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bgzf.c
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bgzf.c
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/* The MIT License
Copyright (c) 2008 Broad Institute / Massachusetts Institute of Technology
2011 Attractive Chaos <[email protected]>
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.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <assert.h>
#include <pthread.h>
#include <sys/types.h>
#include "bgzf.h"
#ifdef _USE_KNETFILE
#include "knetfile.h"
typedef knetFile *_bgzf_file_t;
#define _bgzf_open(fn, mode) knet_open((fn), (mode))
#define _bgzf_dopen(fd, mode) knet_dopen((fd), (mode))
#define _bgzf_close(fp) knet_close((knetFile*)(fp))
#define _bgzf_fileno(fp) (((knetFile*)(fp))->fd)
#define _bgzf_tell(fp) knet_tell((knetFile*)(fp))
#define _bgzf_seek(fp, offset, whence) knet_seek((knetFile*)(fp), (offset), (whence))
#define _bgzf_read(fp, buf, len) knet_read((knetFile*)(fp), (buf), (len))
#define _bgzf_write(fp, buf, len) knet_write((knetFile*)(fp), (buf), (len))
#else // ~defined(_USE_KNETFILE)
#if defined(_WIN32) || defined(_MSC_VER)
#define ftello(fp) ftell((FILE*)(fp))
#define fseeko(fp, offset, whence) fseek((FILE*)(fp), (offset), (whence))
#else // ~defined(_WIN32)
extern off_t ftello(FILE *stream);
extern int fseeko(FILE *stream, off_t offset, int whence);
#endif // ~defined(_WIN32)
typedef FILE *_bgzf_file_t;
#define _bgzf_open(fn, mode) fopen((fn), (mode))
#define _bgzf_dopen(fd, mode) fdopen(fd, (mode))
#define _bgzf_close(fp) fclose((FILE*)(fp))
#define _bgzf_fileno(fp) fileno((FILE*)(fp))
#define _bgzf_tell(fp) ftello((FILE*)(fp))
#define _bgzf_seek(fp, offset, whence) fseeko((FILE*)(fp), (offset), (whence))
#define _bgzf_read(fp, buf, len) fread((buf), 1, (len), (FILE*)(fp))
#define _bgzf_write(fp, buf, len) fwrite((buf), 1, (len), (FILE*)(fp))
#endif // ~define(_USE_KNETFILE)
#define BLOCK_HEADER_LENGTH 18
#define BLOCK_FOOTER_LENGTH 8
/* BGZF/GZIP header (speciallized from RFC 1952; little endian):
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
| 31|139| 8| 4| 0| 0|255| 6| 66| 67| 2|BLK_LEN|
+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
*/
static const uint8_t g_magic[19] = "\037\213\010\4\0\0\0\0\0\377\6\0\102\103\2\0\0\0";
#ifdef BGZF_CACHE
typedef struct {
int size;
uint8_t *block;
int64_t end_offset;
} cache_t;
#include "khash.h"
KHASH_MAP_INIT_INT64(cache, cache_t)
#endif
static inline int ed_is_big()
{
long one= 1;
return !(*((char *)(&one)));
}
static inline void packInt16(uint8_t *buffer, uint16_t value)
{
buffer[0] = value;
buffer[1] = value >> 8;
}
static inline int unpackInt16(const uint8_t *buffer)
{
return buffer[0] | buffer[1] << 8;
}
static inline void packInt32(uint8_t *buffer, uint32_t value)
{
buffer[0] = value;
buffer[1] = value >> 8;
buffer[2] = value >> 16;
buffer[3] = value >> 24;
}
static BGZF *bgzf_read_init()
{
BGZF *fp;
fp = (BGZF*)calloc(1, sizeof(BGZF));
fp->is_write = 0;
fp->uncompressed_block = malloc(BGZF_MAX_BLOCK_SIZE);
