accs;
#endif
static string bt2index; // read Bowtie 2 index from files with this prefix
static EList<pair<int, string> > extra_opts;
static size_t extra_opts_cur;
static EList<uint64_t> thread_rids;
static MUTEX_T thread_rids_mutex;
static uint64_t thread_rids_mindist;
static bool rmChrName; // remove "chr" from reference names (e.g., chr18 to 18)
static bool addChrName; // add "chr" to reference names (e.g., 18 to chr18)
static size_t max_alts_tried;
static bool use_haplotype;
static bool enable_codis;
static bool templateLenAdjustment;
static string alignSumFile; // write alignment summary stat. to this file
static bool newAlignSummary;
static int bowtie2_dp; // Bowtie2's dynamic programming alignment (0: no dynamic programming, 1: conditional dynamic programming, and 2: uncoditional dynamic programming)
static bool fast; // --fast
static bool sensitive; // --sensitive
static bool very_sensitive; // --very-sensitive
static bool repeat;
static bool use_repeat_index;
static EList<size_t> readLens;
#define DMAX std::numeric_limits<double>::max()
static void resetOptions() {
mates1.clear();
mates2.clear();
mates12.clear();
adjIdxBase = "";
gColor = false;
gVerbose = 0;
startVerbose = 0;
gQuiet = false;
sanityCheck = 0; // enable expensive sanity checks
format = FASTQ; // default read format is FASTQ
origString = ""; // reference text, or filename(s)
seed = 0; // srandom() seed
timing = 0; // whether to report basic timing data
metricsIval = 1; // interval between alignment metrics messages (0 = no messages)
metricsFile = ""; // output file to put alignment metrics in
metricsStderr = false; // print metrics to stderr (in addition to --metrics-file if it's specified
metricsPerRead = false; // report a metrics tuple for every read?
allHits = false; // for multihits, report just one
showVersion = false; // just print version and quit?
ipause = 0; // pause before maching?
qUpto = 0xffffffff; // max # of queries to read
gTrim5 = 0; // amount to trim from 5' end
gTrim3 = 0; // amount to trim from 3' end
offRate = -1; // keep default offRate
solexaQuals = false; // quality strings are solexa quals, not phred, and subtract 64 (not 33)
phred64Quals = false; // quality chars are phred, but must subtract 64 (not 33)
integerQuals = false; // quality strings are space-separated strings of integers, not ASCII
nthreads = 1; // number of pthreads operating concurrently
outType = OUTPUT_SAM; // style of output
noRefNames = false; // true -> print reference indexes; not names
khits = 10; // number of hits per read; >1 is much slower
mhits = 0; // stop after finding this many alignments+1
partitionSz = 0; // output a partitioning key in first field
useSpinlock = true; // false -> don't use of spinlocks even if they're #defines
fileParallel = false; // separate threads read separate input files in parallel
useShmem = false; // use shared memory to hold the index
useMm = false; // use memory-mapped files to hold the index
mmSweep = false; // sweep through memory-mapped files immediately after mapping
gMinInsert = 0; // minimum insert size
gMaxInsert = 1000; // maximum insert size
gMate1fw = true; // -1 mate aligns in fw orientation on fw strand
gMate2fw = false; // -2 mate aligns in rc orientation on fw strand
gFlippedMatesOK = false; // allow mates to be in wrong order
gDovetailMatesOK = false; // allow one mate to extend off the end of the other
gContainMatesOK = true; // allow one mate to contain the other in PE alignment
gOlapMatesOK = true; // allow mates to overlap in PE alignment
gExpandToFrag = true; // incr max frag length to =larger mate len if necessary
gReportDiscordant = true; // find and report discordant paired-end alignments
gReportMixed = true; // find and report unpaired alignments for paired reads
cacheLimit = 5; // ranges w/ size > limit will be cached
cacheSize = 0; // # words per range cache
skipReads = 0; // # reads/read pairs to skip
gNofw = false; // don't align fw orientation of read
gNorc = false; // don't align rc orientation of read
fastaContLen = 0;
fastaContFreq = 0;
hadoopOut = false; // print Hadoop status and summary messages
fuzzy = false; // reads will have alternate basecalls w/ qualities
fullRef = false; // print entire reference name instead of just up to 1st space
samTruncQname = true; // whether to truncate QNAME to 255 chars
samOmitSecSeqQual = false; // omit SEQ/QUAL for 2ndary alignments?
samNoUnal = false; // omit SAM records for unaligned reads
samNoHead = false; // don't print any header lines in SAM output
samNoSQ = false; // don't print @SQ header lines
sam_print_as = true;
sam_print_xs = true;
sam_print_xss = false; // Xs:i and Ys:i
sam_print_yn = false; // YN:i and Yn:i
sam_print_xn = true;
sam_print_cs = false;
sam_print_cq = false;
sam_print_x0 = true;
sam_print_x1 = true;
sam_print_xm = true;
sam_print_xo = true;
sam_print_xg = true;
sam_print_nm = true;
sam_print_md = true;
sam_print_yf = true;
sam_print_yi = false;
sam_print_ym = false;
sam_print_yp = false;
sam_print_yt = true;
sam_print_ys = true;
sam_print_zs = false;
sam_print_xr = false;
sam_print_xt = false;
sam_print_xd = false;
sam_print_xu = false;
sam_print_yl = false;
sam_print_ye = false;
sam_print_yu = false;
sam_print_xp = false;
sam_print_yr = false;
sam_print_zb = false;
sam_print_zr = false;
sam_print_zf = false;
sam_print_zm = false;
sam_print_zi = false;
sam_print_zp = false;
sam_print_zu = false;
sam_print_xs_a = true;
sam_print_nh = true;
bwaSwLike = false;
bwaSwLikeC = 5.5f;
bwaSwLikeT = 20.0f;
qcFilter = false; // don't believe upstream qc by default
sortByScore = true; // prioritize alignments to report by score?
