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minimap.h
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minimap.h
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#ifndef MINIMAP2_H
#define MINIMAP2_H
#include <stdint.h>
#include <stdio.h>
#include <sys/types.h>
#define MM_F_NO_DIAG 0x001 // no exact diagonal hit
#define MM_F_NO_DUAL 0x002 // skip pairs where query name is lexicographically larger than target name
#define MM_F_CIGAR 0x004
#define MM_F_OUT_SAM 0x008
#define MM_F_NO_QUAL 0x010
#define MM_F_OUT_CG 0x020
#define MM_F_OUT_CS 0x040
#define MM_F_SPLICE 0x080 // splice mode
#define MM_F_SPLICE_FOR 0x100 // match GT-AG
#define MM_F_SPLICE_REV 0x200 // match CT-AC, the reverse complement of GT-AG
#define MM_F_NO_LJOIN 0x400
#define MM_F_OUT_CS_LONG 0x800
#define MM_F_SR 0x1000
#define MM_F_FRAG_MODE 0x2000
#define MM_F_NO_PRINT_2ND 0x4000
#define MM_F_2_IO_THREADS 0x8000
#define MM_F_LONG_CIGAR 0x10000
#define MM_F_INDEPEND_SEG 0x20000
#define MM_F_SPLICE_FLANK 0x40000
#define MM_F_SOFTCLIP 0x80000
#define MM_F_FOR_ONLY 0x100000
#define MM_F_REV_ONLY 0x200000
#define MM_F_HEAP_SORT 0x400000
#define MM_F_ALL_CHAINS 0x800000
#define MM_F_OUT_MD 0x1000000
#define MM_F_COPY_COMMENT 0x2000000
#define MM_F_EQX 0x4000000 // use =/X instead of M
#define MM_F_PAF_NO_HIT 0x8000000 // output unmapped reads to PAF
#define MM_F_NO_END_FLT 0x10000000
#define MM_F_HARD_MLEVEL 0x20000000
#define MM_F_SAM_HIT_ONLY 0x40000000
#define MM_I_HPC 0x1
#define MM_I_NO_SEQ 0x2
#define MM_I_NO_NAME 0x4
#define MM_IDX_MAGIC "MMI\2"
#define MM_MAX_SEG 255
#ifdef __cplusplus
extern "C" {
#endif
// emulate 128-bit integers and arrays
typedef struct { uint64_t x, y; } mm128_t;
typedef struct { size_t n, m; mm128_t *a; } mm128_v;
// minimap2 index
typedef struct {
char *name; // name of the db sequence
uint64_t offset; // offset in mm_idx_t::S
uint32_t len; // length
} mm_idx_seq_t;
typedef struct {
int32_t b, w, k, flag;
uint32_t n_seq; // number of reference sequences
int32_t index;
mm_idx_seq_t *seq; // sequence name, length and offset
uint32_t *S; // 4-bit packed sequence
struct mm_idx_bucket_s *B; // index (hidden)
struct mm_idx_intv_s *I; // intervals (hidden)
void *km, *h;
} mm_idx_t;
// minimap2 alignment
typedef struct {
uint32_t capacity; // the capacity of cigar[]
int32_t dp_score, dp_max, dp_max2; // DP score; score of the max-scoring segment; score of the best alternate mappings
uint32_t n_ambi:30, trans_strand:2; // number of ambiguous bases; transcript strand: 0 for unknown, 1 for +, 2 for -
uint32_t n_cigar; // number of cigar operations in cigar[]
uint32_t cigar[];
} mm_extra_t;
typedef struct {
int32_t id; // ID for internal uses (see also parent below)
int32_t cnt; // number of minimizers; if on the reverse strand
int32_t rid; // reference index; if this is an alignment from inversion rescue
int32_t score; // DP alignment score
int32_t qs, qe, rs, re; // query start and end; reference start and end
int32_t parent, subsc; // parent==id if primary; best alternate mapping score
int32_t as; // offset in the a[] array (for internal uses only)
int32_t mlen, blen; // seeded exact match length; seeded alignment block length
int32_t n_sub; // number of suboptimal mappings
int32_t score0; // initial chaining score (before chain merging/spliting)
uint32_t mapq:8, split:2, rev:1, inv:1, sam_pri:1, proper_frag:1, pe_thru:1, seg_split:1, seg_id:8, split_inv:1, dummy:7;
uint32_t hash;
float div;
mm_extra_t *p;
} mm_reg1_t;
// indexing and mapping options
typedef struct {
short k, w, flag, bucket_bits;
int mini_batch_size;
uint64_t batch_size;
} mm_idxopt_t;
typedef struct {
int64_t flag; // see MM_F_* macros
int seed;
int sdust_thres; // score threshold for SDUST; 0 to disable
int max_qlen; // max query length
int bw; // bandwidth
int max_gap, max_gap_ref; // break a chain if there are no minimizers in a max_gap window
int max_frag_len;
int max_chain_skip, max_chain_iter;
int min_cnt; // min number of minimizers on each chain
int min_chain_score; // min chaining score
