int
main(int argc, char **argv)
{
char *msg = "p7_gmx unit test driver failed";
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = esl_alphabet_Create(eslAMINO);
P7_BG *bg = p7_bg_Create(abc);
P7_HMM *hmm = NULL;
P7_PROFILE *gm = NULL;
int M = esl_opt_GetInteger(go, "-M");
int L = esl_opt_GetInteger(go, "-L");
float tol = esl_opt_GetReal (go, "-t");
p7_FLogsumInit();
if (p7_hmm_Sample(r, M, abc, &hmm) != eslOK) esl_fatal(msg);
if ((gm = p7_profile_Create(hmm->M, abc)) == NULL) esl_fatal(msg);
if (p7_bg_SetLength(bg, L) != eslOK) esl_fatal(msg);
if (p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL) != eslOK) esl_fatal(msg);
utest_GrowTo();
utest_Compare(r, gm, bg, L, tol);
esl_getopts_Destroy(go);
esl_randomness_Destroy(r);
esl_alphabet_Destroy(abc);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_profile_Destroy(gm);
return eslOK;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *gx1 = NULL;
P7_GMX *gx2 = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
float null2[p7_MAXCODE];
int i;
float fsc, bsc;
double Mcs;
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
gx1 = p7_gmx_Create(gm->M, L);
gx2 = p7_gmx_Create(gm->M, L);
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_GForward (dsq, L, gm, gx1, &fsc);
p7_GBackward(dsq, L, gm, gx2, &bsc);
p7_GDecoding(gm, gx1, gx2, gx2);
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
p7_GNull2_ByExpectation(gm, gx2, null2);
esl_stopwatch_Stop(w);
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_gmx_Destroy(gx1);
p7_gmx_Destroy(gx2);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
ESL_RANDOMNESS *rng = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
char *hmmfile = esl_opt_GetArg(go, 1);
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_TRACE *tr = p7_trace_Create();
ESL_SQ *sq = NULL;
char errbuf[eslERRBUFSIZE];
int i;
int status;
status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
if (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
else if (status == eslEFORMAT) p7_Fail("File format problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
else if (status != eslOK) p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n", status, hmmfile, errbuf);
status = p7_hmmfile_Read(hfp, &abc, &hmm);
if (status == eslEFORMAT) p7_Fail("Bad file format in HMM file %s:\n%s\n", hfp->fname, hfp->errbuf);
else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
else if (status == eslEOF) p7_Fail("Empty HMM file %s? No HMM data found.\n", hfp->fname);
else if (status != eslOK) p7_Fail("Unexpected error in reading HMMs from %s\n", hfp->fname);
p7_hmmfile_Close(hfp);
bg = p7_bg_Create(abc); p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc); p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
sq = esl_sq_CreateDigital(abc);
for (i = 0; i < N; i++)
{
p7_ProfileEmit(rng, hmm, gm, bg, sq, tr);
esl_sq_FormatName(sq, "%s-sample%d", hmm->name, i);
esl_sqio_Write(stdout, sq, eslSQFILE_FASTA, FALSE);
if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) esl_fatal(errbuf);
esl_sq_Reuse(sq);
p7_trace_Reuse(tr);
}
esl_sq_Destroy(sq);
p7_trace_Destroy(tr);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_alphabet_Destroy(abc);
esl_randomness_Destroy(rng);
esl_getopts_Destroy(go);
return 0;
}
static void
utest_oprofileSendRecv(int my_rank, int nproc)
{
ESL_RANDOMNESS *r = esl_randomness_CreateFast(42);
ESL_ALPHABET *abc = esl_alphabet_Create(eslAMINO);
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_OPROFILE *om2 = NULL;
int M = 200;
int L = 400;
char *wbuf = NULL;
int wn = 0;
int i;
char errbuf[eslERRBUFSIZE];
p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
bg = p7_bg_Create(abc);
gm = p7_profile_Create(hmm->M, abc);
om = p7_oprofile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
p7_oprofile_Convert(gm, om);
p7_bg_SetLength (bg, L);
if (my_rank == 0)
{
for (i = 1; i < nproc; i++)
{
ESL_DPRINTF1(("Master: receiving test profile\n"));
p7_oprofile_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &wbuf, &wn, &abc, &om2);
ESL_DPRINTF1(("Master: test profile received\n"));
if (p7_oprofile_Compare(om, om2, 0.001, errbuf) != eslOK)
p7_Die("Received profile not identical to what was sent\n%s", errbuf);
p7_oprofile_Destroy(om2);
}
}
else
{
ESL_DPRINTF1(("Worker %d: sending test profile\n", my_rank));
p7_oprofile_MPISend(om, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
ESL_DPRINTF1(("Worker %d: test profile sent\n", my_rank));
}
free(wbuf);
p7_profile_Destroy(gm);
p7_oprofile_Destroy(om);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_alphabet_Destroy(abc);
esl_randomness_Destroy(r);
return;
}
int
main(int argc, char **argv)
{
char *hmmfile = argv[1]; /* name of HMM file to read one HMM from */
ESL_ALPHABET *abc = NULL; /* sequence alphabet */
ESL_RANDOMNESS *r = NULL; /* source of randomness */
P7_HMMFILE *hfp = NULL; /* open hmmfile */
P7_HMM *hmm = NULL; /* HMM to emit from */
P7_PROFILE *gm = NULL; /* profile HMM (scores) */
P7_BG *bg = NULL; /* null model */
P7_TRACE *tr = NULL; /* sampled trace */
ESL_SQ *sq = NULL; /* sampled digital sequence */
int n = 1000;
int counts[p7T_NSTATETYPES];
int i;
float sc;
float nullsc;
double bitscore;
r = esl_randomness_CreateFast(0);
tr = p7_trace_Create();
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("failed to open %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("failed to read HMM");
sq = esl_sq_CreateDigital(abc);
bg = p7_bg_Create(abc);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
for (i = 0; i < n; i++)
{
p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
p7_trace_GetStateUseCounts(tr, counts);
p7_ReconfigLength(gm, sq->n);
p7_bg_SetLength(bg, sq->n);
p7_trace_Score(tr, sq->dsq, gm, &sc);
p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
bitscore = (sc - nullsc)/ eslCONST_LOG2;
printf("%d %8.4f\n",
counts[p7T_M] + (counts[p7T_I] + counts[p7T_D])/2,
bitscore);
}
p7_profile_Destroy(gm);
esl_sq_Destroy(sq);
p7_trace_Destroy(tr);
esl_randomness_Destroy(r);
esl_alphabet_Destroy(abc);
p7_hmmfile_Close(hfp);
p7_hmm_Destroy(hmm);
return eslOK;
}
static void
emit_sequences(ESL_GETOPTS *go, FILE *ofp, int outfmt, ESL_RANDOMNESS *r, P7_HMM *hmm)
{
ESL_SQ *sq = NULL;
P7_TRACE *tr = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
int do_profile = esl_opt_GetBoolean(go, "-p");
int N = esl_opt_GetInteger(go, "-N");
int L = esl_opt_GetInteger(go, "-L");
int mode = p7_LOCAL;
int nseq;
int status;
if (esl_opt_GetBoolean(go, "--local")) mode = p7_LOCAL;
else if (esl_opt_GetBoolean(go, "--unilocal")) mode = p7_UNILOCAL;
else if (esl_opt_GetBoolean(go, "--glocal")) mode = p7_GLOCAL;
else if (esl_opt_GetBoolean(go, "--uniglocal")) mode = p7_UNIGLOCAL;
if ((sq = esl_sq_CreateDigital(hmm->abc)) == NULL) esl_fatal("failed to allocate sequence");
if ((tr = p7_trace_Create()) == NULL) esl_fatal("failed to allocate trace");
if ((bg = p7_bg_Create(hmm->abc)) == NULL) esl_fatal("failed to create null model");
if ((gm = p7_profile_Create(hmm->M, hmm->abc)) == NULL) esl_fatal("failed to create profile");
if (p7_ProfileConfig(hmm, bg, gm, L, mode) != eslOK) esl_fatal("failed to configure profile");
if (p7_bg_SetLength(bg, L) != eslOK) esl_fatal("failed to reconfig null model length");
if (p7_hmm_Validate (hmm, NULL, 0.0001) != eslOK) esl_fatal("whoops, HMM is bad!");
if (p7_profile_Validate(gm, NULL, 0.0001) != eslOK) esl_fatal("whoops, profile is bad!");
for (nseq = 1; nseq <= N; nseq++)
{
if (do_profile) status = p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
else status = p7_CoreEmit (r, hmm, sq, tr);
if (status) esl_fatal("Failed to emit sequence\n");
status = esl_sq_FormatName(sq, "%s-sample%d", hmm->name, nseq);
if (status) esl_fatal("Failed to set sequence name\n");
status = esl_sqio_Write(ofp, sq, outfmt, FALSE);
if (status != eslOK) esl_fatal("Failed to write sequence\n");
p7_trace_Reuse(tr);
esl_sq_Reuse(sq);
}
esl_sq_Destroy(sq);
p7_trace_Destroy(tr);
p7_bg_Destroy(bg);
p7_profile_Destroy(gm);
return;
}
/* Function: p7_ViterbiMu()
* Synopsis: Determines the local Viterbi Gumbel mu parameter for a model.
* Incept: SRE, Tue May 19 10:26:19 2009 [Janelia]
*
* Purpose: Identical to p7_MSVMu(), above, except that it fits
* Viterbi scores instead of MSV scores.
*
* The difference between the two mus is small, but can be
* up to ~1 bit or so for large, low-info models [J4/126] so
* decided to calibrate the two mus separately [J5/8].
*
* Args: r : source of random numbers
* om : score profile (length config is changed upon return!)
* bg : null model (length config is changed upon return!)
* L : length of sequences to simulate
* N : number of sequences to simulate
* lambda : known Gumbel lambda parameter
* ret_vmu : RETURN: ML estimate of location param mu
*
* Returns: <eslOK> on success, and <ret_mu> contains the ML estimate
* of $\mu$.