rgid = ""; // SAM outputs for @RG header line
rgs = ""; // SAM outputs for @RG header line
rgs_optflag = ""; // SAM optional flag to add corresponding to @RG ID
msample = true;
gGapBarrier = 4; // disallow gaps within this many chars of either end of alignment
qualities.clear();
qualities1.clear();
qualities2.clear();
polstr.clear();
msNoCache = true; // true -> disable local cache
bonusMatchType = DEFAULT_MATCH_BONUS_TYPE;
bonusMatch = DEFAULT_MATCH_BONUS;
penMmcType = DEFAULT_MM_PENALTY_TYPE;
penMmcMax = DEFAULT_MM_PENALTY_MAX;
penMmcMin = DEFAULT_MM_PENALTY_MIN;
penScMax = DEFAULT_SC_PENALTY_MAX;
penScMin = DEFAULT_SC_PENALTY_MIN;
penNType = DEFAULT_N_PENALTY_TYPE;
penN = DEFAULT_N_PENALTY;
penNCatPair = DEFAULT_N_CAT_PAIR; // concatenate mates before N filtering?
localAlign = false; // do local alignment in DP steps
noisyHpolymer = false;
penRdGapConst = DEFAULT_READ_GAP_CONST;
penRfGapConst = DEFAULT_REF_GAP_CONST;
penRdGapLinear = DEFAULT_READ_GAP_LINEAR;
penRfGapLinear = DEFAULT_REF_GAP_LINEAR;
scoreMin.init (SIMPLE_FUNC_LINEAR, 0.0f, -0.2f);
// scoreMin.init (SIMPLE_FUNC_CONST, -18, 0);
nCeil.init (SIMPLE_FUNC_LINEAR, 0.0f, DMAX, 2.0f, 0.1f);
msIval.init (SIMPLE_FUNC_LINEAR, 1.0f, DMAX, DEFAULT_IVAL_B, DEFAULT_IVAL_A);
descConsExp = 2.0;
descentLanding = 20;
descentTotSz.init(SIMPLE_FUNC_LINEAR, 1024.0, DMAX, 0.0, 1024.0);
descentTotFmops.init(SIMPLE_FUNC_LINEAR, 100.0, DMAX, 0.0, 10.0);
multiseedMms = DEFAULT_SEEDMMS;
multiseedLen = DEFAULT_SEEDLEN;
multiseedOff = 0;
seedCacheLocalMB = 32; // # MB to use for non-shared seed alignment cacheing
seedCacheCurrentMB = 20; // # MB to use for current-read seed hit cacheing
exactCacheCurrentMB = 20; // # MB to use for current-read seed hit cacheing
maxhalf = 15; // max width on one side of DP table
seedSumm = false; // print summary information about seed hits, not alignments
doUngapped = true; // do ungapped alignment
maxIters = 400; // max iterations of extend loop
maxUg = 300; // stop after this many ungap extends
maxDp = 300; // stop after this many dp extends
maxItersIncr = 20; // amt to add to maxIters for each -k > 1
maxEeStreak = 15; // stop after this many end-to-end fails in a row
maxUgStreak = 15; // stop after this many ungap fails in a row
maxDpStreak = 15; // stop after this many dp fails in a row
maxStreakIncr = 10; // amt to add to streak for each -k > 1
maxMateStreak = 10; // in PE: abort seed range after N mate-find fails
doExtend = true; // do seed extensions
enable8 = true; // use 8-bit SSE where possible?
cminlen = 2000; // longer reads use checkpointing
cpow2 = 4; // checkpoint interval log2
doTri = false; // do triangular mini-fills?
defaultPreset = "sensitive%LOCAL%"; // default preset; applied immediately
extra_opts.clear();
extra_opts_cur = 0;
bt2index.clear(); // read Bowtie 2 index from files with this prefix
ignoreQuals = false; // all mms incur same penalty, regardless of qual
wrapper.clear(); // type of wrapper script, so we can print correct usage
queries.clear(); // list of query files
outfile.clear(); // write SAM output to this file
mapqv = 2; // MAPQ calculation version
tighten = 3; // -M tightening mode
doExactUpFront = true; // do exact search up front if seeds seem good enough
do1mmUpFront = true; // do 1mm search up front if seeds seem good enough
seedBoostThresh = 300; // if average non-zero position has more than this many elements
nSeedRounds = 2; // # rounds of seed searches to do for repetitive reads
maxSeeds = 0; // maximum number of seeds allowed
do1mmMinLen = 60; // length below which we disable 1mm search
reorder = false; // reorder SAM records with -p > 1
sampleFrac = 1.1f; // align all reads
arbitraryRandom = false; // let pseudo-random seeds be a function of read properties
bowtie2p5 = false;
useTempSpliceSite = true;
penCanSplice = 0;
penNoncanSplice = 12;
penConflictSplice = 1000000;
penCanIntronLen.init(SIMPLE_FUNC_LOG, -8, 1);
penNoncanIntronLen.init(SIMPLE_FUNC_LOG, -8, 1);
minIntronLen = 20;
maxIntronLen = 500000;
knownSpliceSiteInfile = "";
novelSpliceSiteInfile = "";
novelSpliceSiteOutfile = "";
secondary = false; // allow secondary alignments
no_spliced_alignment = false;
rna_strandness = RNA_STRANDNESS_UNKNOWN;
splicesite_db_only = false;
anchorStop = true;
pseudogeneStop = true;
tranMapOnly = false;
tranAssm = false;
tranAssm_program = "";
avoid_pseudogene = false;
#ifdef USE_SRA
sra_accs.clear();
#endif
rmChrName = false;
addChrName = false;
max_alts_tried = 16;
use_haplotype = false;
enable_codis = false;
templateLenAdjustment = true;
alignSumFile = "";
newAlignSummary = false;
bowtie2_dp = 0; // disable Bowtie2's dynamic programming alignment
fast = false;
sensitive = false;
very_sensitive = false;
repeat = false; // true iff alignments to repeat sequences are directly reported.