fp->compressed_block = malloc(BGZF_MAX_BLOCK_SIZE);
#ifdef BGZF_CACHE
fp->cache = kh_init(cache);
#endif
return fp;
}
static BGZF *bgzf_write_init(int compress_level) // compress_level==-1 for the default level
{
BGZF *fp;
fp = (BGZF*)calloc(1, sizeof(BGZF));
fp->is_write = 1;
fp->uncompressed_block = malloc(BGZF_MAX_BLOCK_SIZE);
fp->compressed_block = malloc(BGZF_MAX_BLOCK_SIZE);
fp->compress_level = compress_level < 0? Z_DEFAULT_COMPRESSION : compress_level; // Z_DEFAULT_COMPRESSION==-1
if (fp->compress_level > 9) fp->compress_level = Z_DEFAULT_COMPRESSION;
return fp;
}
// get the compress level from the mode string
static int mode2level(const char *__restrict mode)
{
int i, compress_level = -1;
for (i = 0; mode[i]; ++i)
if (mode[i] >= '0' && mode[i] <= '9') break;
if (mode[i]) compress_level = (int)mode[i] - '0';
if (strchr(mode, 'u')) compress_level = 0;
return compress_level;
}
BGZF *bgzf_open(const char *path, const char *mode)
{
BGZF *fp = 0;
assert(compressBound(BGZF_BLOCK_SIZE) < BGZF_MAX_BLOCK_SIZE);
if (strchr(mode, 'r') || strchr(mode, 'R')) {
_bgzf_file_t fpr;
if ((fpr = _bgzf_open(path, "r")) == 0) return 0;
fp = bgzf_read_init();
fp->fp = fpr;
} else if (strchr(mode, 'w') || strchr(mode, 'W')) {
FILE *fpw;
if ((fpw = fopen(path, "w")) == 0) return 0;
fp = bgzf_write_init(mode2level(mode));
fp->fp = fpw;
}
fp->is_be = ed_is_big();
return fp;
}
BGZF *bgzf_dopen(int fd, const char *mode)
{
BGZF *fp = 0;
assert(compressBound(BGZF_BLOCK_SIZE) < BGZF_MAX_BLOCK_SIZE);
if (strchr(mode, 'r') || strchr(mode, 'R')) {
_bgzf_file_t fpr;
if ((fpr = _bgzf_dopen(fd, "r")) == 0) return 0;
fp = bgzf_read_init();
fp->fp = fpr;
} else if (strchr(mode, 'w') || strchr(mode, 'W')) {
FILE *fpw;
if ((fpw = fdopen(fd, "w")) == 0) return 0;
fp = bgzf_write_init(mode2level(mode));
fp->fp = fpw;
}
fp->is_be = ed_is_big();
return fp;
}
static int bgzf_compress(void *_dst, int *dlen, void *src, int slen, int level)
{
uint32_t crc;
z_stream zs;
uint8_t *dst = (uint8_t*)_dst;
// compress the body
zs.zalloc = NULL; zs.zfree = NULL;
zs.next_in = (Bytef*)src;
zs.avail_in = slen;
zs.next_out = dst + BLOCK_HEADER_LENGTH;
zs.avail_out = *dlen - BLOCK_HEADER_LENGTH - BLOCK_FOOTER_LENGTH;
if (deflateInit2(&zs, level, Z_DEFLATED, -15, 8, Z_DEFAULT_STRATEGY) != Z_OK) return -1; // -15 to disable zlib header/footer
if (deflate(&zs, Z_FINISH) != Z_STREAM_END) return -1;
if (deflateEnd(&zs) != Z_OK) return -1;
*dlen = zs.total_out + BLOCK_HEADER_LENGTH + BLOCK_FOOTER_LENGTH;
// write the header
memcpy(dst, g_magic, BLOCK_HEADER_LENGTH); // the last two bytes are a place holder for the length of the block
packInt16(&dst[16], *dlen - 1); // write the compressed length; -1 to fit 2 bytes
// write the footer
crc = crc32(crc32(0L, NULL, 0L), (Bytef*)src, slen);
packInt32((uint8_t*)&dst[*dlen - 8], crc);
packInt32((uint8_t*)&dst[*dlen - 4], slen);
return 0;
}
// Deflate the block in fp->uncompressed_block into fp->compressed_block. Also adds an extra field that stores the compressed block length.