float mask_level;
float pri_ratio;
int best_n; // top best_n chains are subjected to DP alignment
int max_join_long, max_join_short;
int min_join_flank_sc;
float min_join_flank_ratio;
int a, b, q, e, q2, e2; // matching score, mismatch, gap-open and gap-ext penalties
int sc_ambi; // score when one or both bases are "N"
int noncan; // cost of non-canonical splicing sites
int junc_bonus;
int zdrop, zdrop_inv; // break alignment if alignment score drops too fast along the diagonal
int end_bonus;
int min_dp_max; // drop an alignment if the score of the max scoring segment is below this threshold
int min_ksw_len;
int anchor_ext_len, anchor_ext_shift;
float max_clip_ratio; // drop an alignment if BOTH ends are clipped above this ratio
int pe_ori, pe_bonus;
float mid_occ_frac; // only used by mm_mapopt_update(); see below
int32_t min_mid_occ;
int32_t mid_occ; // ignore seeds with occurrences above this threshold
int32_t max_occ;
int mini_batch_size; // size of a batch of query bases to process in parallel
int64_t max_sw_mat;
const char *split_prefix;
} mm_mapopt_t;
// index reader
typedef struct {
int is_idx, n_parts;
int64_t idx_size;
mm_idxopt_t opt;
FILE *fp_out;
union {
struct mm_bseq_file_s *seq;
FILE *idx;
} fp;
} mm_idx_reader_t;
// memory buffer for thread-local storage during mapping
typedef struct mm_tbuf_s mm_tbuf_t;
// global variables
extern int mm_verbose, mm_dbg_flag; // verbose level: 0 for no info, 1 for error, 2 for warning, 3 for message (default); debugging flag
extern double mm_realtime0; // wall-clock timer
/**
* Set default or preset parameters
*
* @param preset NULL to set all parameters as default; otherwise apply preset to affected parameters
* @param io pointer to indexing parameters
* @param mo pointer to mapping parameters
*
* @return 0 if success; -1 if _present_ unknown
*/
int mm_set_opt(const char *preset, mm_idxopt_t *io, mm_mapopt_t *mo);
int mm_check_opt(const mm_idxopt_t *io, const mm_mapopt_t *mo);
/**
* Update mm_mapopt_t::mid_occ via mm_mapopt_t::mid_occ_frac
*
* If mm_mapopt_t::mid_occ is 0, this function sets it to a number such that no
* more than mm_mapopt_t::mid_occ_frac of minimizers in the index have a higher
* occurrence.
*
* @param opt mapping parameters
* @param mi minimap2 index
*/
void mm_mapopt_update(mm_mapopt_t *opt, const mm_idx_t *mi);
void mm_mapopt_max_intron_len(mm_mapopt_t *opt, int max_intron_len);
/**
* Initialize an index reader
*
* @param fn index or fasta/fastq file name (this function tests the file type)
* @param opt indexing parameters
* @param fn_out if not NULL, write built index to this file
*
* @return an index reader on success; NULL if fail to open _fn_
*/
mm_idx_reader_t *mm_idx_reader_open(const char *fn, const mm_idxopt_t *opt, const char *fn_out);
/**
* Read/build an index
*
* If the input file is an index file, this function reads one part of the
* index and returns. If the input file is a sequence file (fasta or fastq),
* this function constructs the index for about mm_idxopt_t::batch_size bases.
* Importantly, for a huge collection of sequences, this function may only
* return an index for part of sequences. It needs to be repeatedly called
* to traverse the entire index/sequence file.
*
* @param r index reader
* @param n_threads number of threads for constructing index
*
* @return an index on success; NULL if reaching the end of the input file
*/
mm_idx_t *mm_idx_reader_read(mm_idx_reader_t *r, int n_threads);
/**
* Destroy/deallocate an index reader
*
* @param r index reader
*/
void mm_idx_reader_close(mm_idx_reader_t *r);
int mm_idx_reader_eof(const mm_idx_reader_t *r);
/**
* Check whether the file contains a minimap2 index
*
* @param fn file name
*
* @return the file size if fn is an index file; 0 if fn is not.
*/
int64_t mm_idx_is_idx(const char *fn);
/**
* Load a part of an index
*
* Given a uni-part index, this function loads the entire index into memory.
* Given a multi-part index, it loads one part only and places the file pointer
* at the end of that part.
