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添加了14个碱基长度的kmer结果,还没有合并

This commit is contained in:
zzh 2024-02-10 19:04:33 +08:00
parent 46822bef2c
commit 1b77566567
3 changed files with 160 additions and 53 deletions
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17
bwt.cpp
View File

@ -251,25 +251,9 @@ bwtintv_t bwt_search(bwt_t *bwt, const string &q)
bwtintv_t ik, ok[4];
int i, c, x = 0;
//double tt = realtime();
bwt_set_intv(bwt, bval(q[x]), ik);
ik.info = x + 1;
for (i = x + 1; i < 12; ++i)
{
if (bval(q[i]) < 4)
{
c = cbval(q[i]);
bwt_extend(bwt, &ik, ok, 0);
ik = ok[c];
ik.info = i + 1;
}
}
//t5 += realtime() - tt;
x = 11;
//tt = realtime();
for (i = x + 1; i < (int)q.size(); ++i)
{
if (bval(q[i]) < 4)
@ -280,7 +264,6 @@ bwtintv_t bwt_search(bwt_t *bwt, const string &q)
ik.info = i + 1;
}
}
//t6 += realtime() - tt;
return ik;
}

185
fmt_index.cpp
View File

@ -175,6 +175,26 @@ KmerEntry *restore_kmer_idx(const char *fn)
return kmer_entry;
}
// 将full kmer hash数据写入到文件
void dump_full_entry_idx(const char *fn, const FullEntry *full_entry)
{
FILE *fp;
fp = xopen(fn, "wb");
err_fwrite(full_entry, 1, FULL_ENTRY_ARR_SIZE * sizeof(FullEntry), fp);
err_fflush(fp);
err_fclose(fp);
}
// 从文件中读取full kmer hash信息
FullEntry *restore_full_entry_idx(const char *fn)
{
FILE *fp = xopen(fn, "rb");
uint32_t full_entry_bytes = FULL_ENTRY_ARR_SIZE * sizeof(FullEntry);
FullEntry *full_entry = (FullEntry *)malloc(full_entry_bytes);
fread_fix(fp, full_entry_bytes, full_entry);
err_fclose(fp);
return full_entry;
}
// 从文件中读取fmt结构数据
FMTIndex *restore_fmt(const char *fn)
{
@ -475,7 +495,7 @@ void fmt_e2_occ(const FMTIndex *fmt, bwtint_t k, int b1, int b2, bwtint_t cnt[4]
}
// 扩展两个碱基
void fmt_extend2(const FMTIndex *fmt, bwtintv_t *ik, bwtintv_t *ok, int is_back, int b1, int b2)
inline void fmt_extend2(const FMTIndex *fmt, bwtintv_t *ik, bwtintv_t *ok, int is_back, int b1, int b2)
{
bwtint_t tk[4], tl[4], first_pos;
// tk表示在k行之前所有各个碱基累积出现次数tl表示在l行之前的累积
@ -492,7 +512,7 @@ void fmt_extend2(const FMTIndex *fmt, bwtintv_t *ik, bwtintv_t *ok, int is_back,
}
// 扩展一个碱基
void fmt_extend1(const FMTIndex *fmt, bwtintv_t *ik, bwtintv_t *ok, int is_back, int b1)
inline void fmt_extend1(const FMTIndex *fmt, bwtintv_t *ik, bwtintv_t *ok, int is_back, int b1)
{
bwtint_t tk[4], tl[4];
int b2 = 3; // 如果只扩展一次那么第二个碱基设置成T可以减小一些计算量如计算大于b2的累积数量
@ -514,29 +534,8 @@ bwtintv_t fmt_search(FMTIndex *fmt, const string &q)
int i, c1, c2, x = 0;
int qlen = (int)q.size();
//double tt = realtime();
fmt_set_intv(fmt, bval(q[x]), ik);
ik.info = x + 1;
for (i = x + 1; i + 1 < 12; i += 2)
{
if (bval(q[i]) < 4 && bval(q[i + 1]) < 4)
{
c1 = cbval(q[i]);
c2 = cbval(q[i + 1]);