use_repeat_index = true;
readLens.clear();
}
static const char *short_options = "fF:qbzhcu:rv:s:aP:t3:5:w:p:k:M:1:2:I:X:CQ:N:i:L:U:x:S:g:O:D:R:";
static struct option long_options[] = {
{(char*)"verbose", no_argument, 0, ARG_VERBOSE},
{(char*)"startverbose", no_argument, 0, ARG_STARTVERBOSE},
{(char*)"quiet", no_argument, 0, ARG_QUIET},
{(char*)"sanity", no_argument, 0, ARG_SANITY},
{(char*)"pause", no_argument, &ipause, 1},
{(char*)"orig", required_argument, 0, ARG_ORIG},
{(char*)"all", no_argument, 0, 'a'},
{(char*)"solexa-quals", no_argument, 0, ARG_SOLEXA_QUALS},
{(char*)"integer-quals",no_argument, 0, ARG_INTEGER_QUALS},
{(char*)"int-quals", no_argument, 0, ARG_INTEGER_QUALS},
{(char*)"metrics", required_argument, 0, ARG_METRIC_IVAL},
{(char*)"metrics-file", required_argument, 0, ARG_METRIC_FILE},
{(char*)"metrics-stderr",no_argument, 0, ARG_METRIC_STDERR},
{(char*)"metrics-per-read", no_argument, 0, ARG_METRIC_PER_READ},
{(char*)"met-read", no_argument, 0, ARG_METRIC_PER_READ},
{(char*)"met", required_argument, 0, ARG_METRIC_IVAL},
{(char*)"met-file", required_argument, 0, ARG_METRIC_FILE},
{(char*)"met-stderr", no_argument, 0, ARG_METRIC_STDERR},
{(char*)"time", no_argument, 0, 't'},
{(char*)"trim3", required_argument, 0, '3'},
{(char*)"trim5", required_argument, 0, '5'},
{(char*)"seed", required_argument, 0, ARG_SEED},
{(char*)"qupto", required_argument, 0, 'u'},
{(char*)"upto", required_argument, 0, 'u'},
{(char*)"version", no_argument, 0, ARG_VERSION},
{(char*)"filepar", no_argument, 0, ARG_FILEPAR},
{(char*)"help", no_argument, 0, 'h'},
{(char*)"threads", required_argument, 0, 'p'},
{(char*)"khits", required_argument, 0, 'k'},
{(char*)"minins", required_argument, 0, 'I'},
{(char*)"maxins", required_argument, 0, 'X'},
{(char*)"quals", required_argument, 0, 'Q'},
{(char*)"Q1", required_argument, 0, ARG_QUALS1},
{(char*)"Q2", required_argument, 0, ARG_QUALS2},
{(char*)"refidx", no_argument, 0, ARG_REFIDX},
{(char*)"partition", required_argument, 0, ARG_PARTITION},
{(char*)"ff", no_argument, 0, ARG_FF},
{(char*)"fr", no_argument, 0, ARG_FR},
{(char*)"rf", no_argument, 0, ARG_RF},
{(char*)"cachelim", required_argument, 0, ARG_CACHE_LIM},
{(char*)"cachesz", required_argument, 0, ARG_CACHE_SZ},
{(char*)"nofw", no_argument, 0, ARG_NO_FW},
{(char*)"norc", no_argument, 0, ARG_NO_RC},
{(char*)"skip", required_argument, 0, 's'},
{(char*)"12", required_argument, 0, ARG_ONETWO},
{(char*)"tab5", required_argument, 0, ARG_TAB5},
{(char*)"tab6", required_argument, 0, ARG_TAB6},
{(char*)"phred33-quals", no_argument, 0, ARG_PHRED33},
{(char*)"phred64-quals", no_argument, 0, ARG_PHRED64},
{(char*)"phred33", no_argument, 0, ARG_PHRED33},
{(char*)"phred64", no_argument, 0, ARG_PHRED64},
{(char*)"solexa1.3-quals", no_argument, 0, ARG_PHRED64},
{(char*)"mm", no_argument, 0, ARG_MM},
{(char*)"shmem", no_argument, 0, ARG_SHMEM},
{(char*)"mmsweep", no_argument, 0, ARG_MMSWEEP},
{(char*)"hadoopout", no_argument, 0, ARG_HADOOPOUT},
{(char*)"fuzzy", no_argument, 0, ARG_FUZZY},
{(char*)"fullref", no_argument, 0, ARG_FULLREF},
{(char*)"usage", no_argument, 0, ARG_USAGE},
{(char*)"sam-no-qname-trunc", no_argument, 0, ARG_SAM_NO_QNAME_TRUNC},
{(char*)"sam-omit-sec-seq", no_argument, 0, ARG_SAM_OMIT_SEC_SEQ},
{(char*)"omit-sec-seq", no_argument, 0, ARG_SAM_OMIT_SEC_SEQ},
{(char*)"sam-no-head", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"sam-nohead", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"sam-noHD", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"sam-no-hd", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"sam-nosq", no_argument, 0, ARG_SAM_NOSQ},
{(char*)"sam-no-sq", no_argument, 0, ARG_SAM_NOSQ},
{(char*)"sam-noSQ", no_argument, 0, ARG_SAM_NOSQ},
{(char*)"no-head", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"no-hd", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"no-sq", no_argument, 0, ARG_SAM_NOSQ},
{(char*)"no-HD", no_argument, 0, ARG_SAM_NOHEAD},
{(char*)"no-SQ", no_argument, 0, ARG_SAM_NOSQ},
{(char*)"no-unal", no_argument, 0, ARG_SAM_NO_UNAL},
{(char*)"color", no_argument, 0, 'C'},
{(char*)"sam-RG", required_argument, 0, ARG_SAM_RG},
{(char*)"sam-rg", required_argument, 0, ARG_SAM_RG},
{(char*)"sam-rg-id", required_argument, 0, ARG_SAM_RGID},
{(char*)"RG", required_argument, 0, ARG_SAM_RG},