*
* Throws: (no abnormal error conditions)
*/
int
p7_ViterbiMu(ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double *ret_vmu)
{
P7_OMX *ox = p7_omx_Create(om->M, 0, 0); /* DP matrix: 1 row version */
ESL_DSQ *dsq = NULL;
double *xv = NULL;
int i;
float sc, nullsc;
#ifndef p7_IMPL_DUMMY
float maxsc = (32767.0 - om->base_w) / om->scale_w; /* if score overflows, use this [J4/139] */
#endif
int status;
if (ox == NULL) { status = eslEMEM; goto ERROR; }
ESL_ALLOC(xv, sizeof(double) * N);
ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
p7_oprofile_ReconfigLength(om, L);
p7_bg_SetLength(bg, L);
for (i = 0; i < N; i++)
{
if ((status = esl_rsq_xfIID(r, bg->f, om->abc->K, L, dsq)) != eslOK) goto ERROR;
if ((status = p7_bg_NullOne(bg, dsq, L, &nullsc)) != eslOK) goto ERROR;
status = p7_ViterbiFilter(dsq, L, om, ox, &sc);
#ifndef p7_IMPL_DUMMY
if (status == eslERANGE) { sc = maxsc; status = eslOK; }
#endif
if (status != eslOK) goto ERROR;
xv[i] = (sc - nullsc) / eslCONST_LOG2;
}
if ((status = esl_gumbel_FitCompleteLoc(xv, N, lambda, ret_vmu)) != eslOK) goto ERROR;
p7_omx_Destroy(ox);
free(xv);
free(dsq);
return eslOK;
ERROR:
*ret_vmu = 0.0;
if (ox != NULL) p7_omx_Destroy(ox);
if (xv != NULL) free(xv);
if (dsq != NULL) free(dsq);
return status;
}
/* Function: p7_Tau()
* Synopsis: Determine Forward tau by brief simulation.
* Incept: SRE, Thu Aug 9 15:08:39 2007 [Janelia]
*
* Purpose: Determine the <tau> parameter for an exponential tail fit
* to the Forward score distribution for model <om>, on
* random sequences with the composition of the background
* model <bg>. This <tau> parameter is for an exponential
* distribution anchored from $P=1.0$, so it's not really a
* tail per se; but it's only an accurate fit in the tail
* of the Forward score distribution, from about $P=0.001$
* or so.
*
* The determination of <tau> is done by a brief simulation
* in which we fit a Gumbel distribution to a small number
* of Forward scores of random sequences, and use that to
* predict the location of the tail at probability <tailp>.
*
* The Gumbel is of course inaccurate, but we can use it
* here solely as an empirical distribution to determine
* the location of a reasonable <tau> more accurately on a
* smaller number of samples than we could do with raw
* order statistics.
*
* Typical choices are L=100, N=200, tailp=0.04, which
* typically yield estimates $\hat{\mu}$ with a precision
* (standard deviation) of $\pm$ 0.2 bits, corresponding to
* a $\pm$ 15\% error in E-values. See [J1/135].
*
* The use of Gumbel fitting to a small number of $N$
* samples and the extrapolation of $\hat{\mu}$ from the
* estimated location of the 0.04 tail mass are both
* empirical and carefully optimized against several
* tradeoffs. Most importantly, around this choice of tail
* probability, a systematic error introduced by the use of
* the Gumbel fit is being cancelled by systematic error
* introduced by the use of a higher tail probability than
* the regime in which the exponential tail is a valid
* approximation. See [J1/135] for discussion.
*
* This function changes the length configuration of both
* <om> and <bg>. The caller must remember to reconfigure
* both of their length models appropriately for any
* subsequent alignments.
*
* Args: r : source of randomness
* om : configured profile to sample sequences from
* bg : null model (for background residue frequencies)
* L : mean length model for seq emission from profile
* N : number of sequences to generate
* lambda : expected slope of the exponential tail (from p7_Lambda())
* tailp : tail mass from which we will extrapolate mu
* ret_mu : RETURN: estimate for the Forward mu (base of exponential tail)
*
* Returns: <eslOK> on success, and <*ret_fv> is the score difference
* in bits.
*
* Throws: <eslEMEM> on allocation error, and <*ret_fv> is 0.
*/
int
p7_Tau(ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double tailp, double *ret_tau)
{
P7_OMX *ox = p7_omx_Create(om->M, 0, L); /* DP matrix: for ForwardParser, L rows */
ESL_DSQ *dsq = NULL;
double *xv = NULL;
float fsc, nullsc;
double gmu, glam;
int status;
int i;
ESL_ALLOC(xv, sizeof(double) * N);
ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
if (ox == NULL) { status = eslEMEM; goto ERROR; }
p7_oprofile_ReconfigLength(om, L);
p7_bg_SetLength(bg, L);
for (i = 0; i < N; i++)
{
if ((status = esl_rsq_xfIID(r, bg->f, om->abc->K, L, dsq)) != eslOK) goto ERROR;
if ((status = p7_ForwardParser(dsq, L, om, ox, &fsc)) != eslOK) goto ERROR;
if ((status = p7_bg_NullOne(bg, dsq, L, &nullsc)) != eslOK) goto ERROR;
xv[i] = (fsc - nullsc) / eslCONST_LOG2;
}
if ((status = esl_gumbel_FitComplete(xv, N, &gmu, &glam)) != eslOK) goto ERROR;
/* Explanation of the eqn below: first find the x at which the Gumbel tail
* mass is predicted to be equal to tailp. Then back up from that x
* by log(tailp)/lambda to set the origin of the exponential tail to 1.0
* instead of tailp.
*/
*ret_tau = esl_gumbel_invcdf(1.0-tailp, gmu, glam) + (log(tailp) / lambda);
free(xv);
free(dsq);
p7_omx_Destroy(ox);
return eslOK;
ERROR:
*ret_tau = 0.;
if (xv != NULL) free(xv);
if (dsq != NULL) free(dsq);
if (ox != NULL) p7_omx_Destroy(ox);
return status;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = esl_alphabet_Create(eslAMINO);
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *fwd = NULL;
P7_GMX *bck = NULL;
ESL_DSQ *dsq = NULL;
int M = esl_opt_GetInteger(go, "-M");
int L = esl_opt_GetInteger(go, "-L");
/* Sample a random HMM */
p7_hmm_Sample(r, M, abc, &hmm);
/* Configure a profile from the sampled HMM */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
/* Other initial allocations */
dsq = malloc(sizeof(ESL_DSQ) * (L+2));
fwd = p7_gmx_Create(gm->M, L);
bck = p7_gmx_Create(gm->M, L);
p7_FLogsumInit();
utest_correct_normalization(r, gm, bg, dsq, L, fwd, bck);
free(dsq);
p7_gmx_Destroy(fwd);
p7_gmx_Destroy(bck);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_alphabet_Destroy(abc);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
int i;
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc);
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
p7_oprofile_Convert(gm, om);
esl_stopwatch_Stop(w);
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_getopts_Destroy(go);
return 0;
}
static void
serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
{
P7_HMM *hmm = NULL;
double *xv = NULL; /* results: array of N scores */
int *av = NULL; /* optional results: array of N alignment lengths */
char errbuf[eslERRBUFSIZE];
int status;
if ((status = init_master_cfg(go, cfg, errbuf)) != eslOK) p7_Fail(errbuf);
if ((xv = malloc(sizeof(double) * cfg->N)) == NULL) p7_Fail("allocation failed");
if (esl_opt_GetBoolean(go, "-a") &&
(av = malloc(sizeof(int) * cfg->N)) == NULL) p7_Fail("allocation failed");
while ((status = p7_hmmfile_Read(cfg->hfp, &(cfg->abc), &hmm)) != eslEOF)
{
if (status == eslEOD) p7_Fail("read failed, HMM file %s may be truncated?", cfg->hmmfile);
else if (status == eslEFORMAT) p7_Fail("bad file format in HMM file %s", cfg->hmmfile);
else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets", cfg->hmmfile);
else if (status != eslOK) p7_Fail("Unexpected error in reading HMMs from %s", cfg->hmmfile);
if (cfg->bg == NULL) {
if (esl_opt_GetBoolean(go, "--bgflat")) cfg->bg = p7_bg_CreateUniform(cfg->abc);
else cfg->bg = p7_bg_Create(cfg->abc);
p7_bg_SetLength(cfg->bg, esl_opt_GetInteger(go, "-L")); /* set the null model background length in both master and workers. */
}
if (esl_opt_GetBoolean(go, "--recal")) {
if (recalibrate_model(go, cfg, errbuf, hmm) != eslOK) p7_Fail(errbuf);
}
if (process_workunit(go, cfg, errbuf, hmm, xv, av) != eslOK) p7_Fail(errbuf);
if (output_result (go, cfg, errbuf, hmm, xv, av) != eslOK) p7_Fail(errbuf);
p7_hmm_Destroy(hmm);
}
free(xv);
if (av != NULL) free(av);
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_GMX *gx1 = NULL;
P7_GMX *gx2 = NULL;
P7_OMX *ox1 = NULL;
P7_OMX *ox2 = NULL;
P7_TRACE *tr = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
int i;
float fsc, bsc, accscore;
float fsc_g, bsc_g, accscore_g;
double Mcs;
p7_FLogsumInit();
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc); p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc); p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc); p7_oprofile_Convert(gm, om);
p7_oprofile_ReconfigLength(om, L);
if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
ox1 = p7_omx_Create(gm->M, L, L);
ox2 = p7_omx_Create(gm->M, L, L);
tr = p7_trace_CreateWithPP();
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_Forward (dsq, L, om, ox1, &fsc);
p7_Backward(dsq, L, om, ox1, ox2, &bsc);
p7_Decoding(om, ox1, ox2, ox2);