fmt_extend2(fmt, &ik, &ok, 0, c1, c2);
ik = ok;
ik.info = i + 1;
}
else
{
break;
}
}
x = 11;
//t3 += realtime() - tt;
//tt = realtime();
// 每次扩展两个碱基
for (i = x + 1; i + 1 < qlen; i += 2)
{
if (bval(q[i]) < 4 && bval(q[i + 1]) < 4)
@ -546,20 +545,22 @@ bwtintv_t fmt_search(FMTIndex *fmt, const string &q)
fmt_extend2(fmt, &ik, &ok, 0, c1, c2);
ik = ok;
ik.info = i + 1;
//cout << ik.x[0] << ' ' << ik.x[1] << ' ' << ik.x[2] << endl;
}
else
{
break;
}
}
if (i < qlen && bval(q[i]) < 4)
{ // 最后一次扩展
c1 = cbval(q[i]);
fmt_extend1(fmt, &ik, &ok, 0, c1);
ik = ok;
ik.info = i + 1;
//cout << ik.x[0] << ' ' << ik.x[1] << ' ' << ik.x[2] << endl;
}
//t4 += realtime() - tt;
return ik;
}
@ -595,6 +596,34 @@ inline void kmer_setval_at(KmerEntry *ke, bwtintv_t ik, int pos)
*((uint32_t *)arr) = (uint32_t)ik.x[2];
}
inline void full_entry_set(FullEntry *fe, bwtintv_t ik)
{
uint8_t *arr = fe->intv_arr;
arr[0] = (uint8_t)(ik.x[0] >> 32);
*((uint32_t *)(arr + 1)) = (uint32_t)ik.x[0];
arr += 5;
arr[0] = (uint8_t)(ik.x[1] >> 32);
*((uint32_t *)(arr + 1)) = (uint32_t)ik.x[1];
arr += 5;
*((uint32_t *)arr) = (uint32_t)ik.x[2];
}
inline void full_entry_get(FullEntry *fe, bwtintv_t *ok)
{
bwtint_t x0, x1, x2;
uint8_t *arr = fe->intv_arr;
x0 = *arr;
x0 = (x0 << 32) | *((uint32_t *)(arr + 1));
arr += 5;
x1 = *arr;
x1 = (x1 << 32) | *((uint32_t *)(arr + 1));
arr += 5;
x2 = *((uint32_t *)arr);
ok->x[0] = x0;
ok->x[1] = x1;
ok->x[2] = x2;
}
// 查找并保存kmer中每扩展一个碱基对应的fmt位置信息
void fmt_search_store_kmer(FMTIndex *fmt, const string &q, KmerEntry &ke)
{
@ -687,10 +716,55 @@ bwtintv_t fmt_search_use_kmer(FMTIndex *fmt, const string &q)
{ // 最后一次扩展
c1 = cbval(q[i]);
fmt_extend1(fmt, &ik, &ok, 0, c1);
//fmt_extend2(fmt, &ik, &ok, 0, c1, 3);
ik = ok;
ik.info = i + 1;
}
//t2 += realtime() - tt;
//cout << ik.x[2] << endl;
return ik;
}
// 利用fmt搜索seed利用full entry加速搜索过程
bwtintv_t fmt_search_use_full_entry(FMTIndex *fmt, const string &q)
{
bwtintv_t ik;
bwtintv_t ok;
int i, c1, c2, x = 0;
int qlen = (int)q.size();
// 先利用kmer进行索引查询
uint32_t qbit = 0;
x = min(FULL_ENTRY_LEN, qlen);
for (i = 0; i < x; ++i)
{
qbit |= bval(q[i]) << ((FULL_ENTRY_LEN - 1 - i) << 1);
}
full_entry_get(&fmt->full_entry[qbit], &ik);
// 每次扩展两个碱基
for (i = x; i + 1 < qlen; i += 2)
{
if (bval(q[i]) < 4 && bval(q[i + 1]) < 4)
{
c1 = cbval(q[i]);
c2 = cbval(q[i + 1]);
fmt_extend2(fmt, &ik, &ok, 0, c1, c2);
ik = ok;
ik.info = i + 1;
}
else
{
break;
}
}
if (i < qlen && bval(q[i]) < 4)
{ // 最后一次扩展
c1 = cbval(q[i]);
fmt_extend1(fmt, &ik, &ok, 0, c1);
ik = ok;
ik.info = i + 1;
}
return ik;
}
@ -721,6 +795,7 @@ void gen_all_seq(vector<string> &vseq, int kmer_len)
#define GEN_BWT_IDX 0
#define GEN_FMT_IDX 0