static int deflate_block(BGZF *fp, int block_length)
{
int comp_size = BGZF_MAX_BLOCK_SIZE;
if (bgzf_compress(fp->compressed_block, &comp_size, fp->uncompressed_block, block_length, fp->compress_level) != 0) {
fp->errcode |= BGZF_ERR_ZLIB;
return -1;
}
fp->block_offset = 0;
return comp_size;
}
// Inflate the block in fp->compressed_block into fp->uncompressed_block
static int inflate_block(BGZF* fp, int block_length)
{
z_stream zs;
zs.zalloc = NULL;
zs.zfree = NULL;
zs.next_in = (Bytef*)fp->compressed_block + 18;
zs.avail_in = block_length - 16;
zs.next_out = (Bytef*)fp->uncompressed_block;
zs.avail_out = BGZF_MAX_BLOCK_SIZE;
if (inflateInit2(&zs, -15) != Z_OK) {
fp->errcode |= BGZF_ERR_ZLIB;
return -1;
}
if (inflate(&zs, Z_FINISH) != Z_STREAM_END) {
inflateEnd(&zs);
fp->errcode |= BGZF_ERR_ZLIB;
return -1;
}
if (inflateEnd(&zs) != Z_OK) {
fp->errcode |= BGZF_ERR_ZLIB;
return -1;
}
return zs.total_out;
}
static int check_header(const uint8_t *header)
{
return (header[0] == 31 && header[1] == 139 && header[2] == 8 && (header[3] & 4) != 0
&& unpackInt16((uint8_t*)&header[10]) == 6
&& header[12] == 'B' && header[13] == 'C'
&& unpackInt16((uint8_t*)&header[14]) == 2);
}
#ifdef BGZF_CACHE
static void free_cache(BGZF *fp)
{
khint_t k;
khash_t(cache) *h = (khash_t(cache)*)fp->cache;
if (fp->is_write) return;
for (k = kh_begin(h); k < kh_end(h); ++k)
if (kh_exist(h, k)) free(kh_val(h, k).block);
kh_destroy(cache, h);
}
static int load_block_from_cache(BGZF *fp, int64_t block_address)
{
khint_t k;
cache_t *p;
khash_t(cache) *h = (khash_t(cache)*)fp->cache;
k = kh_get(cache, h, block_address);
if (k == kh_end(h)) return 0;
p = &kh_val(h, k);
if (fp->block_length != 0) fp->block_offset = 0;
fp->block_address = block_address;
fp->block_length = p->size;
memcpy(fp->uncompressed_block, p->block, BGZF_MAX_BLOCK_SIZE);
_bgzf_seek((_bgzf_file_t)fp->fp, p->end_offset, SEEK_SET);
return p->size;
}
static void cache_block(BGZF *fp, int size)
{
int ret;
khint_t k;
cache_t *p;
khash_t(cache) *h = (khash_t(cache)*)fp->cache;
if (BGZF_MAX_BLOCK_SIZE >= fp->cache_size) return;
if ((kh_size(h) + 1) * BGZF_MAX_BLOCK_SIZE > (uint32_t)fp->cache_size) {
/* A better way would be to remove the oldest block in the
* cache, but here we remove a random one for simplicity. This
* should not have a big impact on performance. */
for (k = kh_begin(h); k < kh_end(h); ++k)
if (kh_exist(h, k)) break;
if (k < kh_end(h)) {
free(kh_val(h, k).block);
kh_del(cache, h, k);
}
}
k = kh_put(cache, h, fp->block_address, &ret);
if (ret == 0) return; // if this happens, a bug!