*
* @param fp pointer to FILE object
*
* @return minimap2 index read from fp
*/
mm_idx_t *mm_idx_load(FILE *fp);
/**
* Append an index (or one part of a full index) to file
*
* @param fp pointer to FILE object
* @param mi minimap2 index
*/
void mm_idx_dump(FILE *fp, const mm_idx_t *mi);
/**
* Create an index from strings in memory
*
* @param w minimizer window size
* @param k minimizer k-mer size
* @param is_hpc use HPC k-mer if true
* @param bucket_bits number of bits for the first level of the hash table
* @param n number of sequences
* @param seq sequences in A/C/G/T
* @param name sequence names; could be NULL
*
* @return minimap2 index
*/
mm_idx_t *mm_idx_str(int w, int k, int is_hpc, int bucket_bits, int n, const char **seq, const char **name);
/**
* Print index statistics to stderr
*
* @param mi minimap2 index
*/
void mm_idx_stat(const mm_idx_t *idx);
/**
* Destroy/deallocate an index
*
* @param r minimap2 index
*/
void mm_idx_destroy(mm_idx_t *mi);
/**
* Initialize a thread-local buffer for mapping
*
* Each mapping thread requires a buffer specific to the thread (see mm_map()
* below). The primary purpose of this buffer is to reduce frequent heap
* allocations across threads. A buffer shall not be used by two or more
* threads.
*
* @return pointer to a thread-local buffer
*/
mm_tbuf_t *mm_tbuf_init(void);
/**
* Destroy/deallocate a thread-local buffer for mapping
*
* @param b the buffer
*/
void mm_tbuf_destroy(mm_tbuf_t *b);
void *mm_tbuf_get_km(mm_tbuf_t *b);
/**
* Align a query sequence against an index
*
* This function possibly finds multiple alignments of the query sequence.
* The returned array and the mm_reg1_t::p field of each element are allocated
* with malloc().
*
* @param mi minimap2 index
* @param l_seq length of the query sequence
* @param seq the query sequence
* @param n_regs number of hits (out)
* @param b thread-local buffer; two mm_map() calls shall not use one buffer at the same time!
* @param opt mapping parameters
* @param name query name, used for all-vs-all overlapping and debugging
*
* @return an array of hits which need to be deallocated with free() together
* with mm_reg1_t::p of each element. The size is written to _n_regs_.
*/
mm_reg1_t *mm_map(const mm_idx_t *mi, int l_seq, const char *seq, int *n_regs, mm_tbuf_t *b, const mm_mapopt_t *opt, const char *name);
void mm_map_frag(const mm_idx_t *mi, int n_segs, const int *qlens, const char **seqs, int *n_regs, mm_reg1_t **regs, mm_tbuf_t *b, const mm_mapopt_t *opt, const char *qname);
/**
* Align a fasta/fastq file and print alignments to stdout
*
* @param idx minimap2 index
* @param fn fasta/fastq file name
* @param opt mapping parameters
* @param n_threads number of threads
*
* @return 0 on success; -1 if _fn_ can't be read
*/
int mm_map_file(const mm_idx_t *idx, const char *fn, const mm_mapopt_t *opt, int n_threads);
int mm_map_file_frag(const mm_idx_t *idx, int n_segs, const char **fn, const mm_mapopt_t *opt, int n_threads);
/**
* Generate the cs tag (new in 2.12)
*
* @param km memory blocks; set to NULL if unsure
* @param buf buffer to write the cs/MD tag; typicall NULL on the first call
* @param max_len max length of the buffer; typically set to 0 on the first call
* @param mi index
* @param r alignment
* @param seq query sequence
* @param no_iden true to use : instead of =
*
* @return the length of cs
*/
int mm_gen_cs(void *km, char **buf, int *max_len, const mm_idx_t *mi, const mm_reg1_t *r, const char *seq, int no_iden);
int mm_gen_MD(void *km, char **buf, int *max_len, const mm_idx_t *mi, const mm_reg1_t *r, const char *seq);
// query sequence name and sequence in the minimap2 index
int mm_idx_index_name(mm_idx_t *mi);
int mm_idx_name2id(const mm_idx_t *mi, const char *name);
int mm_idx_getseq(const mm_idx_t *mi, uint32_t rid, uint32_t st, uint32_t en, uint8_t *seq);
int mm_idx_bed_read(mm_idx_t *mi, const char *fn, int read_junc);
int mm_idx_bed_junc(const mm_idx_t *mi, int32_t ctg, int32_t st, int32_t en, uint8_t *s);
// deprecated APIs for backward compatibility
void mm_mapopt_init(mm_mapopt_t *opt);
mm_idx_t *mm_idx_build(const char *fn, int w, int k, int flag, int n_threads);
#ifdef __cplusplus
}
#endif
#endif // MINIMAP2_H