{(char*)"rg", required_argument, 0, ARG_SAM_RG},
{(char*)"rg-id", required_argument, 0, ARG_SAM_RGID},
{(char*)"snpphred", required_argument, 0, ARG_SNPPHRED},
{(char*)"snpfrac", required_argument, 0, ARG_SNPFRAC},
{(char*)"gbar", required_argument, 0, ARG_GAP_BAR},
{(char*)"qseq", no_argument, 0, ARG_QSEQ},
{(char*)"policy", required_argument, 0, ARG_ALIGN_POLICY},
{(char*)"preset", required_argument, 0, 'P'},
{(char*)"seed-summ", no_argument, 0, ARG_SEED_SUMM},
{(char*)"seed-summary", no_argument, 0, ARG_SEED_SUMM},
{(char*)"overhang", no_argument, 0, ARG_OVERHANG},
{(char*)"no-cache", no_argument, 0, ARG_NO_CACHE},
{(char*)"cache", no_argument, 0, ARG_USE_CACHE},
{(char*)"454", no_argument, 0, ARG_NOISY_HPOLY},
{(char*)"ion-torrent", no_argument, 0, ARG_NOISY_HPOLY},
{(char*)"no-mixed", no_argument, 0, ARG_NO_MIXED},
{(char*)"no-discordant",no_argument, 0, ARG_NO_DISCORDANT},
// {(char*)"local", no_argument, 0, ARG_LOCAL},
{(char*)"end-to-end", no_argument, 0, ARG_END_TO_END},
{(char*)"ungapped", no_argument, 0, ARG_UNGAPPED},
{(char*)"no-ungapped", no_argument, 0, ARG_UNGAPPED_NO},
{(char*)"sse8", no_argument, 0, ARG_SSE8},
{(char*)"no-sse8", no_argument, 0, ARG_SSE8_NO},
{(char*)"scan-narrowed",no_argument, 0, ARG_SCAN_NARROWED},
{(char*)"qc-filter", no_argument, 0, ARG_QC_FILTER},
{(char*)"bwa-sw-like", no_argument, 0, ARG_BWA_SW_LIKE},
{(char*)"multiseed", required_argument, 0, ARG_MULTISEED_IVAL},
{(char*)"ma", required_argument, 0, ARG_SCORE_MA},
{(char*)"mp", required_argument, 0, ARG_SCORE_MMP},
{(char*)"sp", required_argument, 0, ARG_SCORE_SCP},
{(char*)"no-softclip", no_argument, 0, ARG_NO_SOFTCLIP},
{(char*)"np", required_argument, 0, ARG_SCORE_NP},
{(char*)"rdg", required_argument, 0, ARG_SCORE_RDG},
{(char*)"rfg", required_argument, 0, ARG_SCORE_RFG},
{(char*)"score-min", required_argument, 0, ARG_SCORE_MIN},
{(char*)"min-score", required_argument, 0, ARG_SCORE_MIN},
{(char*)"n-ceil", required_argument, 0, ARG_N_CEIL},
{(char*)"dpad", required_argument, 0, ARG_DPAD},
{(char*)"mapq-print-inputs",no_argument, 0, ARG_SAM_PRINT_YI},
{(char*)"very-fast", no_argument, 0, ARG_PRESET_VERY_FAST},
{(char*)"fast", no_argument, 0, ARG_PRESET_FAST},
{(char*)"sensitive", no_argument, 0, ARG_PRESET_SENSITIVE},
{(char*)"very-sensitive", no_argument, 0, ARG_PRESET_VERY_SENSITIVE},
// {(char*)"very-fast-local", no_argument, 0, ARG_PRESET_VERY_FAST_LOCAL},
// {(char*)"fast-local", no_argument, 0, ARG_PRESET_FAST_LOCAL},
// {(char*)"sensitive-local", no_argument, 0, ARG_PRESET_SENSITIVE_LOCAL},
// {(char*)"very-sensitive-local", no_argument, 0, ARG_PRESET_VERY_SENSITIVE_LOCAL},
{(char*)"no-score-priority",no_argument, 0, ARG_NO_SCORE_PRIORITY},
{(char*)"seedlen", required_argument, 0, 'L'},
{(char*)"seedmms", required_argument, 0, 'N'},
{(char*)"seedival", required_argument, 0, 'i'},
{(char*)"ignore-quals", no_argument, 0, ARG_IGNORE_QUALS},
{(char*)"index", required_argument, 0, 'x'},
{(char*)"arg-desc", no_argument, 0, ARG_DESC},
{(char*)"wrapper", required_argument, 0, ARG_WRAPPER},
{(char*)"unpaired", required_argument, 0, 'U'},
{(char*)"output", required_argument, 0, 'S'},
{(char*)"mapq-v", required_argument, 0, ARG_MAPQ_V},
{(char*)"dovetail", no_argument, 0, ARG_DOVETAIL},
{(char*)"no-dovetail", no_argument, 0, ARG_NO_DOVETAIL},
{(char*)"contain", no_argument, 0, ARG_CONTAIN},
{(char*)"no-contain", no_argument, 0, ARG_NO_CONTAIN},
{(char*)"overlap", no_argument, 0, ARG_OVERLAP},
{(char*)"no-overlap", no_argument, 0, ARG_NO_OVERLAP},
{(char*)"tighten", required_argument, 0, ARG_TIGHTEN},
{(char*)"exact-upfront", no_argument, 0, ARG_EXACT_UPFRONT},
{(char*)"1mm-upfront", no_argument, 0, ARG_1MM_UPFRONT},
{(char*)"no-exact-upfront", no_argument, 0, ARG_EXACT_UPFRONT_NO},
{(char*)"no-1mm-upfront", no_argument, 0, ARG_1MM_UPFRONT_NO},
{(char*)"1mm-minlen", required_argument, 0, ARG_1MM_MINLEN},
{(char*)"seed-off", required_argument, 0, 'O'},
{(char*)"seed-boost", required_argument, 0, ARG_SEED_BOOST_THRESH},
{(char*)"max-seeds", required_argument, 0, ARG_MAX_SEEDS},
{(char*)"read-times", no_argument, 0, ARG_READ_TIMES},
{(char*)"show-rand-seed", no_argument, 0, ARG_SHOW_RAND_SEED},
{(char*)"dp-fail-streak", required_argument, 0, ARG_DP_FAIL_STREAK_THRESH},
{(char*)"ee-fail-streak", required_argument, 0, ARG_EE_FAIL_STREAK_THRESH},