p = &kh_val(h, k);
p->size = fp->block_length;
p->end_offset = fp->block_address + size;
p->block = (uint8_t*)malloc(BGZF_MAX_BLOCK_SIZE);
memcpy(kh_val(h, k).block, fp->uncompressed_block, BGZF_MAX_BLOCK_SIZE);
}
#else
static void free_cache(BGZF *fp) {}
static int load_block_from_cache(BGZF *fp, int64_t block_address) {return 0;}
static void cache_block(BGZF *fp, int size) {}
#endif
int bgzf_read_block(BGZF *fp)
{
uint8_t header[BLOCK_HEADER_LENGTH], *compressed_block;
int count, size = 0, block_length, remaining;
int64_t block_address;
block_address = _bgzf_tell((_bgzf_file_t)fp->fp);
if (fp->cache_size && load_block_from_cache(fp, block_address)) return 0;
count = _bgzf_read(fp->fp, header, sizeof(header));
if (count == 0) { // no data read
fp->block_length = 0;
return 0;
}
if (count != sizeof(header) || !check_header(header)) {
fp->errcode |= BGZF_ERR_HEADER;
return -1;
}
size = count;
block_length = unpackInt16((uint8_t*)&header[16]) + 1; // +1 because when writing this number, we used "-1"
compressed_block = (uint8_t*)fp->compressed_block;
memcpy(compressed_block, header, BLOCK_HEADER_LENGTH);
remaining = block_length - BLOCK_HEADER_LENGTH;
count = _bgzf_read(fp->fp, &compressed_block[BLOCK_HEADER_LENGTH], remaining);
if (count != remaining) {
fp->errcode |= BGZF_ERR_IO;
return -1;
}
size += count;
if ((count = inflate_block(fp, block_length)) < 0) return -1;
if (fp->block_length != 0) fp->block_offset = 0; // Do not reset offset if this read follows a seek.
fp->block_address = block_address;
fp->block_length = count;
cache_block(fp, size);
return 0;
}
ssize_t bgzf_read(BGZF *fp, void *data, size_t length)
{
ssize_t bytes_read = 0;
uint8_t *output = (uint8_t*)data;
if (length <= 0) return 0;
assert(fp->is_write == 0);
while (bytes_read < length) {
int copy_length, available = fp->block_length - fp->block_offset;
uint8_t *buffer;
if (available <= 0) {
if (bgzf_read_block(fp) != 0) return -1;
available = fp->block_length - fp->block_offset;
if (available <= 0) break;
}
copy_length = length - bytes_read < available? length - bytes_read : available;
buffer = (uint8_t*)fp->uncompressed_block;
memcpy(output, buffer + fp->block_offset, copy_length);
fp->block_offset += copy_length;
output += copy_length;
bytes_read += copy_length;
}
if (fp->block_offset == fp->block_length) {
fp->block_address = _bgzf_tell((_bgzf_file_t)fp->fp);
fp->block_offset = fp->block_length = 0;
}
return bytes_read;
}
#ifdef BGZF_MT
typedef struct {
BGZF *fp;
struct mtaux_t *mt;
void *buf;
int i, errcode, toproc;
} worker_t;
typedef struct mtaux_t {
int n_threads, n_blks, curr, done;
volatile int proc_cnt;
void **blk;
int *len;
worker_t *w;
pthread_t *tid;
pthread_mutex_t lock;
pthread_cond_t cv;
} mtaux_t;
static int worker_aux(worker_t *w)
{
int i, stop = 0;
// wait for condition: to process or all done
pthread_mutex_lock(&w->mt->lock);
