/* The MIT License Copyright (c) 2008, 2009, 2011 Attractive Chaos Copyright (C) 2013, 2018, 2020, 2023 Genome Research Ltd. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef AC_KSEQ_H #define AC_KSEQ_H #include #include #include #include "kstring.h" #ifndef klib_unused #if (defined __clang__ && __clang_major__ >= 3) || (defined __GNUC__ && __GNUC__ >= 3) #define klib_unused __attribute__ ((__unused__)) #else #define klib_unused #endif #endif /* klib_unused */ #define KS_SEP_SPACE 0 // isspace(): \t, \n, \v, \f, \r #define KS_SEP_TAB 1 // isspace() && !' ' #define KS_SEP_LINE 2 // line separator: "\n" (Unix) or "\r\n" (Windows) #define KS_SEP_MAX 2 #define __KS_TYPE(type_t) \ typedef struct __kstream_t { \ int begin, end; \ int is_eof:2, bufsize:30; \ uint64_t seek_pos; \ type_t f; \ unsigned char *buf; \ } kstream_t; #define ks_err(ks) ((ks)->end == -1) #define ks_eof(ks) ((ks)->is_eof && (ks)->begin >= (ks)->end) #define ks_rewind(ks) ((ks)->is_eof = (ks)->begin = (ks)->end = 0) #define __KS_BASIC(SCOPE, type_t, __bufsize) \ SCOPE kstream_t *ks_init(type_t f) \ { \ kstream_t *ks = (kstream_t*)calloc(1, sizeof(kstream_t)); \ ks->f = f; ks->bufsize = __bufsize; \ ks->buf = (unsigned char*)malloc(__bufsize); \ return ks; \ } \ SCOPE void ks_destroy(kstream_t *ks) \ { \ if (!ks) return; \ free(ks->buf); \ free(ks); \ } #define __KS_INLINED(__read) \ static inline klib_unused int ks_getc(kstream_t *ks) \ { \ if (ks_err(ks)) return -3; \ if (ks->is_eof && ks->begin >= ks->end) return -1; \ if (ks->begin >= ks->end) { \ ks->begin = 0; \ ks->end = __read(ks->f, ks->buf, ks->bufsize); \ if (ks->end == 0) { ks->is_eof = 1; return -1; } \ if (ks->end == -1) { ks->is_eof = 1; return -3; } \ } \ ks->seek_pos++; \ return (int)ks->buf[ks->begin++]; \ } \ static inline klib_unused int ks_getuntil(kstream_t *ks, int delimiter, kstring_t *str, int *dret) \ { return ks_getuntil2(ks, delimiter, str, dret, 0); } #define __KS_GETUNTIL(SCOPE, __read) \ SCOPE int ks_getuntil2(kstream_t *ks, int delimiter, kstring_t *str, int *dret, int append) \ { \ int gotany = 0; \ if (dret) *dret = 0; \ str->l = append? str->l : 0; \ uint64_t seek_pos = str->l; \ for (;;) { \ int i; \ if (ks_err(ks)) return -3; \ if (ks->begin >= ks->end) { \ if (!ks->is_eof) { \ ks->begin = 0; \ ks->end = __read(ks->f, ks->buf, ks->bufsize); \ if (ks->end == 0) { ks->is_eof = 1; break; } \ if (ks->end == -1) { ks->is_eof = 1; return -3; } \ } else break; \ } \ if (delimiter == KS_SEP_LINE) { \ unsigned char *sep = (unsigned char *)memchr(ks->buf + ks->begin, '\n', ks->end - ks->begin); \ i = sep != NULL ? sep - ks->buf : ks->end; \ } else if (delimiter > KS_SEP_MAX) { \ unsigned char *sep = (unsigned char *)memchr(ks->buf + ks->begin, delimiter, ks->end - ks->begin); \ i = sep != NULL ? sep - ks->buf : ks->end; \ } else if (delimiter == KS_SEP_SPACE) { \ for (i = ks->begin; i < ks->end; ++i) \ if (isspace(ks->buf[i])) break; \ } else if (delimiter == KS_SEP_TAB) { \ for (i = ks->begin; i < ks->end; ++i) \ if (isspace(ks->buf[i]) && ks->buf[i] != ' ') break; \ } else i = 0; /* never come to here! */ \ (void) ks_expand(str, i - ks->begin + 1); \ seek_pos += i - ks->begin; if ( i < ks->end ) seek_pos++; \ gotany = 1; \ memcpy(str->s + str->l, ks->buf + ks->begin, i - ks->begin); \ str->l = str->l + (i - ks->begin); \ ks->begin = i + 1; \ if (i < ks->end) { \ if (dret) *dret = ks->buf[i]; \ break; \ } \ } \ if (!gotany && ks_eof(ks)) return -1; \ ks->seek_pos += seek_pos; \ if (str->s == 0) { \ str->m = 1; \ str->s = (char*)calloc(1, 1); \ } else if (delimiter == KS_SEP_LINE && str->l > 1 && str->s[str->l-1] == '\r') --str->l; \ str->s[str->l] = '\0'; \ return str->l; \ } #define KSTREAM_INIT2(SCOPE, type_t, __read, __bufsize) \ __KS_TYPE(type_t) \ __KS_BASIC(SCOPE, type_t, __bufsize) \ __KS_GETUNTIL(SCOPE, __read) \ __KS_INLINED(__read) #define KSTREAM_INIT(type_t, __read, __bufsize) KSTREAM_INIT2(static, type_t, __read, __bufsize) #define KSTREAM_DECLARE(type_t, __read) \ __KS_TYPE(type_t) \ extern int ks_getuntil2(kstream_t *ks, int delimiter, kstring_t *str, int *dret, int append); \ extern kstream_t *ks_init(type_t f); \ extern void ks_destroy(kstream_t *ks); \ __KS_INLINED(__read) /****************** * FASTA/Q parser * ******************/ #define kseq_rewind(ks) ((ks)->last_char = (ks)->f->is_eof = (ks)->f->begin = (ks)->f->end = 0) #define __KSEQ_BASIC(SCOPE, type_t) \ SCOPE kseq_t *kseq_init(type_t fd) \ { \ kseq_t *s = (kseq_t*)calloc(1, sizeof(kseq_t)); \ s->f = ks_init(fd); \ return s; \ } \ SCOPE void kseq_destroy(kseq_t *ks) \ { \ if (!ks) return; \ free(ks->name.s); free(ks->comment.s); free(ks->seq.s); free(ks->qual.s); \ ks_destroy(ks->f); \ free(ks); \ } /* Return value: >=0 length of the sequence (normal) -1 end-of-file -2 truncated quality string -3 error reading stream -4 overflow error */ #define __KSEQ_READ(SCOPE) \ SCOPE int kseq_read(kseq_t *seq) \ { \ int c,r; \ kstream_t *ks = seq->f; \ if (seq->last_char == 0) { /* then jump to the next header line */ \ while ((c = ks_getc(ks)) >= 0 && c != '>' && c != '@'); \ if (c < 0) return c; /* end of file or error */ \ seq->last_char = c; \ } /* else: the first header char has been read in the previous call */ \ seq->comment.l = seq->seq.l = seq->qual.l = 0; /* reset all members */ \ if ((r=ks_getuntil(ks, 0, &seq->name, &c)) < 0) return r; /* normal exit: EOF or error */ \ if (c != '\n') ks_getuntil(ks, KS_SEP_LINE, &seq->comment, 0); /* read FASTA/Q comment */ \ if (seq->seq.s == 0) { /* we can do this in the loop below, but that is slower */ \ seq->seq.m = 256; \ seq->seq.s = (char*)malloc(seq->seq.m); \ } \ while ((c = ks_getc(ks)) >= 0 && c != '>' && c != '+' && c != '@') { \ if (c == '\n') continue; /* skip empty lines */ \ seq->seq.s[seq->seq.l++] = c; /* this is safe: we always have enough space for 1 char */ \ ks_getuntil2(ks, KS_SEP_LINE, &seq->seq, 0, 1); /* read the rest of the line */ \ } \ if (c == '>' || c == '@') seq->last_char = c; /* the first header char has been read */ \ if (seq->seq.l + 1 >= seq->seq.m) { /* seq->seq.s[seq->seq.l] below may be out of boundary */ \ seq->seq.m = seq->seq.l + 2; \ kroundup32(seq->seq.m); /* rounded to the next closest 2^k */ \ if (seq->seq.l + 1 >= seq->seq.m) return -4; /* error: adjusting m overflowed */ \ seq->seq.s = (char*)realloc(seq->seq.s, seq->seq.m); \ } \ seq->seq.s[seq->seq.l] = 0; /* null terminated string */ \ if (c != '+') return seq->seq.l; /* FASTA */ \ if (seq->qual.m < seq->seq.m) { /* allocate memory for qual in case insufficient */ \ seq->qual.m = seq->seq.m; \ seq->qual.s = (char*)realloc(seq->qual.s, seq->qual.m); \ } \ while ((c = ks_getc(ks)) >= 0 && c != '\n'); /* skip the rest of '+' line */ \ if (c == -1) return -2; /* error: no quality string */ \ while ((c = ks_getuntil2(ks, KS_SEP_LINE, &seq->qual, 0, 1)) >= 0 && seq->qual.l < seq->seq.l); \ if (c == -3) return -3; /* stream error */ \ seq->last_char = 0; /* we have not come to the next header line */ \ if (seq->seq.l != seq->qual.l) return -2; /* error: qual string is of a different length */ \ return seq->seq.l; \ } #define __KSEQ_TYPE(type_t) \ typedef struct { \ kstring_t name, comment, seq, qual; \ int last_char; \ kstream_t *f; \ } kseq_t; #define KSEQ_INIT2(SCOPE, type_t, __read) \ KSTREAM_INIT(type_t, __read, 16384) \ __KSEQ_TYPE(type_t) \ __KSEQ_BASIC(SCOPE, type_t) \ __KSEQ_READ(SCOPE) #define KSEQ_INIT(type_t, __read) KSEQ_INIT2(static, type_t, __read) #define KSEQ_DECLARE(type_t) \ __KS_TYPE(type_t) \ __KSEQ_TYPE(type_t) \ extern kseq_t *kseq_init(type_t fd); \ void kseq_destroy(kseq_t *ks); \ int kseq_read(kseq_t *seq); #endif