#define GEN_KMER_IDX 0
#define GEN_FULL_ENTRY_IDX 0
#define CMP_FMT_BWT_TIME 1
#define CMP_FMT_BWT_RESULT 1
@ -729,13 +804,14 @@ int main_fmtidx(int argc, char **argv)
{
string prefix = argv[1];
string bwt_str = prefix + ".bwt.str";
string bwt_idx, fmt_idx, kmer_idx;
string bwt_idx, fmt_idx, kmer_idx, full_entry_idx;
bwt_t *bwt;
FMTIndex *fmt;
ostringstream oss_bwt, oss_fmt, oss_kmer;
ostringstream oss_bwt, oss_fmt, oss_kmer, oss_full_entry;
oss_bwt << '.' << OCC_INTERVAL;
oss_fmt << '.' << FMT_OCC_INTERVAL;
oss_kmer << '.' << KMER_LEN;
oss_full_entry << '.' << FULL_ENTRY_LEN;
#ifdef FMT_MID_INTERVAL
oss_fmt << '.' << FMT_MID_INTERVAL;
#endif
@ -743,10 +819,12 @@ int main_fmtidx(int argc, char **argv)
bwt_idx = prefix + oss_bwt.str() + ".bwt";
fmt_idx = prefix + oss_fmt.str() + ".fmt";
kmer_idx = prefix + oss_kmer.str() + ".kmer";
full_entry_idx = prefix + oss_full_entry.str() + ".full_entry";
cout << bwt_idx << endl;
cout << fmt_idx << endl;
cout << kmer_idx << endl;
cout << full_entry_idx << endl;
// 生成或读取bwt索引文件
double time_read_bwt = realtime();
@ -772,9 +850,9 @@ int main_fmtidx(int argc, char **argv)
cout << "[time gen/read fmt:] " << time_read_fmt << "s" << endl;
// 生成或读取kmer信息
vector<string> vkmer;
double time_gen_kmer = realtime();
#if GEN_KMER_IDX
vector<string> vkmer;
gen_all_seq(vkmer, KMER_LEN);
fmt->kmer_entry = (KmerEntry*)malloc(KMER_ARR_SIZE * sizeof(KmerEntry));
for (size_t i = 0; i < vkmer.size(); ++i)
@ -795,13 +873,37 @@ int main_fmtidx(int argc, char **argv)
time_gen_kmer = realtime() - time_gen_kmer;
cout << "[time gen kmer:] " << time_gen_kmer << "s" << endl;
// 生成或读取kmer匹配的最后单一结果
double time_gen_full_entry = realtime();
#if GEN_FULL_ENTRY_IDX
vector<string> kmer_arr;
gen_all_seq(kmer_arr, FULL_ENTRY_LEN);
fmt->full_entry = (FullEntry *)malloc(FULL_ENTRY_ARR_SIZE * sizeof(FullEntry));
for (size_t i = 0; i < kmer_arr.size(); ++i)
{
bwtintv_t p1 = fmt_search(fmt, kmer_arr[i]);
full_entry_set(&fmt->full_entry[i], p1);
bwtintv_t p2 = bwt_search(bwt, kmer_arr[i]);
if (p1.x[0] != p2.x[0] || p1.x[1] != p2.x[1] || p1.x[2] != p2.x[2])
cout << kmer_arr[i] << endl
<< p1.x[0] << ' ' << p1.x[1] << ' ' << p1.x[2] << endl
<< p2.x[0] << ' ' << p2.x[1] << ' ' << p2.x[2] << endl;
}
dump_full_entry_idx(full_entry_idx.c_str(), fmt->full_entry);
#else
fmt->full_entry = restore_full_entry_idx(full_entry_idx.c_str());
#endif
time_gen_full_entry = realtime() - time_gen_full_entry;
cout << "[time gen full kmer entry:] " << time_gen_full_entry << "s" << endl;
// 生成随机序列进行测试
int seq_size = 10000000;
// int seq_size = 1;
int seq_len = 23;
//int seq_size = 1;
int seq_len = 14;
vector<string> seq_arr(seq_size);