while (!w->toproc && !w->mt->done)
pthread_cond_wait(&w->mt->cv, &w->mt->lock);
if (w->mt->done) stop = 1;
w->toproc = 0;
pthread_mutex_unlock(&w->mt->lock);
if (stop) return 1; // to quit the thread
w->errcode = 0;
for (i = w->i; i < w->mt->curr; i += w->mt->n_threads) {
int clen = BGZF_MAX_BLOCK_SIZE;
if (bgzf_compress(w->buf, &clen, w->mt->blk[i], w->mt->len[i], w->fp->compress_level) != 0)
w->errcode |= BGZF_ERR_ZLIB;
memcpy(w->mt->blk[i], w->buf, clen);
w->mt->len[i] = clen;
}
__sync_fetch_and_add(&w->mt->proc_cnt, 1);
return 0;
}
static void *mt_worker(void *data)
{
while (worker_aux((worker_t*)data) == 0);
return 0;
}
int bgzf_mt(BGZF *fp, int n_threads, int n_sub_blks)
{
int i;
mtaux_t *mt;
pthread_attr_t attr;
if (!fp->is_write || fp->mt || n_threads <= 1) return -1;
mt = (mtaux_t*)calloc(1, sizeof(mtaux_t));
mt->n_threads = n_threads;
mt->n_blks = n_threads * n_sub_blks;
mt->len = (int*)calloc(mt->n_blks, sizeof(int));
mt->blk = (void**)calloc(mt->n_blks, sizeof(void*));
for (i = 0; i < mt->n_blks; ++i)
mt->blk[i] = malloc(BGZF_MAX_BLOCK_SIZE);
mt->tid = (pthread_t*)calloc(mt->n_threads, sizeof(pthread_t)); // tid[0] is not used, as the worker 0 is launched by the master
mt->w = (worker_t*)calloc(mt->n_threads, sizeof(worker_t));
for (i = 0; i < mt->n_threads; ++i) {
mt->w[i].i = i;
mt->w[i].mt = mt;
mt->w[i].fp = fp;
mt->w[i].buf = malloc(BGZF_MAX_BLOCK_SIZE);
}
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);
pthread_mutex_init(&mt->lock, 0);
pthread_cond_init(&mt->cv, 0);
for (i = 1; i < mt->n_threads; ++i) // worker 0 is effectively launched by the master thread
pthread_create(&mt->tid[i], &attr, mt_worker, &mt->w[i]);
fp->mt = mt;
return 0;
}
static void mt_destroy(mtaux_t *mt)
{
int i;
// signal all workers to quit
pthread_mutex_lock(&mt->lock);
mt->done = 1; mt->proc_cnt = 0;
pthread_cond_broadcast(&mt->cv);
pthread_mutex_unlock(&mt->lock);
for (i = 1; i < mt->n_threads; ++i) pthread_join(mt->tid[i], 0); // worker 0 is effectively launched by the master thread
// free other data allocated on heap
for (i = 0; i < mt->n_blks; ++i) free(mt->blk[i]);
for (i = 0; i < mt->n_threads; ++i) free(mt->w[i].buf);
free(mt->blk); free(mt->len); free(mt->w); free(mt->tid);
pthread_cond_destroy(&mt->cv);
pthread_mutex_destroy(&mt->lock);
free(mt);
}
static void mt_queue(BGZF *fp)
{
mtaux_t *mt = (mtaux_t*)fp->mt;
assert(mt->curr < mt->n_blks); // guaranteed by the caller
memcpy(mt->blk[mt->curr], fp->uncompressed_block, fp->block_offset);
mt->len[mt->curr] = fp->block_offset;
fp->block_offset = 0;
++mt->curr;
}
static int mt_flush(BGZF *fp)
{
int i;
mtaux_t *mt = (mtaux_t*)fp->mt;
if (fp->block_offset) mt_queue(fp); // guaranteed that assertion does not fail
// signal all the workers to compress
pthread_mutex_lock(&mt->lock);
for (i = 0; i < mt->n_threads; ++i) mt->w[i].toproc = 1;
mt->proc_cnt = 0;
