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errmod.c
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errmod.c
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#include <math.h>
#include "errmod.h"
#include "ksort.h"
KSORT_INIT_GENERIC(uint16_t)
typedef struct __errmod_coef_t {
double *fk, *beta, *lhet;
} errmod_coef_t;
typedef struct {
double fsum[16], bsum[16];
uint32_t c[16];
} call_aux_t;
static errmod_coef_t *cal_coef(double depcorr, double eta)
{
int k, n, q;
long double sum, sum1;
double *lC;
errmod_coef_t *ec;
ec = calloc(1, sizeof(errmod_coef_t));
// initialize ->fk
ec->fk = (double*)calloc(256, sizeof(double));
ec->fk[0] = 1.0;
for (n = 1; n != 256; ++n)
ec->fk[n] = pow(1. - depcorr, n) * (1.0 - eta) + eta;
// initialize ->coef
ec->beta = (double*)calloc(256 * 256 * 64, sizeof(double));
lC = (double*)calloc(256 * 256, sizeof(double));
for (n = 1; n != 256; ++n) {
double lgn = lgamma(n+1);
for (k = 1; k <= n; ++k)
lC[n<<8|k] = lgn - lgamma(k+1) - lgamma(n-k+1);
}
for (q = 1; q != 64; ++q) {
double e = pow(10.0, -q/10.0);
double le = log(e);
double le1 = log(1.0 - e);
for (n = 1; n <= 255; ++n) {
double *beta = ec->beta + (q<<16|n<<8);
sum1 = sum = 0.0;
for (k = n; k >= 0; --k, sum1 = sum) {
sum = sum1 + expl(lC[n<<8|k] + k*le + (n-k)*le1);
beta[k] = -10. / M_LN10 * logl(sum1 / sum);
}
}
}
// initialize ->lhet
ec->lhet = (double*)calloc(256 * 256, sizeof(double));
for (n = 0; n < 256; ++n)
for (k = 0; k < 256; ++k)
ec->lhet[n<<8|k] = lC[n<<8|k] - M_LN2 * n;
free(lC);
return ec;
}
errmod_t *errmod_init(float depcorr)
{
errmod_t *em;
em = (errmod_t*)calloc(1, sizeof(errmod_t));
em->depcorr = depcorr;
em->coef = cal_coef(depcorr, 0.03);
return em;
}
void errmod_destroy(errmod_t *em)
{
if (em == 0) return;
free(em->coef->lhet); free(em->coef->fk); free(em->coef->beta);
free(em->coef); free(em);
}
// qual:6, strand:1, base:4
int errmod_cal(const errmod_t *em, int n, int m, uint16_t *bases, float *q)
{
call_aux_t aux;
int i, j, k, w[32];
if (m > m) return -1;
memset(q, 0, m * m * sizeof(float));
if (n == 0) return 0;
// calculate aux.esum and aux.fsum
if (n > 255) { // then sample 255 bases
ks_shuffle(uint16_t, n, bases);
n = 255;
}
ks_introsort(uint16_t, n, bases);
memset(w, 0, 32 * sizeof(int));
memset(&aux, 0, sizeof(call_aux_t));
for (j = n - 1; j >= 0; --j) { // calculate esum and fsum
uint16_t b = bases[j];
int q = b>>5 < 4? 4 : b>>5;
if (q > 63) q = 63;
k = b&0x1f;
aux.fsum[k&0xf] += em->coef->fk[w[k]];
aux.bsum[k&0xf] += em->coef->fk[w[k]] * em->coef->beta[q<<16|n<<8|aux.c[k&0xf]];
++aux.c[k&0xf];
++w[k];
}
// generate likelihood
for (j = 0; j != m; ++j) {
float tmp1, tmp3;
int tmp2, bar_e;
// homozygous
for (k = 0, tmp1 = tmp3 = 0.0, tmp2 = 0; k != m; ++k) {
if (k == j) continue;
tmp1 += aux.bsum[k]; tmp2 += aux.c[k]; tmp3 += aux.fsum[k];
}
if (tmp2) {
bar_e = (int)(tmp1 / tmp3 + 0.499);
if (bar_e > 63) bar_e = 63;
q[j*m+j] = tmp1;
}
// heterozygous
for (k = j + 1; k < m; ++k) {
int cjk = aux.c[j] + aux.c[k];
for (i = 0, tmp2 = 0, tmp1 = tmp3 = 0.0; i < m; ++i) {
if (i == j || i == k) continue;
tmp1 += aux.bsum[i]; tmp2 += aux.c[i]; tmp3 += aux.fsum[i];
}
if (tmp2) {
bar_e = (int)(tmp1 / tmp3 + 0.499);
if (bar_e > 63) bar_e = 63;
q[j*m+k] = q[k*m+j] = -4.343 * em->coef->lhet[cjk<<8|aux.c[k]] + tmp1;
} else q[j*m+k] = q[k*m+j] = -4.343 * em->coef->lhet[cjk<<8|aux.c[k]]; // all the bases are either j or k
}
for (k = 0; k != m; ++k) if (q[j*m+k] < 0.0) q[j*m+k] = 0.0;
}
return 0;
}