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
p7_OptimalAccuracy(om, ox2, ox1, &accscore);
if (! esl_opt_GetBoolean(go, "--notrace"))
{
p7_OATrace(om, ox2, ox1, tr);
p7_trace_Reuse(tr);
}
}
esl_stopwatch_Stop(w);
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x") )
{
gx1 = p7_gmx_Create(gm->M, L);
gx2 = p7_gmx_Create(gm->M, L);
p7_GForward (dsq, L, gm, gx1, &fsc_g);
p7_GBackward(dsq, L, gm, gx2, &bsc_g);
p7_GDecoding(gm, gx1, gx2, gx2);
p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g);
printf("generic: fwd=%8.4f bck=%8.4f acc=%8.4f\n", fsc_g, bsc_g, accscore_g);
printf("VMX: fwd=%8.4f bck=%8.4f acc=%8.4f\n", fsc, bsc, accscore);
p7_gmx_Destroy(gx1);
p7_gmx_Destroy(gx2);
}
free(dsq);
p7_omx_Destroy(ox1);
p7_omx_Destroy(ox2);
p7_trace_Destroy(tr);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
static int
serial_loop(WORKER_INFO *info, P7_HMMFILE *hfp)
{
int status;
int i;
int seq_len = 0;
int prev_hit_cnt = 0;
P7_OPROFILE *om = NULL;
P7_SCOREDATA *scoredata = NULL; /* hmm-specific data used by nhmmer */
ESL_ALPHABET *abc = NULL;
P7_DOMAIN *dcl;
#ifdef eslAUGMENT_ALPHABET
ESL_SQ *sq_revcmp = NULL;
if (info->pli->strand != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL ) {
sq_revcmp = esl_sq_CreateDigital(info->qsq->abc);
esl_sq_Copy(info->qsq,sq_revcmp);
esl_sq_ReverseComplement(sq_revcmp);
info->pli->nres += info->qsq->n;
}
#endif /*eslAUGMENT_ALPHABET*/
/* Main loop: */
while ((status = p7_oprofile_ReadMSV(hfp, &abc, &om)) == eslOK)
{
seq_len = 0;
p7_pli_NewModel(info->pli, om, info->bg);
p7_bg_SetLength(info->bg, info->qsq->n);
p7_oprofile_ReconfigLength(om, info->qsq->n);
scoredata = p7_hmm_ScoreDataCreate(om, FALSE);
#ifdef eslAUGMENT_ALPHABET
//reverse complement
if (info->pli->strand != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL )
{
p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, sq_revcmp, info->th, 0);
p7_pipeline_Reuse(info->pli); // prepare for next search
seq_len = info->qsq->n;
for (i = prev_hit_cnt; i < info->th->N ; i++)
{
dcl = info->th->unsrt[i].dcl;
// modify hit positions to account for the position of the window in the full sequence
dcl->ienv = seq_len - dcl->ienv + 1;
dcl->jenv = seq_len - dcl->jenv + 1;
dcl->iali = seq_len - dcl->iali + 1;
dcl->jali = seq_len - dcl->jali + 1;
dcl->ad->sqfrom = seq_len - dcl->ad->sqfrom + 1;
dcl->ad->sqto = seq_len - dcl->ad->sqto + 1;
}
}
#endif
if (info->pli->strand != p7_STRAND_BOTTOMONLY) {
p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->qsq, info->th, 0);
p7_pipeline_Reuse(info->pli);
seq_len += info->qsq->n;
}
for (i = prev_hit_cnt; i < info->th->N ; i++)
{
info->th->unsrt[i].lnP += log((float)seq_len / (float)om->max_length);
info->th->unsrt[i].dcl[0].lnP = info->th->unsrt[i].lnP;
info->th->unsrt[i].sortkey = -1.0 * info->th->unsrt[i].lnP;
info->th->unsrt[i].dcl[0].ad->L = om->M;
}
prev_hit_cnt = info->th->N;
p7_oprofile_Destroy(om);
p7_hmm_ScoreDataDestroy(scoredata);
}
esl_alphabet_Destroy(abc);
#ifdef eslAUGMENT_ALPHABET
esl_sq_Destroy(sq_revcmp);
#endif
return status;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_OMX *ox = NULL;
P7_GMX *gx = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
int i;
float sc1, sc2;
double base_time, bench_time, Mcs;
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
p7_oprofile_ReconfigLength(om, L);
if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsVF(om, gm);
ox = p7_omx_Create(gm->M, 0, 0);
gx = p7_gmx_Create(gm->M, L);
/* Get a baseline time: how long it takes just to generate the sequences */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
esl_stopwatch_Stop(w);
base_time = w->user;
/* Run the benchmark */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_ViterbiFilter(dsq, L, om, ox, &sc1);
if (esl_opt_GetBoolean(go, "-c"))
{
p7_GViterbi(dsq, L, gm, gx, &sc2);
printf("%.4f %.4f\n", sc1, sc2);
}
if (esl_opt_GetBoolean(go, "-x"))
{
p7_GViterbi(dsq, L, gm, gx, &sc2);
sc2 /= om->scale_w;
if (om->mode == p7_UNILOCAL) sc2 -= 2.0; /* that's ~ L \log \frac{L}{L+2}, for our NN,CC,JJ */
else if (om->mode == p7_LOCAL) sc2 -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
printf("%.4f %.4f\n", sc1, sc2);
}
}
esl_stopwatch_Stop(w);
bench_time = w->user - base_time;
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_omx_Destroy(ox);
p7_gmx_Destroy(gx);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_OMX *ox = NULL;
P7_GMX *gx = NULL;
ESL_SQ *sq = NULL;
ESL_SQFILE *sqfp = NULL;
int format = eslSQFILE_UNKNOWN;
float vfraw, nullsc, vfscore;
float graw, gscore;
double P, gP;
int status;
/* Read in one HMM */
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
/* Read in one sequence */
sq = esl_sq_CreateDigital(abc);
status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
if (status == eslENOTFOUND) p7_Fail("No such file.");
else if (status == eslEFORMAT) p7_Fail("Format unrecognized.");
else if (status == eslEINVAL) p7_Fail("Can't autodetect stdin or .gz.");
else if (status != eslOK) p7_Fail("Open failed, code %d.", status);
/* create default null model, then create and optimize profile */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, sq->n);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
/* allocate DP matrices, both a generic and an optimized one */
ox = p7_omx_Create(gm->M, 0, sq->n);
gx = p7_gmx_Create(gm->M, sq->n);
/* Useful to place and compile in for debugging:
p7_oprofile_Dump(stdout, om); dumps the optimized profile
p7_omx_SetDumpMode(ox, TRUE); makes the fast DP algorithms dump their matrices
p7_gmx_Dump(stdout, gx); dumps a generic DP matrix
*/
while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
{
p7_oprofile_ReconfigLength(om, sq->n);
p7_ReconfigLength(gm, sq->n);
p7_bg_SetLength(bg, sq->n);
p7_omx_GrowTo(ox, om->M, 0, sq->n);
p7_gmx_GrowTo(gx, gm->M, sq->n);
p7_ViterbiFilter (sq->dsq, sq->n, om, ox, &vfraw);
p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
vfscore = (vfraw - nullsc) / eslCONST_LOG2;
P = esl_gumbel_surv(vfscore, om->evparam[p7_VMU], om->evparam[p7_VLAMBDA]);
p7_GViterbi (sq->dsq, sq->n, gm, gx, &graw);
gscore = (graw - nullsc) / eslCONST_LOG2;
gP = esl_gumbel_surv(gscore, gm->evparam[p7_VMU], gm->evparam[p7_VLAMBDA]);
if (esl_opt_GetBoolean(go, "-1"))
{
printf("%-30s\t%-20s\t%9.2g\t%7.2f\t%9.2g\t%7.2f\n", sq->name, hmm->name, P, vfscore, gP, gscore);
}
else if (esl_opt_GetBoolean(go, "-P"))
{ /* output suitable for direct use in profmark benchmark postprocessors: */
printf("%g\t%.2f\t%s\t%s\n", P, vfscore, sq->name, hmm->name);
}
else
{
printf("target sequence: %s\n", sq->name);
printf("vit filter raw score: %.2f nats\n", vfraw);
printf("null score: %.2f nats\n", nullsc);
printf("per-seq score: %.2f bits\n", vfscore);
printf("P-value: %g\n", P);
printf("GViterbi raw score: %.2f nats\n", graw);
printf("GViterbi seq score: %.2f bits\n", gscore);
printf("GViterbi P-value: %g\n", gP);
}
esl_sq_Reuse(sq);
}
/* cleanup */
esl_sq_Destroy(sq);
esl_sqfile_Close(sqfp);
p7_omx_Destroy(ox);
p7_gmx_Destroy(gx);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
char *hmmfile = argv[1];
char *seqfile = argv[2];
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_OMX *ox = NULL;
P7_GMX *gx = NULL;
ESL_SQ *sq = NULL;
ESL_SQFILE *sqfp = NULL;
int format = eslSQFILE_UNKNOWN;
float sc;
int status;
/* Read in one HMM */
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
/* Read in one sequence */
sq = esl_sq_CreateDigital(abc);
status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
if (status == eslENOTFOUND) p7_Fail("No such file.");
else if (status == eslEFORMAT) p7_Fail("Format unrecognized.");
else if (status == eslEINVAL) p7_Fail("Can't autodetect stdin or .gz.");
else if (status != eslOK) p7_Fail("Open failed, code %d.", status);
if (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
/* create default null model, then create and optimize profile */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, sq->n);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
p7_oprofile_Logify(om);
/* allocate DP matrices, both a generic and an optimized one */
ox = p7_omx_Create(gm->M, 0, sq->n);
gx = p7_gmx_Create(gm->M, sq->n);
/* Useful to place and compile in for debugging:
p7_oprofile_Dump(stdout, om); dumps the optimized profile
p7_omx_SetDumpMode(ox, TRUE); makes the fast DP algorithms dump their matrices
p7_gmx_Dump(stdout, gx); dumps a generic DP matrix
*/
p7_ViterbiScore(sq->dsq, sq->n, om, ox, &sc); printf("viterbi (non-optimized): %.2f nats\n", sc);
p7_GViterbi (sq->dsq, sq->n, gm, gx, &sc); printf("viterbi (generic): %.2f nats\n", sc);
/* now in a real app, you'd need to convert raw nat scores to final bit
* scores, by subtracting the null model score and rescaling.