pthread_cond_broadcast(&mt->cv);
pthread_mutex_unlock(&mt->lock);
// worker 0 is doing things here
worker_aux(&mt->w[0]);
// wait for all the threads to complete
while (mt->proc_cnt < mt->n_threads);
// dump data to disk
for (i = 0; i < mt->n_threads; ++i) fp->errcode |= mt->w[i].errcode;
for (i = 0; i < mt->curr; ++i)
if (fwrite(mt->blk[i], 1, mt->len[i], (FILE*)fp->fp) != (size_t)mt->len[i])
fp->errcode |= BGZF_ERR_IO;
mt->curr = 0;
return 0;
}
static int mt_lazy_flush(BGZF *fp)
{
mtaux_t *mt = (mtaux_t*)fp->mt;
if (fp->block_offset) mt_queue(fp);
if (mt->curr == mt->n_blks)
return mt_flush(fp);
return -1;
}
static ssize_t mt_write(BGZF *fp, const void *data, size_t length)
{
const uint8_t *input = (const uint8_t*)data;
ssize_t rest = length;
while (rest) {
int copy_length = BGZF_BLOCK_SIZE - fp->block_offset < rest? BGZF_BLOCK_SIZE - fp->block_offset : rest;
memcpy((uint8_t*)fp->uncompressed_block + fp->block_offset, input, copy_length);
fp->block_offset += copy_length; input += copy_length; rest -= copy_length;
if (fp->block_offset == BGZF_BLOCK_SIZE) mt_lazy_flush(fp);
}
return length - rest;
}
#endif // ~ #ifdef BGZF_MT
int bgzf_flush(BGZF *fp)
{
if (!fp->is_write) return 0;
#ifdef BGZF_MT
if (fp->mt) return mt_flush(fp);
#endif
while (fp->block_offset > 0) {
int block_length;
block_length = deflate_block(fp, fp->block_offset);
if (block_length < 0) return -1;
if (fwrite(fp->compressed_block, 1, block_length, (FILE*)fp->fp) != (size_t)block_length) {
fp->errcode |= BGZF_ERR_IO; // possibly truncated file
return -1;
}
fp->block_address += block_length;
}
return 0;
}
int bgzf_flush_try(BGZF *fp, ssize_t size)
{
if (fp->block_offset + size > BGZF_BLOCK_SIZE) {
#ifdef BGZF_MT
if (fp->mt) return mt_lazy_flush(fp);
else return bgzf_flush(fp);
#else
return bgzf_flush(fp);
#endif
}
return -1;
}
ssize_t bgzf_write(BGZF *fp, const void *data, size_t length)
{
const uint8_t *input = (const uint8_t*)data;
int block_length = BGZF_BLOCK_SIZE, bytes_written = 0;
assert(fp->is_write);
#ifdef BGZF_MT
if (fp->mt) return mt_write(fp, data, length);
#endif
while (bytes_written < length) {
uint8_t* buffer = (uint8_t*)fp->uncompressed_block;
int copy_length = block_length - fp->block_offset < length - bytes_written? block_length - fp->block_offset : length - bytes_written;
memcpy(buffer + fp->block_offset, input, copy_length);
fp->block_offset += copy_length;
input += copy_length;
bytes_written += copy_length;
if (fp->block_offset == block_length && bgzf_flush(fp)) break;
}
return bytes_written;
}
int bgzf_close(BGZF* fp)
{
int ret, block_length;
if (fp == 0) return -1;
if (fp->is_write) {
if (bgzf_flush(fp) != 0) return -1;
fp->compress_level = -1;
block_length = deflate_block(fp, 0); // write an empty block
fwrite(fp->compressed_block, 1, block_length, (FILE*)fp->fp);
if (fflush((FILE*)fp->fp) != 0) {
fp->errcode |= BGZF_ERR_IO;