{(char*)"ug-fail-streak", required_argument, 0, ARG_UG_FAIL_STREAK_THRESH},
{(char*)"fail-streak", required_argument, 0, 'D'},
{(char*)"dp-fails", required_argument, 0, ARG_DP_FAIL_THRESH},
{(char*)"ug-fails", required_argument, 0, ARG_UG_FAIL_THRESH},
{(char*)"extends", required_argument, 0, ARG_EXTEND_ITERS},
{(char*)"no-extend", no_argument, 0, ARG_NO_EXTEND},
{(char*)"mapq-extra", no_argument, 0, ARG_MAPQ_EX},
{(char*)"seed-rounds", required_argument, 0, 'R'},
{(char*)"reorder", no_argument, 0, ARG_REORDER},
{(char*)"passthrough", no_argument, 0, ARG_READ_PASSTHRU},
{(char*)"sample", required_argument, 0, ARG_SAMPLE},
{(char*)"cp-min", required_argument, 0, ARG_CP_MIN},
{(char*)"cp-ival", required_argument, 0, ARG_CP_IVAL},
{(char*)"tri", no_argument, 0, ARG_TRI},
{(char*)"nondeterministic", no_argument, 0, ARG_NON_DETERMINISTIC},
{(char*)"non-deterministic", no_argument, 0, ARG_NON_DETERMINISTIC},
// {(char*)"local-seed-cache-sz", required_argument, 0, ARG_LOCAL_SEED_CACHE_SZ},
{(char*)"seed-cache-sz", required_argument, 0, ARG_CURRENT_SEED_CACHE_SZ},
{(char*)"no-unal", no_argument, 0, ARG_SAM_NO_UNAL},
{(char*)"test-25", no_argument, 0, ARG_TEST_25},
// TODO: following should be a function of read length?
{(char*)"desc-kb", required_argument, 0, ARG_DESC_KB},
{(char*)"desc-landing", required_argument, 0, ARG_DESC_LANDING},
{(char*)"desc-exp", required_argument, 0, ARG_DESC_EXP},
{(char*)"desc-fmops", required_argument, 0, ARG_DESC_FMOPS},
{(char*)"no-temp-splicesite", no_argument, 0, ARG_NO_TEMPSPLICESITE},
{(char*)"pen-cansplice", required_argument, 0, ARG_PEN_CANSPLICE},
{(char*)"pen-noncansplice", required_argument, 0, ARG_PEN_NONCANSPLICE},
{(char*)"pen-conflictsplice", required_argument, 0, ARG_PEN_CONFLICTSPLICE},
{(char*)"pen-intronlen", required_argument, 0, ARG_PEN_CANINTRONLEN},
{(char*)"pen-canintronlen", required_argument, 0, ARG_PEN_CANINTRONLEN},
{(char*)"pen-noncanintronlen", required_argument, 0, ARG_PEN_NONCANINTRONLEN},
{(char*)"min-intronlen", required_argument, 0, ARG_MIN_INTRONLEN},
{(char*)"max-intronlen", required_argument, 0, ARG_MAX_INTRONLEN},
{(char*)"known-splicesite-infile", required_argument, 0, ARG_KNOWN_SPLICESITE_INFILE},
{(char*)"novel-splicesite-infile", required_argument, 0, ARG_NOVEL_SPLICESITE_INFILE},
{(char*)"novel-splicesite-outfile", required_argument, 0, ARG_NOVEL_SPLICESITE_OUTFILE},
{(char*)"secondary", no_argument, 0, ARG_SECONDARY},
{(char*)"no-spliced-alignment", no_argument, 0, ARG_NO_SPLICED_ALIGNMENT},
{(char*)"rna-strandness", required_argument, 0, ARG_RNA_STRANDNESS},
{(char*)"splicesite-db-only", no_argument, 0, ARG_SPLICESITE_DB_ONLY},
{(char*)"no-anchorstop", no_argument, 0, ARG_NO_ANCHORSTOP},
{(char*)"transcriptome-mapping-only", no_argument, 0, ARG_TRANSCRIPTOME_MAPPING_ONLY},
{(char*)"tmo", no_argument, 0, ARG_TRANSCRIPTOME_MAPPING_ONLY},
{(char*)"downstream-transcriptome-assembly", no_argument, 0, ARG_TRANSCRIPTOME_ASSEMBLY},
{(char*)"dta", no_argument, 0, ARG_TRANSCRIPTOME_ASSEMBLY},
{(char*)"dta-cufflinks", no_argument, 0, ARG_TRANSCRIPTOME_ASSEMBLY_CUFFLINKS},
{(char*)"avoid-pseudogene",no_argument, 0, ARG_AVOID_PSEUDOGENE},
{(char*)"no-templatelen-adjustment", no_argument, 0, ARG_NO_TEMPLATELEN_ADJUSTMENT},
#ifdef USE_SRA
{(char*)"sra-acc", required_argument, 0, ARG_SRA_ACC},
#endif
{(char*)"remove-chrname", no_argument, 0, ARG_REMOVE_CHRNAME},
{(char*)"add-chrname", no_argument, 0, ARG_ADD_CHRNAME},
{(char*)"max-altstried", required_argument, 0, ARG_MAX_ALTSTRIED},
{(char*)"haplotype", no_argument, 0, ARG_HAPLOTYPE},
{(char*)"enable-codis", no_argument, 0, ARG_CODIS},
{(char*)"summary-file", required_argument, 0, ARG_SUMMARY_FILE},
{(char*)"new-summary", no_argument, 0, ARG_NEW_SUMMARY},
{(char*)"enable-dp", no_argument, 0, ARG_DP},
{(char*)"bowtie2-dp", required_argument, 0, ARG_DP},
{(char*)"repeat", no_argument, 0, ARG_REPEAT},
{(char*)"no-repeat-index", no_argument, 0, ARG_NO_REPEAT_INDEX},
{(char*)"read-lengths", required_argument, 0, ARG_READ_LENGTHS},
{(char*)0, 0, 0, 0} // terminator
};
/**
* Print out a concise description of what options are taken and whether they
* take an argument.
*/
static void printArgDesc(ostream& out) {
// struct option {
// const char *name;
// int has_arg;
// int *flag;
// int val;
// };
size_t i = 0;
while(long_options[i].name != 0) {
out << long_options[i].name << "\t"