*/
/* cleanup */
esl_sq_Destroy(sq);
esl_sqfile_Close(sqfp);
p7_omx_Destroy(ox);
p7_gmx_Destroy(gx);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
return 0;
}
static void
pipeline_thread(void *arg)
{
int i, j;
int status;
int workeridx;
WORKER_INFO *info;
ESL_THREADS *obj;
P7_OM_BLOCK *block;
void *newBlock;
P7_OPROFILE *om = NULL;
P7_SCOREDATA *scoredata = NULL; /* hmm-specific data used by nhmmer */
P7_DOMAIN *dcl;
int seq_len = 0;
int prev_hit_cnt = 0;
#ifdef eslAUGMENT_ALPHABET
ESL_SQ *sq_revcmp = NULL;
#endif /*eslAUGMENT_ALPHABET*/
impl_ThreadInit();
obj = (ESL_THREADS *) arg;
esl_threads_Started(obj, &workeridx);
info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
if (status != eslOK) esl_fatal("Work queue worker failed");
#ifdef eslAUGMENT_ALPHABET
//reverse complement
if (info->pli->strand != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL ) {
sq_revcmp = esl_sq_CreateDigital(info->qsq->abc);
esl_sq_Copy(info->qsq,sq_revcmp);
esl_sq_ReverseComplement(sq_revcmp);
info->pli->nres += info->qsq->n;
}
#endif /*eslAUGMENT_ALPHABET*/
/* loop until all blocks have been processed */
block = (P7_OM_BLOCK *) newBlock;
while (block->count > 0)
{
/* Main loop: */
for (i = 0; i < block->count; ++i)
{
om = block->list[i];
seq_len = 0;
p7_pli_NewModel(info->pli, om, info->bg);
p7_bg_SetLength(info->bg, info->qsq->n);
p7_oprofile_ReconfigLength(om, info->qsq->n);
scoredata = p7_hmm_ScoreDataCreate(om, FALSE);
#ifdef eslAUGMENT_ALPHABET
//reverse complement
if (info->pli->strand != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL )
{
p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, sq_revcmp, info->th, 0);
p7_pipeline_Reuse(info->pli); // prepare for next search
seq_len = info->qsq->n;
for (j = prev_hit_cnt; j < info->th->N ; j++)
{
dcl = info->th->unsrt[j].dcl;
// modify hit positions to account for the position of the window in the full sequence
dcl->ienv = seq_len - dcl->ienv + 1;
dcl->jenv = seq_len - dcl->jenv + 1;
dcl->iali = seq_len - dcl->iali + 1;
dcl->jali = seq_len - dcl->jali + 1;
dcl->ad->sqfrom = seq_len - dcl->ad->sqfrom + 1;
dcl->ad->sqto = seq_len - dcl->ad->sqto + 1;
}
}
#endif
if (info->pli->strand != p7_STRAND_BOTTOMONLY) {
p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->qsq, info->th, 0);
p7_pipeline_Reuse(info->pli);
seq_len += info->qsq->n;
}
for (j = prev_hit_cnt; j < info->th->N ; j++)
{
info->th->unsrt[j].lnP += log((float)seq_len / (float)om->max_length);
info->th->unsrt[j].dcl[0].lnP = info->th->unsrt[j].lnP;
info->th->unsrt[j].sortkey = -1.0 * info->th->unsrt[j].lnP;
info->th->unsrt[j].dcl[0].ad->L = om->M;
}
prev_hit_cnt = info->th->N;
p7_hmm_ScoreDataDestroy(scoredata);
p7_oprofile_Destroy(om);
block->list[i] = NULL;
}
status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
if (status != eslOK) esl_fatal("Work queue worker failed");
block = (P7_OM_BLOCK *) newBlock;
}
#ifdef eslAUGMENT_ALPHABET
esl_sq_Destroy(sq_revcmp);
#endif
status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
if (status != eslOK) esl_fatal("Work queue worker failed");
esl_threads_Finished(obj, workeridx);
return;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *gx1 = NULL;
P7_GMX *gx2 = NULL;
ESL_SQ *sq = NULL;
ESL_SQFILE *sqfp = NULL;
P7_TRACE *tr = NULL;
int format = eslSQFILE_UNKNOWN;
char errbuf[eslERRBUFSIZE];
float fsc, bsc, vsc;
float accscore;
int status;
/* Read in one HMM */
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
p7_hmmfile_Close(hfp);
/* Read in one sequence */
sq = esl_sq_CreateDigital(abc);
status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
if (status == eslENOTFOUND) p7_Fail("No such file.");
else if (status == eslEFORMAT) p7_Fail("Format unrecognized.");
else if (status == eslEINVAL) p7_Fail("Can't autodetect stdin or .gz.");
else if (status != eslOK) p7_Fail("Open failed, code %d.", status);
if (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
esl_sqfile_Close(sqfp);
/* Configure a profile from the HMM */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, sq->n);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL); /* multihit local: H3 default */
/* Allocations */
gx1 = p7_gmx_Create(gm->M, sq->n);
gx2 = p7_gmx_Create(gm->M, sq->n);
tr = p7_trace_CreateWithPP();
p7_FLogsumInit();
/* Run Forward, Backward; do OA fill and trace */
p7_GForward (sq->dsq, sq->n, gm, gx1, &fsc);
p7_GBackward(sq->dsq, sq->n, gm, gx2, &bsc);
p7_GDecoding(gm, gx1, gx2, gx2); /* <gx2> is now the posterior decoding matrix */
p7_GOptimalAccuracy(gm, gx2, gx1, &accscore); /* <gx1> is now the OA matrix */
p7_GOATrace(gm, gx2, gx1, tr);
if (esl_opt_GetBoolean(go, "-d")) p7_gmx_Dump(stdout, gx2, p7_DEFAULT);
if (esl_opt_GetBoolean(go, "-m")) p7_gmx_Dump(stdout, gx1, p7_DEFAULT);
p7_trace_Dump(stdout, tr, gm, sq->dsq);
if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
printf("fwd = %.4f nats\n", fsc);
printf("bck = %.4f nats\n", bsc);
printf("acc = %.4f (%.2f%%)\n", accscore, accscore * 100. / (float) sq->n);
p7_trace_Reuse(tr);
p7_GViterbi(sq->dsq, sq->n, gm, gx1, &vsc);
p7_GTrace (sq->dsq, sq->n, gm, gx1, tr);
p7_trace_SetPP(tr, gx2);
p7_trace_Dump(stdout, tr, gm, sq->dsq);
printf("vit = %.4f nats\n", vsc);
printf("acc = %.4f\n", p7_trace_GetExpectedAccuracy(tr));
/* Cleanup */
esl_sq_Destroy(sq);
p7_trace_Destroy(tr);
p7_gmx_Destroy(gx1);
p7_gmx_Destroy(gx2);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_alphabet_Destroy(abc);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_OMX *ox1 = NULL;
P7_OMX *ox2 = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
float null2[p7_MAXCODE];
int i,j,d,pos;
int nsamples = 200;
float fsc, bsc;
double Mcs;
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc); p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc); p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc); p7_oprofile_Convert(gm, om);
p7_oprofile_ReconfigLength(om, L);
ox1 = p7_omx_Create(gm->M, L, L);
ox2 = p7_omx_Create(gm->M, L, L);
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_Forward (dsq, L, om, ox1, &fsc);
if (esl_opt_GetBoolean(go, "-t"))
{
P7_TRACE *tr = p7_trace_Create();
float *n2sc = malloc(sizeof(float) * (L+1));
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{ /* This is approximately what p7_domaindef.c::region_trace_ensemble() is doing: */
for (j = 0; j < nsamples; j++)
{
p7_StochasticTrace(r, dsq, L, om, ox1, tr);
p7_trace_Index(tr);
pos = 1;
for (d = 0; d < tr->ndom; d++)
{
p7_Null2_ByTrace(om, tr, tr->tfrom[d], tr->tto[d], ox2, null2);
for (; pos <= tr->sqfrom[d]; pos++) n2sc[pos] += 1.0;
for (; pos < tr->sqto[d]; pos++) n2sc[pos] += null2[dsq[pos]];
}
for (; pos <= L; pos++) n2sc[pos] += 1.0;
p7_trace_Reuse(tr);
}
for (pos = 1; pos <= L; pos++)
n2sc[pos] = logf(n2sc[pos] / nsamples);
}
esl_stopwatch_Stop(w);
free(n2sc);
p7_trace_Destroy(tr);
}
else
{
p7_Backward(dsq, L, om, ox1, ox2, &bsc);
p7_Decoding(om, ox1, ox2, ox2);
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
p7_Null2_ByExpectation(om, ox2, null2);
esl_stopwatch_Stop(w);
}
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_omx_Destroy(ox1);
p7_omx_Destroy(ox2);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
int N = esl_opt_GetInteger(go, "-N");
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_TRACE *tr = NULL;
ESL_SQ *sq = NULL;
P7_ALIDISPLAY *ad = NULL;
int i,z;
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
p7_hmmfile_Close(hfp);
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, 0);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, 0, p7_UNIGLOCAL); /* that sets N,C,J to generate nothing */
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
if (esl_opt_GetBoolean(go, "-p")) tr = p7_trace_CreateWithPP();