return -1;
}
#ifdef BGZF_MT
if (fp->mt) mt_destroy((mtaux_t*)fp->mt);
#endif
}
ret = fp->is_write? fclose((FILE*)fp->fp) : _bgzf_close(fp->fp);
if (ret != 0) return -1;
free(fp->uncompressed_block);
free(fp->compressed_block);
free_cache(fp);
free(fp);
return 0;
}
void bgzf_set_cache_size(BGZF *fp, int cache_size)
{
if (fp) fp->cache_size = cache_size;
}
int bgzf_check_EOF(BGZF *fp)
{
uint8_t buf[28];
off_t offset;
offset = _bgzf_tell((_bgzf_file_t)fp->fp);
if (_bgzf_seek(fp->fp, -28, SEEK_END) < 0) return 0;
_bgzf_read(fp->fp, buf, 28);
_bgzf_seek(fp->fp, offset, SEEK_SET);
return (memcmp("\037\213\010\4\0\0\0\0\0\377\6\0\102\103\2\0\033\0\3\0\0\0\0\0\0\0\0\0", buf, 28) == 0)? 1 : 0;
}
int64_t bgzf_seek(BGZF* fp, int64_t pos, int where)
{
int block_offset;
int64_t block_address;
if (fp->is_write || where != SEEK_SET) {
fp->errcode |= BGZF_ERR_MISUSE;
return -1;
}
block_offset = pos & 0xFFFF;
block_address = pos >> 16;
if (_bgzf_seek(fp->fp, block_address, SEEK_SET) < 0) {
fp->errcode |= BGZF_ERR_IO;
return -1;
}
fp->block_length = 0; // indicates current block has not been loaded
fp->block_address = block_address;
fp->block_offset = block_offset;
return 0;
}
int bgzf_is_bgzf(const char *fn)
{
uint8_t buf[16];
int n;
_bgzf_file_t fp;
if ((fp = _bgzf_open(fn, "r")) == 0) return 0;
n = _bgzf_read(fp, buf, 16);
_bgzf_close(fp);
if (n != 16) return 0;
return memcmp(g_magic, buf, 16) == 0? 1 : 0;
}
int bgzf_getc(BGZF *fp)
{
int c;
if (fp->block_offset >= fp->block_length) {
if (bgzf_read_block(fp) != 0) return -2; /* error */
if (fp->block_length == 0) return -1; /* end-of-file */
}
c = ((unsigned char*)fp->uncompressed_block)[fp->block_offset++];
if (fp->block_offset == fp->block_length) {
fp->block_address = _bgzf_tell((_bgzf_file_t)fp->fp);
fp->block_offset = 0;
fp->block_length = 0;
}
return c;
}
#ifndef kroundup32
#define kroundup32(x) (--(x), (x)|=(x)>>1, (x)|=(x)>>2, (x)|=(x)>>4, (x)|=(x)>>8, (x)|=(x)>>16, ++(x))
#endif
int bgzf_getline(BGZF *fp, int delim, kstring_t *str)
{
int l, state = 0;
unsigned char *buf = (unsigned char*)fp->uncompressed_block;
str->l = 0;
do {
if (fp->block_offset >= fp->block_length) {
if (bgzf_read_block(fp) != 0) { state = -2; break; }
if (fp->block_length == 0) { state = -1; break; }
}
for (l = fp->block_offset; l < fp->block_length && buf[l] != delim; ++l);
if (l < fp->block_length) state = 1;
l -= fp->block_offset;
if (str->l + l + 1 >= str->m) {
str->m = str->l + l + 2;
kroundup32(str->m);
str->s = (char*)realloc(str->s, str->m);
}
memcpy(str->s + str->l, buf + fp->block_offset, l);
str->l += l;
fp->block_offset += l + 1;
if (fp->block_offset >= fp->block_length) {
fp->block_address = _bgzf_tell((_bgzf_file_t)fp->fp);
fp->block_offset = 0;
fp->block_length = 0;
}
} while (state == 0);
if (str->l == 0 && state < 0) return state;
str->s[str->l] = 0;
return str->l;
}