<< (long_options[i].has_arg == no_argument ? 0 : 1)
<< endl;
i++;
}
size_t solen = strlen(short_options);
for(i = 0; i < solen; i++) {
// Has an option? Does if next char is :
if(i == solen-1) {
assert_neq(':', short_options[i]);
cout << (char)short_options[i] << "\t" << 0 << endl;
} else {
if(short_options[i+1] == ':') {
// Option with argument
cout << (char)short_options[i] << "\t" << 1 << endl;
i++; // skip the ':'
} else {
// Option with no argument
cout << (char)short_options[i] << "\t" << 0 << endl;
}
}
}
}
/**
* Print a summary usage message to the provided output stream.
*/
static void printUsage(ostream& out) {
out << "HISAT2 version " << string(HISAT2_VERSION).c_str() << " by Daehwan Kim ([email protected], www.ccb.jhu.edu/people/infphilo)" << endl;
string tool_name = "hisat2-align";
if(wrapper == "basic-0") {
tool_name = "hisat2";
}
out << "Usage: " << endl
#ifdef USE_SRA
<< " " << tool_name.c_str() << " [options]* -x <ht2-idx> {-1 <m1> -2 <m2> | -U <r> | --sra-acc <SRA accession number>} [-S <sam>]" << endl
#else
<< " " << tool_name.c_str() << " [options]* -x <ht2-idx> {-1 <m1> -2 <m2> | -U <r>} [-S <sam>]" << endl
#endif
<< endl
<< " <ht2-idx> Index filename prefix (minus trailing .X." << gfm_ext << ")." << endl
<< " <m1> Files with #1 mates, paired with files in <m2>." << endl;
if(wrapper == "basic-0") {
out << " Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2)." << endl;
}
out << " <m2> Files with #2 mates, paired with files in <m1>." << endl;
if(wrapper == "basic-0") {
out << " Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2)." << endl;
}
out << " <r> Files with unpaired reads." << endl;
if(wrapper == "basic-0") {
out << " Could be gzip'ed (extension: .gz) or bzip2'ed (extension: .bz2)." << endl;
}
#ifdef USE_SRA
out << " <SRA accession number> Comma-separated list of SRA accession numbers, e.g. --sra-acc SRR353653,SRR353654." << endl;
#endif
out << " <sam> File for SAM output (default: stdout)" << endl
<< endl
<< " <m1>, <m2>, <r> can be comma-separated lists (no whitespace) and can be" << endl
<< " specified many times. E.g. '-U file1.fq,file2.fq -U file3.fq'." << endl
// Wrapper script should write <bam> line next
<< endl
<< "Options (defaults in parentheses):" << endl
<< endl
<< " Input:" << endl
<< " -q query input files are FASTQ .fq/.fastq (default)" << endl
<< " --qseq query input files are in Illumina's qseq format" << endl
<< " -f query input files are (multi-)FASTA .fa/.mfa" << endl
<< " -r query input files are raw one-sequence-per-line" << endl
<< " -c <m1>, <m2>, <r> are sequences themselves, not files" << endl
<< " -s/--skip <int> skip the first <int> reads/pairs in the input (none)" << endl
<< " -u/--upto <int> stop after first <int> reads/pairs (no limit)" << endl
<< " -5/--trim5 <int> trim <int> bases from 5'/left end of reads (0)" << endl
<< " -3/--trim3 <int> trim <int> bases from 3'/right end of reads (0)" << endl
<< " --phred33 qualities are Phred+33 (default)" << endl
<< " --phred64 qualities are Phred+64" << endl
<< " --int-quals qualities encoded as space-delimited integers" << endl
#ifdef USE_SRA
<< " --sra-acc SRA accession ID" << endl
#endif
<< endl
<< " Presets: Same as:" << endl
// << " For --end-to-end:" << endl
// << " --very-fast -D 5 -R 1 -N 0 -L 22 -i S,0,2.50" << endl
// << " --fast -D 10 -R 2 -N 0 -L 22 -i S,0,2.50" << endl
// << " --sensitive -D 15 -R 2 -N 0 -L 22 -i S,1,1.15 (default)" << endl
// << " --very-sensitive -D 20 -R 3 -N 0 -L 20 -i S,1,0.50" << endl
<< " --fast --no-repeat-index" << endl
<< " --sensitive --bowtie2-dp 1 -k 30 --score-min L,0,-0.5" << endl
<< " --very-sensitive --bowtie2-dp 2 -k 50 --score-min L,0,-1" << endl
<< endl
<< " Alignment:" << endl
//<< " -N <int> max # mismatches in seed alignment; can be 0 or 1 (0)" << endl
//<< " -L <int> length of seed substrings; must be >3, <32 (22)" << endl
//<< " -i <func> interval between seed substrings w/r/t read len (S,1,1.15)" << endl
<< " --bowtie2-dp <int> use Bowtie2's dynamic programming alignment algorithm (0) - 0: no dynamic programming, 1: conditional dynamic programming, and 2: unconditional dynamic programming (slowest)" << endl
<< " --n-ceil <func> func for max # non-A/C/G/Ts permitted in aln (L,0,0.15)" << endl
//<< " --dpad <int> include <int> extra ref chars on sides of DP table (15)" << endl