// seq_arr[0] = "GCGATACTAAGA";
// seq_arr[0] = "GAGAGCTGTTCCCGTGTTTTCCATGGTTT";
seq_arr[0] = "ACCTTTCGAATTGA";
#if 1
srand(time(NULL));
double time_gen_seq = realtime();
@ -812,10 +914,17 @@ int main_fmtidx(int argc, char **argv)
#endif
// 对比bwt和fmt搜索的时间
bwtint_t max_gap = 0;
#if CMP_FMT_BWT_TIME
// int nintv_0 = 0;
double time_bwt_search = realtime();
for (int i = 0; i < (int)seq_arr.size(); ++i)
bwt_search(bwt, seq_arr[i]);
for (int i = 0; i < (int)seq_arr.size(); ++i) {
bwtintv_t p = bwt_search(bwt, seq_arr[i]);
if (max_gap < p.x[2])
max_gap = p.x[2];
}
// cout << "all: " << seq_arr.size() << " zero: " << nintv_0 << endl;
cout << "max gap: " << max_gap << endl;
time_bwt_search = realtime() - time_bwt_search;
cout << "[time bwt search:] " << time_bwt_search << "s" << endl;
@ -831,16 +940,22 @@ int main_fmtidx(int argc, char **argv)
time_fmt_kmer_search = realtime() - time_fmt_kmer_search;
cout << "[time fmt kmer search:] " << time_fmt_kmer_search << "s" << endl;
cout << "t1: " << t1 << "s; t2: " << t2 << "s" << endl;
cout << "t3: " << t3 << "s; t4: " << t4 << "s" << endl;
cout << "t5: " << t5 << "s; t4: " << t6 << "s" << endl;
double time_fmt_full_entry_search = realtime();
for (int i = 0; i < (int)seq_arr.size(); ++i)
fmt_search_use_full_entry(fmt, seq_arr[i]);
time_fmt_full_entry_search = realtime() - time_fmt_full_entry_search;
cout << "[time fmt full entry search:] " << time_fmt_full_entry_search << "s" << endl;
// cout << "t1: " << t1 << "s; t2: " << t2 << "s" << endl;
// cout << "t3: " << t3 << "s; t4: " << t4 << "s" << endl;
// cout << "t5: " << t5 << "s; t4: " << t6 << "s" << endl;
#endif
// 对比bwt和fmt搜索的结果
#if CMP_FMT_BWT_RESULT
double time_cmp = realtime();
for (int i = 0; i < (int)seq_arr.size() / 100; ++i)
for (int i = 0; i < (int)seq_arr.size(); ++i)
{
bwtintv_t p1 = bwt_search2(bwt, seq_arr[i]);
// bwtintv_t p2 = fmt_search(fmt, seq_arr[i]);

11
fmt_index.h
View File

@ -39,7 +39,7 @@
((x) >> 24 & 0xff) + ((x) >> 16 & 0xff) + ((x) >> 8 & 0xff) + ((x) & 0xff)
#define KMER_LEN 12
#define KMER_ARR_SIZE ((1 << (KMER_LEN << 1)))
#define KMER_ARR_SIZE (1 << (KMER_LEN << 1))
// 用来保存kmer对应的fmt的位置信息
struct KmerEntry
{
@ -47,6 +47,14 @@ struct KmerEntry
uint8_t intv_arr[14 * KMER_LEN]; // 保存kmer中每扩展一个碱基对应的bwtintv_t数据
};
#define FULL_ENTRY_LEN 14
#define FULL_ENTRY_ARR_SIZE (1 << (FULL_ENTRY_LEN << 1))
// kmer全部匹配对应的最后fmt匹配结果
struct FullEntry
{
uint8_t intv_arr[14];
};
// fm-index, extend twice in one search step (one memory access)
struct FMTIndex
{
@ -63,6 +71,7 @@ struct FMTIndex
uint8_t last_base; // dollar转换成的base
// 保存kmer对应的fmt位置信息
KmerEntry *kmer_entry;
FullEntry *full_entry;
// suffix array
int sa_intv;
bwtint_t n_sa;