else tr = p7_trace_Create();
sq = esl_sq_CreateDigital(abc);
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
esl_sq_SetName(sq, "random");
if (! esl_opt_GetBoolean(go, "-b"))
{
if (esl_opt_GetBoolean(go, "-p"))
for (z = 0; z < tr->N; z++)
if (tr->i[z] > 0) tr->pp[z] = esl_random(r);
ad = p7_alidisplay_Create(tr, 0, om, sq);
p7_alidisplay_Print(stdout, ad, 40, 80, FALSE);
p7_alidisplay_Destroy(ad);
}
p7_trace_Reuse(tr);
esl_sq_Reuse(sq);
}
esl_stopwatch_Stop(w);
esl_stopwatch_Display(stdout, w, "# CPU time: ");
esl_sq_Destroy(sq);
p7_trace_Destroy(tr);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_alphabet_Destroy(abc);
esl_randomness_Destroy(r);
esl_stopwatch_Destroy(w);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *gx1 = NULL;
P7_GMX *gx2 = NULL;
P7_TRACE *tr = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
int i;
float fsc, bsc, accscore;
double Mcs;
p7_FLogsumInit();
if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
gx1 = p7_gmx_Create(gm->M, L);
gx2 = p7_gmx_Create(gm->M, L);
tr = p7_trace_CreateWithPP();
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_GForward (dsq, L, gm, gx1, &fsc);
p7_GBackward(dsq, L, gm, gx2, &bsc);
p7_GDecoding(gm, gx1, gx2, gx2); /* <gx2> is now the posterior decoding matrix */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
p7_GOptimalAccuracy(gm, gx2, gx1, &accscore); /* <gx1> is now the OA matrix */
if (! esl_opt_GetBoolean(go, "--notrace"))
{
p7_GOATrace(gm, gx2, gx1, tr);
p7_trace_Reuse(tr);
}
}
esl_stopwatch_Stop(w);
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_trace_Destroy(tr);
p7_gmx_Destroy(gx1);
p7_gmx_Destroy(gx2);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS*r = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET*abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm1, *gm2;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N") / SSE16_NVALS;
int MaxPart = esl_opt_GetInteger(go, "-M");
int NROUNDS = esl_opt_GetInteger(go, "-R");
int check = esl_opt_GetBoolean(go, "-c");
__m128 resdata[10];
int i, j;
float *sc1 = (float*) resdata;
ESL_SQFILE *sqfp = NULL;
DATA_COPS16 *dcops;
struct timeb tbstart, tbend;
int sumlengths = 0;
float* results = NULL;
srand(time(NULL));
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm1 = p7_profile_Create(hmm->M, abc);
gm2 = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm1, L, p7_UNILOCAL);
p7_ProfileConfig(hmm, bg, gm2, L, p7_UNILOCAL);
dcops = p7_ViterbiCOPSw_Create(gm1);
p7_ViterbiCOPSW_Setup(dcops, L+100, MaxPart); // use max L
dcops->L = L;
int dbsize = SSE16_NVALS*N;
SEQ **seqsdb= calloc(dbsize+1, sizeof(SEQ*));
int equallength = 1;
if (esl_sqfile_OpenDigital(abc, seqfile, eslSQFILE_FASTA, NULL, &sqfp) == eslOK)
{ // Use Sequence file
ESL_SQ* sq = esl_sq_CreateDigital(abc);
int maxseqs, len=0;
if (esl_opt_IsDefault(go, "-N")) // N not specified in cmdline
maxseqs = INT_MAX; // no limit
else
maxseqs = SSE16_NVALS*N; // use cmdline limit
for (j = 0; j < maxseqs && esl_sqio_Read(sqfp, sq) == eslOK; j++)
{
if (equallength && sq->n != len && j > 0)
equallength = 0;
len = sq->n;
if (j > dbsize)
{ seqsdb = realloc(seqsdb, 2*(dbsize+1)*sizeof(SEQ*));
dbsize *= 2;
}
ESL_DSQ* dsq = sq->dsq;
seqsdb[j] = malloc(sizeof(SEQ));
seqsdb[j]->length = len;
seqsdb[j]->seq = malloc((len+4)*sizeof(ESL_DSQ));
memcpy(seqsdb[j]->seq, dsq, len+2);
sumlengths += len;
esl_sq_Reuse(sq);
}
N = j/SSE16_NVALS;
}
else // Not found database. Generate random sequences
for (i = 0; i < N; i++)
for (j = 0; j < SSE16_NVALS; j++)
{
int len = L; // - rand()%1000;
seqsdb[i*SSE16_NVALS+j] = malloc(sizeof(SEQ));
seqsdb[i*SSE16_NVALS+j]->seq = malloc(len+4);
seqsdb[i*SSE16_NVALS+j]->length = len;
esl_rsq_xfIID(r, bg->f, abc->K, len, seqsdb[i*SSE16_NVALS+j]->seq);
sumlengths += len;
}
printf("Viterbi COPS Word with %d threads, model %s. ModelLen: %d, #Segms: %d, SeqL.: %d, #seqs: %d, Partition: %d, #parts: %d\n",
NTHREADS, hmmfile, gm1->M, (int) ceil(gm1->M/SSE16_NVALS), L, SSE16_NVALS*N*NROUNDS, dcops->partition, dcops->Npartitions);
/* // No. of partitions computed without full parallelism ( == no. of threads active while some are idle)
int Niters_part = dcops->Npartitions % NTHREADS;
// No. of Model lines that could be computed but are wasted by idle threads waiting on the end
int Nwasted_threads = dcops->partition * ((NTHREADS-Niters_part) % NTHREADS);
// No. of lines in the last partition that go beyond M. It's wasted comp time by a single thread
int Nwasted_leftover= (dcops->partition - gm1->M % dcops->partition) % dcops->partition;
// Total number of wasted lines
int wastedcomp = Nwasted_threads + Nwasted_leftover;
// Total number of lines computed and waited for
int totalcomp = wastedcomp + gm1->M; // same as: roundtop(gm1->M, dcops->partition * NTHREADS);
printf("Total Comp Lines: %d | Wasted Comp Lines: %d\n", totalcomp, wastedcomp);
*/
if (check) results = (float*) alloc_m128_aligned64((N+1)*2);
ftime(&tbstart);
if (!equallength)
{ // Sort sequences by length
qsort(seqsdb, N*SSE16_NVALS, sizeof(SEQ*), compare_seqs);
}
for (j = 0; j < NROUNDS; j++)
for (i = 0; i < N; i++)
{
// if (i % 1000 == 0) printf("Seq %d\n", i);
p7_ViterbiCOPSw_run(dcops, seqsdb+i*SSE16_NVALS, sc1);
if (check) memcpy(results+i*SSE16_NVALS, sc1, 32); // 32 bytes indeed! SSE16_NVALS floats
}
ftime(&tbend);
double secs = TIMEDIFF(tbstart,tbend);
w->elapsed = w->user = secs;
esl_stopwatch_Display(stdout, w, "# Opt CPU time: ");
double compmillioncells = NROUNDS * (double) sumlengths * (double) hmm->M * 1e-6;
printf("# %.0fM cells in %.1f Mc/s\n", compmillioncells, compmillioncells / secs);
if (check)
{ P7_OPROFILE *om = p7_oprofile_Create(hmm->M, gm1->abc);
p7_oprofile_Convert(gm1, om);
P7_OMX *ox = p7_omx_Create(hmm->M, 0, 0);
printf("Compare results against base version\n");
for (i = 0; i < N; i++)
{
int maxll = 0; float sc2;
for (j = 0; j < SSE16_NVALS; j++)
if (maxll < seqsdb[i*SSE16_NVALS+j]->length)
maxll = seqsdb[i*SSE16_NVALS+j]->length;
p7_oprofile_ReconfigRestLength(om, maxll);
// p7_ReconfigLength(gm2, maxll); // emulate the lock-step inter-sequence reconfigs
for (j = 0; j < SSE16_NVALS; j++)
{
// p7_ReconfigLength(gm2, seqsdb[i*SSE16_NVALS+j]->length);
// p7_Viterbi_unilocal(seqsdb[i*SSE16_NVALS+j]->seq, seqsdb[i*SSE16_NVALS+j]->length, gm2, &sc3);
// p7_Viterbi_unilocal_word(seqsdb[i*SSE16_NVALS+j]->seq, seqsdb[i*SSE16_NVALS+j]->length, gm2, &sc2);
// p7_oprofile_ReconfigLength(om, seqsdb[i*SSE16_NVALS+j]->length);
p7_ViterbiFilter(seqsdb[i*SSE16_NVALS+j]->seq, seqsdb[i*SSE16_NVALS+j]->length, om, ox, &sc2);
sc2 += 1.0; // -2.0nat optimization, Local to Unilocal mode
if (fabs(results[i*SSE16_NVALS+j] - sc2) > 0.0001)
{ printf("Seq %d Len %4d: %f - %f\tdiff: %f\n", i*SSE16_NVALS+j, seqsdb[i*SSE16_NVALS+j]->length,
results[i*SSE16_NVALS+j], sc2, fabs(results[i*SSE16_NVALS+j] - sc2));
}
}
}
}
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *gx = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
int i;
float sc;
double base_time, bench_time, Mcs;
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
gx = p7_gmx_Create(gm->M, L);
/* Baseline time. */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
esl_stopwatch_Stop(w);
base_time = w->user;
/* Benchmark time. */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
p7_GViterbi (dsq, L, gm, gx, &sc);
}
esl_stopwatch_Stop(w);
bench_time = w->user - base_time;
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_gmx_Destroy(gx);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
ESL_RANDOMNESS *rng = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
char *ghmmfile = esl_opt_GetArg(go, 1); /* HMMs parameterized for sequence generation */