//<< " --gbar <int> disallow gaps within <int> nucs of read extremes (4)" << endl
<< " --ignore-quals treat all quality values as 30 on Phred scale (off)" << endl
<< " --nofw do not align forward (original) version of read (off)" << endl
<< " --norc do not align reverse-complement version of read (off)" << endl
<< " --no-repeat-index do not use repeat index" << endl
<< endl
<< " Spliced Alignment:" << endl
<< " --pen-cansplice <int> penalty for a canonical splice site (0)" << endl
<< " --pen-noncansplice <int> penalty for a non-canonical splice site (12)" << endl
// << " --pen-conflictsplice <int> penalty for conflicting splice sites (1000000)" << endl
<< " --pen-canintronlen <func> penalty for long introns (G,-8,1) with canonical splice sites" << endl
<< " --pen-noncanintronlen <func> penalty for long introns (G,-8,1) with noncanonical splice sites" << endl
<< " --min-intronlen <int> minimum intron length (20)" << endl
<< " --max-intronlen <int> maximum intron length (500000)" << endl
<< " --known-splicesite-infile <path> provide a list of known splice sites" << endl
<< " --novel-splicesite-outfile <path> report a list of splice sites" << endl
<< " --novel-splicesite-infile <path> provide a list of novel splice sites" << endl
<< " --no-temp-splicesite disable the use of splice sites found" << endl
<< " --no-spliced-alignment disable spliced alignment" << endl
<< " --rna-strandness <string> specify strand-specific information (unstranded)" << endl
<< " --tmo reports only those alignments within known transcriptome" << endl
<< " --dta reports alignments tailored for transcript assemblers" << endl
<< " --dta-cufflinks reports alignments tailored specifically for cufflinks" << endl
<< " --avoid-pseudogene tries to avoid aligning reads to pseudogenes (experimental option)" << endl
<< " --no-templatelen-adjustment disables template length adjustment for RNA-seq reads" << endl
<< endl
<< " Scoring:" << endl
//<< " --ma <int> match bonus (0 for --end-to-end, 2 for --local) " << endl
<< " --mp <int>,<int> max and min penalties for mismatch; lower qual = lower penalty <6,2>" << endl
<< " --sp <int>,<int> max and min penalties for soft-clipping; lower qual = lower penalty <2,1>" << endl
<< " --no-softclip no soft-clipping" << endl
<< " --np <int> penalty for non-A/C/G/Ts in read/ref (1)" << endl
<< " --rdg <int>,<int> read gap open, extend penalties (5,3)" << endl
<< " --rfg <int>,<int> reference gap open, extend penalties (5,3)" << endl
<< " --score-min <func> min acceptable alignment score w/r/t read length" << endl
<< " (L,0.0,-0.2)" << endl
<< endl
<< " Reporting:" << endl
<< " -k <int> It searches for at most <int> distinct, primary alignments for each read. Primary alignments mean " << endl
<< " alignments whose alignment score is equal to or higher than any other alignments. The search terminates " << endl
<< " when it cannot find more distinct valid alignments, or when it finds <int>, whichever happens first. " << endl
<< " The alignment score for a paired-end alignment equals the sum of the alignment scores of " << endl
<< " the individual mates. Each reported read or pair alignment beyond the first has the SAM ‘secondary’ bit " << endl
<< " (which equals 256) set in its FLAGS field. For reads that have more than <int> distinct, " << endl
<< " valid alignments, hisat2 does not guarantee that the <int> alignments reported are the best possible " << endl
<< " in terms of alignment score. Default: 5 (linear index) or 10 (graph index)." << endl
<< " Note: HISAT2 is not designed with large values for -k in mind, and when aligning reads to long, " << endl
<< " repetitive genomes, large -k could make alignment much slower." << endl
<< " --max-seeds <int> HISAT2, like other aligners, uses seed-and-extend approaches. HISAT2 tries to extend seeds to " << endl
<< " full-length alignments. In HISAT2, --max-seeds is used to control the maximum number of seeds that " << endl
<< " will be extended. For DNA-read alignment (--no-spliced-alignment), HISAT2 extends up to these many seeds" << endl
<< " and skips the rest of the seeds. For RNA-read alignment, HISAT2 skips extending seeds and reports " << endl
<< " no alignments if the number of seeds is larger than the number specified with the option, " << endl