char *ahmmfile = esl_opt_GetArg(go, 2); /* HMMs parameterized for alignment */
int N = esl_opt_GetInteger(go, "-N");
P7_HMMFILE *ghfp = NULL;
P7_HMMFILE *ahfp = NULL;
P7_HMM *ghmm = NULL;
P7_HMM *ahmm = NULL;
P7_PROFILE *ggm = NULL;
P7_PROFILE *agm = NULL;
P7_OPROFILE *aom = NULL;
P7_BG *bg = NULL;
ESL_SQ *sq = NULL;
P7_TRACE *reftr = p7_trace_Create();
P7_TRACE *testtr = p7_trace_Create();
P7_TRACE_METRICS *tmetrics = p7_trace_metrics_Create();
P7_REFMX *rmx = p7_refmx_Create(100,100);
// P7_FILTERMX *ox = NULL;
P7_HARDWARE *hw;
if ((hw = p7_hardware_Create ()) == NULL) p7_Fail("Couldn't get HW information data structure");
P7_SPARSEMASK *sm = p7_sparsemask_Create(100, 100, hw->simd);
P7_SPARSEMX *sxv = p7_sparsemx_Create(NULL);
int idx;
char errbuf[eslERRBUFSIZE];
int status;
p7_Init();
/* open HMM file containing models parameterized for generation (sampling) of seqs */
status = p7_hmmfile_OpenE(ghmmfile, NULL, &ghfp, errbuf);
if (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", ghmmfile, errbuf);
else if (status == eslEFORMAT) p7_Fail("File format problem in trying to open HMM file %s.\n%s\n", ghmmfile, errbuf);
else if (status != eslOK) p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n", status, ghmmfile, errbuf);
/* open HMM file containing models parameterized for alignment (may be the same as ghmmfile) */
status = p7_hmmfile_OpenE(ahmmfile, NULL, &ahfp, errbuf);
if (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", ahmmfile, errbuf);
else if (status == eslEFORMAT) p7_Fail("File format problem in trying to open HMM file %s.\n%s\n", ahmmfile, errbuf);
else if (status != eslOK) p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n", status, ahmmfile, errbuf);
while ( (status = p7_hmmfile_Read(ghfp, &abc, &ghmm)) == eslOK) /* <abc> gets set on first read */
{
/* read the counterpart HMM from <ahfp> */
status = p7_hmmfile_Read(ahfp, &abc, &ahmm);
if (status == eslEFORMAT) p7_Fail("Bad file format in HMM file %s:\n%s\n", ahfp->fname, ahfp->errbuf);
else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", ahfp->fname, esl_abc_DecodeType(abc->type));
else if (status == eslEOF) p7_Fail("Empty HMM file %s? No HMM data found.\n", ahfp->fname);
else if (status != eslOK) p7_Fail("Unexpected error in reading HMMs from %s\n", ahfp->fname);
/* try to validate that they're the "same" */
if (ahmm->M != ghmm->M || strcmp(ahmm->name, ghmm->name) != 0) p7_Fail("<gen-hmmfile>, <ali-hmmfile> contain different set or order of models");
/* deferred one-time creation of structures that need to know the alphabet */
if (!bg) bg = p7_bg_Create(abc);
if (!sq) sq = esl_sq_CreateDigital(abc);
ggm = p7_profile_Create(ghmm->M, abc);
agm = p7_profile_Create(ahmm->M, abc);
aom = p7_oprofile_Create(ahmm->M, abc, hw->simd);
p7_profile_ConfigCustom(ggm, ghmm, bg, esl_opt_GetInteger(go, "--gL"), esl_opt_GetReal(go, "--gnj"), esl_opt_GetReal(go, "--gpglocal"));
p7_profile_ConfigCustom(agm, ahmm, bg, 100, esl_opt_GetReal(go, "--anj"), esl_opt_GetReal(go, "--apglocal"));
p7_oprofile_Convert(agm, aom);
for (idx = 1; idx <= N; idx++)
{
p7_ProfileEmit(rng, ghmm, ggm, bg, sq, reftr);
if (esl_opt_GetBoolean(go, "--dumpseqs")) {
esl_sq_FormatName(sq, "seq%d", idx);
esl_sqio_Write(stdout, sq, eslSQFILE_FASTA, FALSE);
}
p7_bg_SetLength(bg, sq->n);
p7_profile_SetLength(agm, sq->n);
p7_sparsemask_Reinit(sm, agm->M, sq->n);
p7_sparsemask_AddAll(sm);
if (esl_opt_GetBoolean(go, "--vit")) p7_ReferenceViterbi(sq->dsq, sq->n, agm, rmx, testtr, /*opt_vsc=*/NULL);
else p7_SparseViterbi (sq->dsq, sq->n, agm, sm, sxv, testtr, /*opt_vsc=*/NULL);
p7_trace_metrics(reftr, testtr, tmetrics);
p7_sparsemask_Reuse(sm);
p7_sparsemx_Reuse(sxv);
//p7_filtermx_Reuse(ox);
p7_refmx_Reuse(rmx);
esl_sq_Reuse(sq);
p7_trace_Reuse(reftr);
p7_trace_Reuse(testtr);
}
p7_oprofile_Destroy(aom);
p7_profile_Destroy(ggm);
p7_profile_Destroy(agm);
p7_hmm_Destroy(ghmm);
p7_hmm_Destroy(ahmm);
}
/* we leave the loop with <status> set by a p7_hmmfile_Read() on ghfp; if all is well, status=eslEOF */
if (status == eslEFORMAT) p7_Fail("Bad file format in HMM file %s:\n%s\n", ghfp->fname, ghfp->errbuf);
else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", ghfp->fname, esl_abc_DecodeType(abc->type));
else if (status != eslEOF) p7_Fail("Unexpected error in reading HMMs from %s\n", ghfp->fname);
p7_trace_metrics_Dump(stdout, tmetrics);
p7_hmmfile_Close(ghfp);
p7_hmmfile_Close(ahfp);
// p7_filtermx_Destroy(ox);
p7_sparsemask_Destroy(sm);
p7_sparsemx_Destroy(sxv);
p7_refmx_Destroy(rmx);
p7_trace_metrics_Destroy(tmetrics);
p7_trace_Destroy(testtr);
p7_trace_Destroy(reftr);
p7_bg_Destroy(bg);
esl_alphabet_Destroy(abc);
esl_randomness_Destroy(rng);
esl_getopts_Destroy(go);
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS *r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_GMX *gx = NULL;
P7_OMX *fwd = NULL;
P7_OMX *bck = NULL;
int L = esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
ESL_DSQ *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
int i;
float fsc, bsc;
float fsc2, bsc2;
double base_time, bench_time, Mcs;
p7_FLogsumInit();
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
p7_oprofile_ReconfigLength(om, L);
if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
if (esl_opt_GetBoolean(go, "-P")) {
fwd = p7_omx_Create(gm->M, 0, L);
bck = p7_omx_Create(gm->M, 0, L);
} else {
fwd = p7_omx_Create(gm->M, L, L);
bck = p7_omx_Create(gm->M, L, L);
}
gx = p7_gmx_Create(gm->M, L);
/* Get a baseline time: how long it takes just to generate the sequences */
esl_stopwatch_Start(w);
for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
esl_stopwatch_Stop(w);
base_time = w->user;
esl_stopwatch_Start(w);
for (i = 0; i < N; i++)
{
esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
if (esl_opt_GetBoolean(go, "-P")) {
if (! esl_opt_GetBoolean(go, "-B")) p7_ForwardParser (dsq, L, om, fwd, &fsc);
if (! esl_opt_GetBoolean(go, "-F")) p7_BackwardParser(dsq, L, om, fwd, bck, &bsc);
} else {
if (! esl_opt_GetBoolean(go, "-B")) p7_Forward (dsq, L, om, fwd, &fsc);
if (! esl_opt_GetBoolean(go, "-F")) p7_Backward(dsq, L, om, fwd, bck, &bsc);
}
if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
{
p7_GForward (dsq, L, gm, gx, &fsc2);
p7_GBackward(dsq, L, gm, gx, &bsc2);
printf("%.4f %.4f %.4f %.4f\n", fsc, bsc, fsc2, bsc2);
}
}
esl_stopwatch_Stop(w);
bench_time = w->user - base_time;
Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
esl_stopwatch_Display(stdout, w, "# CPU time: ");
printf("# M = %d\n", gm->M);
printf("# %.1f Mc/s\n", Mcs);
free(dsq);
p7_omx_Destroy(bck);
p7_omx_Destroy(fwd);
p7_gmx_Destroy(gx);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_stopwatch_Destroy(w);
esl_randomness_Destroy(r);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_OPROFILE *om = NULL;
P7_GMX *gx = NULL;
P7_OMX *fwd = NULL;
P7_OMX *bck = NULL;
ESL_SQ *sq = NULL;
ESL_SQFILE *sqfp = NULL;
int format = eslSQFILE_UNKNOWN;
float fraw, braw, nullsc, fsc;
float gfraw, gbraw, gfsc;
double P, gP;
int status;
/* Read in one HMM */
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
/* Open sequence file for reading */
sq = esl_sq_CreateDigital(abc);
status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
if (status == eslENOTFOUND) p7_Fail("No such file.");
else if (status == eslEFORMAT) p7_Fail("Format unrecognized.");
else if (status == eslEINVAL) p7_Fail("Can't autodetect stdin or .gz.");
else if (status != eslOK) p7_Fail("Open failed, code %d.", status);
/* create default null model, then create and optimize profile */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, sq->n);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
om = p7_oprofile_Create(gm->M, abc);
p7_oprofile_Convert(gm, om);
/* p7_oprofile_Dump(stdout, om); */
/* allocate DP matrices for O(M+L) parsers */
fwd = p7_omx_Create(gm->M, 0, sq->n);
bck = p7_omx_Create(gm->M, 0, sq->n);
gx = p7_gmx_Create(gm->M, sq->n);
/* allocate DP matrices for O(ML) fills */
/* fwd = p7_omx_Create(gm->M, sq->n, sq->n); */
/* bck = p7_omx_Create(gm->M, sq->n, sq->n); */
/* p7_omx_SetDumpMode(stdout, fwd, TRUE); */ /* makes the fast DP algorithms dump their matrices */
/* p7_omx_SetDumpMode(stdout, bck, TRUE); */
while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
{
p7_oprofile_ReconfigLength(om, sq->n);
p7_ReconfigLength(gm, sq->n);
p7_bg_SetLength(bg, sq->n);
p7_omx_GrowTo(fwd, om->M, 0, sq->n);
p7_omx_GrowTo(bck, om->M, 0, sq->n);
p7_gmx_GrowTo(gx, gm->M, sq->n);
p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
p7_ForwardParser (sq->dsq, sq->n, om, fwd, &fraw);
p7_BackwardParser(sq->dsq, sq->n, om, fwd, bck, &braw);
/* p7_Forward (sq->dsq, sq->n, om, fwd, &fsc); printf("forward: %.2f nats\n", fsc); */
/* p7_Backward(sq->dsq, sq->n, om, fwd, bck, &bsc); printf("backward: %.2f nats\n", bsc); */
/* Comparison to other F/B implementations */
p7_GForward (sq->dsq, sq->n, gm, gx, &gfraw);
p7_GBackward (sq->dsq, sq->n, gm, gx, &gbraw);
/* p7_gmx_Dump(stdout, gx); */
fsc = (fraw-nullsc) / eslCONST_LOG2;
gfsc = (gfraw-nullsc) / eslCONST_LOG2;
P = esl_exp_surv(fsc, om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
gP = esl_exp_surv(gfsc, gm->evparam[p7_FTAU], gm->evparam[p7_FLAMBDA]);
if (esl_opt_GetBoolean(go, "-1"))
{
printf("%-30s\t%-20s\t%9.2g\t%6.1f\t%9.2g\t%6.1f\n", sq->name, hmm->name, P, fsc, gP, gfsc);
}
else if (esl_opt_GetBoolean(go, "-P"))
{ /* output suitable for direct use in profmark benchmark postprocessors: */
printf("%g\t%.2f\t%s\t%s\n", P, fsc, sq->name, hmm->name);
}
else
{
printf("target sequence: %s\n", sq->name);
printf("fwd filter raw score: %.2f nats\n", fraw);
printf("bck filter raw score: %.2f nats\n", braw);
printf("null score: %.2f nats\n", nullsc);
printf("per-seq score: %.2f bits\n", fsc);
printf("P-value: %g\n", P);
printf("GForward raw score: %.2f nats\n", gfraw);
printf("GBackward raw score: %.2f nats\n", gbraw);
printf("GForward seq score: %.2f bits\n", gfsc);
printf("GForward P-value: %g\n", gP);
}
esl_sq_Reuse(sq);
}
/* cleanup */
esl_sq_Destroy(sq);
esl_sqfile_Close(sqfp);
p7_omx_Destroy(bck);
p7_omx_Destroy(fwd);
p7_gmx_Destroy(gx);
p7_oprofile_Destroy(om);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
p7_hmmfile_Close(hfp);
esl_alphabet_Destroy(abc);
esl_getopts_Destroy(go);
return 0;
}
int
main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_ALPHABET *abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm = NULL;
P7_GMX *fwd = NULL;
ESL_SQ *sq = NULL;
ESL_SQFILE *sqfp = NULL;
P7_TRACE *tr = NULL;
int format = eslSQFILE_UNKNOWN;
char errbuf[eslERRBUFSIZE];
float sc;
int d;
int status;
/* Read in one HMM */
if (p7_hmmfile_Open(hmmfile, NULL, &hfp) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
p7_hmmfile_Close(hfp);
/* Read in one sequence */
sq = esl_sq_CreateDigital(abc);
status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
if (status == eslENOTFOUND) p7_Fail("No such file.");
else if (status == eslEFORMAT) p7_Fail("Format unrecognized.");
else if (status == eslEINVAL) p7_Fail("Can't autodetect stdin or .gz.");
else if (status != eslOK) p7_Fail("Open failed, code %d.", status);
if (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
esl_sqfile_Close(sqfp);
/* Configure a profile from the HMM */
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, sq->n);
gm = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
/* Allocate matrix and a trace */
fwd = p7_gmx_Create(gm->M, sq->n);
tr = p7_trace_Create();
/* Run Viterbi; do traceback */
p7_GViterbi (sq->dsq, sq->n, gm, fwd, &sc);
p7_GTrace (sq->dsq, sq->n, gm, fwd, tr);
/* Dump and validate the trace. */
p7_trace_Dump(stdout, tr, gm, sq->dsq);
if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
/* Domain info in the trace. */
p7_trace_Index(tr);
printf("# Viterbi: %d domains : ", tr->ndom);
for (d = 0; d < tr->ndom; d++) printf("%6d %6d %6d %6d ", tr->sqfrom[d], tr->sqto[d], tr->hmmfrom[d], tr->hmmto[d]);
printf("\n");
/* Cleanup */
p7_trace_Destroy(tr);
p7_gmx_Destroy(fwd);
p7_profile_Destroy(gm);
p7_bg_Destroy(bg);
p7_hmm_Destroy(hmm);
esl_sq_Destroy(sq);
esl_alphabet_Destroy(abc);
esl_getopts_Destroy(go);
return 0;
}
static void
search_thread(void *arg)
{
int i;
int count;
int seed;
int status;
int workeridx;
WORKER_INFO *info;
ESL_THREADS *obj;
ESL_SQ dbsq;
ESL_STOPWATCH *w = NULL; /* timing stopwatch */
P7_BUILDER *bld = NULL; /* HMM construction configuration */
P7_BG *bg = NULL; /* null model */
P7_PIPELINE *pli = NULL; /* work pipeline */
P7_TOPHITS *th = NULL; /* top hit results */
P7_PROFILE *gm = NULL; /* generic model */
P7_OPROFILE *om = NULL; /* optimized query profile */
obj = (ESL_THREADS *) arg;
esl_threads_Started(obj, &workeridx);
info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
w = esl_stopwatch_Create();
bg = p7_bg_Create(info->abc);
esl_stopwatch_Start(w);
/* set up the dummy description and accession fields */
dbsq.desc = "";
dbsq.acc = "";
/* process a query sequence or hmm */
if (info->seq != NULL) {
bld = p7_builder_Create(NULL, info->abc);
if ((seed = esl_opt_GetInteger(info->opts, "--seed")) > 0) {
esl_randomness_Init(bld->r, seed);
bld->do_reseeding = TRUE;
}
bld->EmL = esl_opt_GetInteger(info->opts, "--EmL");
bld->EmN = esl_opt_GetInteger(info->opts, "--EmN");
bld->EvL = esl_opt_GetInteger(info->opts, "--EvL");
bld->EvN = esl_opt_GetInteger(info->opts, "--EvN");
bld->EfL = esl_opt_GetInteger(info->opts, "--EfL");
bld->EfN = esl_opt_GetInteger(info->opts, "--EfN");
bld->Eft = esl_opt_GetReal (info->opts, "--Eft");
if (esl_opt_IsOn(info->opts, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(info->opts, "--mxfile"), NULL, esl_opt_GetReal(info->opts, "--popen"), esl_opt_GetReal(info->opts, "--pextend"), bg);
else status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(info->opts, "--mx"), esl_opt_GetReal(info->opts, "--popen"), esl_opt_GetReal(info->opts, "--pextend"), bg);
if (status != eslOK) {
//client_error(info->sock, status, "hmmgpmd: failed to set single query sequence score system: %s", bld->errbuf);
fprintf(stderr, "hmmpgmd: failed to set single query sequence score system: %s", bld->errbuf);
pthread_exit(NULL);
return;
}
p7_SingleBuilder(bld, info->seq, bg, NULL, NULL, NULL, &om); /* bypass HMM - only need model */
p7_builder_Destroy(bld);
} else {
gm = p7_profile_Create (info->hmm->M, info->abc);
om = p7_oprofile_Create(info->hmm->M, info->abc);
p7_ProfileConfig(info->hmm, bg, gm, 100, p7_LOCAL);
p7_oprofile_Convert(gm, om);
}
/* Create processing pipeline and hit list */
th = p7_tophits_Create();
pli = p7_pipeline_Create(info->opts, om->M, 100, FALSE, p7_SEARCH_SEQS);
p7_pli_NewModel(pli, om, bg);
if (pli->Z_setby == p7_ZSETBY_NTARGETS) pli->Z = info->db_Z;
/* loop until all sequences have been processed */
count = 1;
while (count > 0) {
int inx;
int blksz;
HMMER_SEQ **sq;
/* grab the next block of sequences */
if (pthread_mutex_lock(info->inx_mutex) != 0) p7_Fail("mutex lock failed");
inx = *info->inx;
blksz = *info->blk_size;
if (inx > *info->limit) {
blksz /= 5;
if (blksz < 1000) {
*info->limit = info->sq_cnt * 2;
} else {
*info->limit = inx + (info->sq_cnt - inx) * 2 / 3;
}
}
*info->blk_size = blksz;
*info->inx += blksz;
if (pthread_mutex_unlock(info->inx_mutex) != 0) p7_Fail("mutex unlock failed");
sq = info->sq_list + inx;
count = info->sq_cnt - inx;
if (count > blksz) count = blksz;
/* Main loop: */
for (i = 0; i < count; ++i, ++sq) {