<< " to be compatible with previous versions of HISAT2. Large values for --max-seeds may improve alignment " << endl
<< " sensitivity, but HISAT2 is not designed with large values for --max-seeds in mind, and when aligning " << endl
<< " reads to long, repetitive genomes, large --max-seeds could make alignment much slower. " << endl
<< " The default value is the maximum of 5 and the value that comes with -k times 2." << endl
<< " -a/--all HISAT2 reports all alignments it can find. Using the option is equivalent to using both --max-seeds " << endl
<< " and -k with the maximum value that a 64-bit signed integer can represent (9,223,372,036,854,775,807)." << endl
<< " --repeat report alignments to repeat sequences directly" << endl
<< endl
//<< " Effort:" << endl
//<< " -D <int> give up extending after <int> failed extends in a row (15)" << endl
//<< " -R <int> for reads w/ repetitive seeds, try <int> sets of seeds (2)" << endl
//<< endl
<< " Paired-end:" << endl
<< " -I/--minins <int> minimum fragment length (0), only valid with --no-spliced-alignment" << endl
<< " -X/--maxins <int> maximum fragment length (500), only valid with --no-spliced-alignment" << endl
<< " --fr/--rf/--ff -1, -2 mates align fw/rev, rev/fw, fw/fw (--fr)" << endl
<< " --no-mixed suppress unpaired alignments for paired reads" << endl
<< " --no-discordant suppress discordant alignments for paired reads" << endl
<< endl
<< " Output:" << endl;
//if(wrapper == "basic-0") {
// out << " --bam output directly to BAM (by piping through 'samtools view')" << endl;
//}
out << " -t/--time print wall-clock time taken by search phases" << endl;
if(wrapper == "basic-0") {
out << " --un <path> write unpaired reads that didn't align to <path>" << endl
<< " --al <path> write unpaired reads that aligned at least once to <path>" << endl
<< " --un-conc <path> write pairs that didn't align concordantly to <path>" << endl
<< " --al-conc <path> write pairs that aligned concordantly at least once to <path>" << endl
<< " (Note: for --un, --al, --un-conc, or --al-conc, add '-gz' to the option name, e.g." << endl
<< " --un-gz <path>, to gzip compress output, or add '-bz2' to bzip2 compress output.)" << endl;
}
out << " --summary-file <path> print alignment summary to this file." << endl
<< " --new-summary print alignment summary in a new style, which is more machine-friendly." << endl
<< " --quiet print nothing to stderr except serious errors" << endl
// << " --refidx refer to ref. seqs by 0-based index rather than name" << endl
<< " --met-file <path> send metrics to file at <path> (off)" << endl
<< " --met-stderr send metrics to stderr (off)" << endl
<< " --met <int> report internal counters & metrics every <int> secs (1)" << endl
// Following is supported in the wrapper instead
// << " --no-unal suppress SAM records for unaligned reads" << endl
<< " --no-head suppress header lines, i.e. lines starting with @" << endl
<< " --no-sq suppress @SQ header lines" << endl
<< " --rg-id <text> set read group id, reflected in @RG line and RG:Z: opt field" << endl
<< " --rg <text> add <text> (\"lab:value\") to @RG line of SAM header." << endl
<< " Note: @RG line only printed when --rg-id is set." << endl
<< " --omit-sec-seq put '*' in SEQ and QUAL fields for secondary alignments." << endl
<< endl
<< " Performance:" << endl
<< " -o/--offrate <int> override offrate of index; must be >= index's offrate" << endl
<< " -p/--threads <int> number of alignment threads to launch (1)" << endl
<< " --reorder force SAM output order to match order of input reads" << endl
#ifdef BOWTIE_MM
<< " --mm use memory-mapped I/O for index; many 'hisat2's can share" << endl
#endif
#ifdef BOWTIE_SHARED_MEM
//<< " --shmem use shared mem for index; many 'hisat2's can share" << endl
#endif
<< endl
<< " Other:" << endl
<< " --qc-filter filter out reads that are bad according to QSEQ filter" << endl
<< " --seed <int> seed for random number generator (0)" << endl
<< " --non-deterministic seed rand. gen. arbitrarily instead of using read attributes" << endl
<< " --remove-chrname remove 'chr' from reference names in alignment" << endl
<< " --add-chrname add 'chr' to reference names in alignment " << endl
// << " --verbose verbose output for debugging" << endl
<< " --version print version information and quit" << endl
<< " -h/--help print this usage message" << endl
;
if(wrapper.empty()) {