if ( !(info->range_list) || hmmpgmd_IsWithinRanges ((*sq)->idx, info->range_list)) {
dbsq.name = (*sq)->name;
dbsq.dsq = (*sq)->dsq;
dbsq.n = (*sq)->n;
dbsq.idx = (*sq)->idx;
if((*sq)->desc != NULL) dbsq.desc = (*sq)->desc;
p7_bg_SetLength(bg, dbsq.n);
p7_oprofile_ReconfigLength(om, dbsq.n);
p7_Pipeline(pli, om, bg, &dbsq, th);
p7_pipeline_Reuse(pli);
}
}
}
/* make available the pipeline objects to the main thread */
info->th = th;
info->pli = pli;
/* clean up */
p7_bg_Destroy(bg);
p7_oprofile_Destroy(om);
if (gm != NULL) p7_profile_Destroy(gm);
esl_stopwatch_Stop(w);
info->elapsed = w->elapsed;
esl_stopwatch_Destroy(w);
esl_threads_Finished(obj, workeridx);
pthread_exit(NULL);
return;
}
int main(int argc, char **argv)
{
ESL_GETOPTS *go = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
char *hmmfile = esl_opt_GetArg(go, 1);
char *seqfile = esl_opt_GetArg(go, 2);
ESL_STOPWATCH *w = esl_stopwatch_Create();
ESL_RANDOMNESS*r = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
ESL_ALPHABET*abc = NULL;
P7_HMMFILE *hfp = NULL;
P7_HMM *hmm = NULL;
P7_BG *bg = NULL;
P7_PROFILE *gm1, *gm2;
int L = 2000; // esl_opt_GetInteger(go, "-L");
int N = esl_opt_GetInteger(go, "-N");
int MaxPart = esl_opt_GetInteger(go, "-M");
__m128 resdata[10];
float *sc1 = (float*) (resdata+0); // uses 1 __m128s
ESL_DSQ *dsq = NULL;
int i, j;
ESL_SQFILE *sqfp = NULL;
DATA_STREAM *dstream;
struct timeb tbstart, tbend;
int sumlengths = 0;
if (p7_hmmfile_Open(hmmfile, NULL, &hfp)!= eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
if (p7_hmmfile_Read(hfp, &abc, &hmm) != eslOK) p7_Fail("Failed to read HMM");
bg = p7_bg_Create(abc);
p7_bg_SetLength(bg, L);
gm1 = p7_profile_Create(hmm->M, abc);
gm2 = p7_profile_Create(hmm->M, abc);
p7_ProfileConfig(hmm, bg, gm1, L, p7_UNILOCAL);
p7_ProfileConfig(hmm, bg, gm2, L, p7_UNILOCAL);
dstream = p7_ViterbiStream_Create(gm1);
p7_ViterbiStream_Setup(dstream, L+100, MaxPart); // use max L
dstream->L = L;
// No. of partitions computed without full parallelism ( == no. of threads active while some are idle)
int Niters_part = dstream->Npartitions % NTHREADS;
// No. of Model lines that could be computed but are wasted by idle threads waiting on the end
int Nwasted_threads = dstream->partition * ((NTHREADS-Niters_part) % NTHREADS);
// No. of lines in the last partition that go beyond M. It's wasted comp time by a single thread
int Nwasted_leftover= (dstream->partition - gm1->M % dstream->partition) % dstream->partition;
// Total number of wasted lines
int wastedcomp = Nwasted_threads + Nwasted_leftover;
// Total number of lines computed and waited for
int totalcomp = wastedcomp + gm1->M; // same as: roundtop(gm1->M, dstream->partition * NTHREADS);
printf("Viterbi Stream Word with %d Threads, model %s: Modelsize %d, #Segms: %d, SeqL: %d, Nseqs %d, Part %d, #Parts %d\n",
NTHREADS, hmmfile, gm1->M, (int) ceil(gm1->M/8.0), L, 8*N, dstream->partition, dstream->Npartitions);
printf("Total Comp Lines: %d | Wasted Comp Lines: %d\n", totalcomp, wastedcomp);
// for ViterbiFilter
P7_OPROFILE *om = p7_oprofile_Create(hmm->M, gm1->abc);
p7_oprofile_Convert(gm1, om);
P7_OMX *ox = p7_omx_Create(hmm->M, 0, 0);
dsq_cmp_t **seqsdb= calloc(8*N+64, sizeof(dsq_cmp_t*));
if(0)
{ ESL_SQ* sq = esl_sq_CreateDigital(abc);
if (esl_sqfile_OpenDigital(abc, seqfile, eslSQFILE_FASTA, NULL, &sqfp) != eslOK)
{ p7_Fail("Failed to open sequence file\n"); return -1; }
for (j = 0; j < 8*N; j++)
{
int res = esl_sqio_Read(sqfp, sq);
if (res != eslOK) { printf("ATENCAO: faltam sequencias\n"); break; }
int len = sq->n;
dsq = sq->dsq;
seqsdb[j] = malloc(sizeof(dsq_cmp_t));
seqsdb[j]->length = len;
seqsdb[j]->seq = malloc((len+4)*sizeof(ESL_DSQ));
memcpy(seqsdb[j]->seq, dsq, len+2);
sumlengths += len;
esl_sq_Reuse(sq);
}
ftime(&tbstart);
N = j/8;
printf("N = %d\n", N);
// Sort sequences by length
qsort(seqsdb, N*8, sizeof(dsq_cmp_t*), compare_seqs);
}
else if(0)
for (i = 0; i < N; i++)
{
for (j = 0; j < 8; j++)
{
int len = L - rand()%1000;
seqsdb[i*8+j] = malloc(sizeof(dsq_cmp_t));
seqsdb[i*8+j]->seq = malloc(len+4);
seqsdb[i*8+j]->length = len;
esl_rsq_xfIID(r, bg->f, abc->K, len, seqsdb[i*8+j]->seq);
sumlengths += len;
}
}
// double sumerrors = 0;
float* results = (float*) alloc_m128_aligned64(N*2+2);
ftime(&tbstart);
for (j = 0; j < N; j++)
for (i = 0; i < N; i++)
{
// if (i % 10000 == 0) printf("START %d\n", i);
p7_ViterbiStream(dstream, seqsdb+i*8, sc1);
// memcpy(results+i*8, sc1, 32);
}
ftime(&tbend);
double secs = TIMEDIFF(tbstart,tbend);
// printf("Qsort time: %6.3f | Viterbi time: %6.3f\n", TIMEDIFF(tbqsort,tbstart), secs);
w->elapsed = w->user = secs;
esl_stopwatch_Display(stdout, w, "# Opt CPU time: ");
printf("# %.0fM cells in %.1f Mc/s\n", (sumlengths * (double) gm1->M) / 1e6, (sumlengths * (double) gm1->M * 1e-6) / secs);
if(0) // compare results against base version
for (i = 0; i < 1000 && i < N; i++)
{
int maxll = 0; float sc2;
for (j = 0; j < 8; j++)
if (maxll < seqsdb[i*8+j]->length)
maxll = seqsdb[i*8+j]->length;
// for (j = 0; j < 8; j++) printf("%d ", seqsdb[i*8+j]->length); printf("\n");
// if (i % 10 == 0) printf("i %d\n", i);
p7_oprofile_ReconfigRestLength(om, maxll);
p7_ReconfigLength(gm2, maxll); // fazer Reconfig aqui para emular compl o VitStream
for (j = 0; j < 8; j++)
{
// p7_ReconfigLength(gm2, seqsdb[i*8+j]->length);
// p7_Viterbi_unilocal(seqsdb[i*8+j]->seq, seqsdb[i*8+j]->length, gm2, &sc3);
// p7_Viterbi_unilocal_word(seqsdb[i*8+j]->seq, seqsdb[i*8+j]->length, gm2, &sc2);
// p7_oprofile_ReconfigLength(om, seqsdb[i*8+j]->length);
p7_ViterbiFilter(seqsdb[i*8+j]->seq, seqsdb[i*8+j]->length, om, ox, &sc2);
//sumerrors += fabs(sc1[j]- sc2);
if (fabs(results[i*8+j] - sc2) > 0.00001)
{ printf("%3d-%d L %4d: VS %f d %f\t| Base SerI %f\n", i, j, seqsdb[i*8+j]->length,
results[i*8+j], fabs(results[i*8+j] - sc2), sc2);
getc(stdin);
}
}
}
return 0;
}
static void
scan_thread(void *arg)
{
int i;
int count;
int workeridx;
WORKER_INFO *info;
ESL_THREADS *obj;
ESL_STOPWATCH *w;
P7_BG *bg = NULL; /* null model */
P7_PIPELINE *pli = NULL; /* work pipeline */
P7_TOPHITS *th = NULL; /* top hit results */
obj = (ESL_THREADS *) arg;
esl_threads_Started(obj, &workeridx);
info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
w = esl_stopwatch_Create();
esl_stopwatch_Start(w);
/* Convert to an optimized model */
bg = p7_bg_Create(info->abc);
/* Create processing pipeline and hit list */
th = p7_tophits_Create();
pli = p7_pipeline_Create(info->opts, 100, 100, FALSE, p7_SCAN_MODELS);
p7_pli_NewSeq(pli, info->seq);
/* loop until all sequences have been processed */
count = 1;
while (count > 0) {
int inx;
int blksz;
P7_OPROFILE **om;
/* grab the next block of sequences */
if (pthread_mutex_lock(info->inx_mutex) != 0) p7_Fail("mutex lock failed");
inx = *info->inx;
blksz = *info->blk_size;
if (inx > *info->limit) {
blksz /= 5;
if (blksz < 1000) {
*info->limit = info->om_cnt * 2;
} else {
*info->limit = inx + (info->om_cnt - inx) * 2 / 3;
}
}
*info->blk_size = blksz;
*info->inx += blksz;
if (pthread_mutex_unlock(info->inx_mutex) != 0) p7_Fail("mutex unlock failed");
om = info->om_list + inx;
count = info->om_cnt - inx;
if (count > blksz) count = blksz;
/* Main loop: */
for (i = 0; i < count; ++i, ++om) {
p7_pli_NewModel(pli, *om, bg);
p7_bg_SetLength(bg, info->seq->n);
p7_oprofile_ReconfigLength(*om, info->seq->n);
p7_Pipeline(pli, *om, bg, info->seq, th);
p7_pipeline_Reuse(pli);
}
}
/* make available the pipeline objects to the main thread */
info->th = th;
info->pli = pli;
/* clean up */
p7_bg_Destroy(bg);
esl_stopwatch_Stop(w);
info->elapsed = w->elapsed;
esl_stopwatch_Destroy(w);
esl_threads_Finished(obj, workeridx);
pthread_exit(NULL);
return;
}
