def handleseed(seedidx, seqsdata, Widx, seed, args):
"""Test the methods on one seed."""
seedstats = collections.defaultdict(list)
iterstats = collections.defaultdict(list)
methodstats = collections.defaultdict(list)
strippedfasta = stripfastaname(seqsdata.fasta)
logger.info("Stripped FASTA: %s", strippedfasta)
W = args.Ws[Widx]
logger.info('Seed: %s; W=%2d', seed, W)
numseqs = len(seqsdata.seqs)
numoccs = seqsdata.numoccs[Widx]
numunique = seqsdata.numunique[Widx]
meannumsamples = npy.log10(numunique) * 600
numseedsites = rdm.randint(max(1, numseqs / 10), numseqs * 2)
lambda_ = numseqs / float(numoccs)
pwm = jem.pwmfromWmer(seed, numseedsites, args.pseudocount)
if args.writelogos:
jem.logo(pwm, 'seed-%03d' % seedidx)
seedstats['seedidx'].append(seedidx)
seedstats['fasta'].append(strippedfasta)
seedstats['seed'].append(str(seed))
seedstats['W'].append(W)
seedstats['numseedsites'].append(numseedsites)
for iteration in xrange(args.maxiters):
# numsamples = rdm.randint(max(1, numoccs / 10), numoccs / 2)
numsamples = \
int(rdm.lognormal(mean=npy.log(meannumsamples), sigma=.5)) + 1
pwmIC = jem.informationcontent(pwm, seqsdata.bgfreqs)
start = time.time()
summer = dotrueiteration(seqsdata, W, pwm, lambda_)
truetime = time.time() - start
logger.debug('Sums:\n%s', summer.sums)
Znsumtrue = summer.sums[0].sum()
pwmtrue = jem.normalisearray(summer.sums)
pwmtrueIC = jem.informationcontent(pwmtrue, seqsdata.bgfreqs)
lambdatrue = Znsumtrue / float(numoccs)
if args.writelogos:
jem.logo(pwmtrue, 'seed-%03d-%03d-true' % (seedidx, iteration))
distperbase = npy.linalg.norm(pwmtrue - pwm, ord=1) / W
logging.info(
'Iteration: %3d, IC/base=%.2f bits, PWM distance/base=%.4f',
iteration, pwmtrueIC / W,
npy.linalg.norm(pwmtrue - pwm, ord=1) / W)
iterstats['seedidx'].append(seedidx)
iterstats['iteration'].append(iteration)
iterstats['truetime'].append(truetime)
iterstats['numsamples'].append(numsamples)
iterstats['ICstart'].append(pwmIC)
iterstats['ICtrue'].append(pwmtrueIC)
iterstats['Znsumtrue'].append(Znsumtrue)
iterstats['lambdastart'].append(lambda_)
iterstats['lambdatrue'].append(lambdatrue)
for methodname in args.methods:
start = time.time()
domainsize, iscb = METHODS[methodname](seqsdata, pwm, lambda_,
Widx, numsamples, args)
duration = time.time() - start
pwmestimate = jem.normalisearray(iscb.cb.sums)
Znsumestimate = iscb.cb.sums[0].sum() * \
float(domainsize) / numsamples
methodstats['seedidx'].append(seedidx)
methodstats['iteration'].append(iteration)
methodstats['method'].append(methodname)
methodstats['methodtime'].append(duration)
methodstats['ICestimate'].append(
jem.informationcontent(pwmestimate, seqsdata.bgfreqs))
methodstats['Znsumestimate'].append(Znsumestimate)
methodstats['var'].append(iscb.var())
methodstats['lambdaestimate'].append(Znsumestimate /
float(numoccs))
# Various measures of how different the estimated PWM is from the
# true PWM.
methodstats['frobeniusdist'].append(
npy.linalg.norm(pwmtrue - pwmestimate, ord='fro'))
methodstats['maxdist'].append(npy.abs(pwmtrue - pwmestimate).max())
methodstats['absdist'].append(npy.abs(pwmtrue - pwmestimate).sum())
methodstats['euclideandist'].append(
npy.linalg.norm((pwmtrue - pwmestimate).flatten(), ord=2))
methodstats['KLtrueestimate'].append(
jem.pwmKL(pwmtrue, pwmestimate))
methodstats['KLestimatetrue'].append(
jem.pwmKL(pwmestimate, pwmtrue))
if args.writelogos:
jem.logo(
pwmestimate,
'seed-%03d-%03d-%s' % (seedidx, iteration, methodname))
pwm = pwmtrue
# lambda_ = lambdatrue
if distperbase < args.stopthreshold:
break
return seedstats, iterstats, methodstats
def handleseed(seedidx, seqsdata, Widx, seed, args):
"""Test the methods on one seed."""
seedstats = collections.defaultdict(list)
iterstats = collections.defaultdict(list)
methodstats = collections.defaultdict(list)
strippedfasta = stripfastaname(seqsdata.fasta)
logger.info("Stripped FASTA: %s", strippedfasta)
W = args.Ws[Widx]
logger.info('Seed: %s; W=%2d', seed, W)
numseqs = len(seqsdata.seqs)
numoccs = seqsdata.numoccs[Widx]
numunique = seqsdata.numunique[Widx]
meannumsamples = npy.log10(numunique) * 600
numseedsites = rdm.randint(max(1, numseqs / 10), numseqs * 2)
lambda_ = numseqs / float(numoccs)
pwm = jem.pwmfromWmer(seed, numseedsites, args.pseudocount)
if args.writelogos:
jem.logo(pwm, 'seed-%03d' % seedidx)
seedstats['seedidx'].append(seedidx)
seedstats['fasta'].append(strippedfasta)
seedstats['seed'].append(str(seed))
seedstats['W'].append(W)
seedstats['numseedsites'].append(numseedsites)
for iteration in xrange(args.maxiters):
# numsamples = rdm.randint(max(1, numoccs / 10), numoccs / 2)
numsamples = \
int(rdm.lognormal(mean=npy.log(meannumsamples), sigma=.5)) + 1
pwmIC = jem.informationcontent(pwm, seqsdata.bgfreqs)
start = time.time()
summer = dotrueiteration(seqsdata, W, pwm, lambda_)
truetime = time.time() - start
logger.debug('Sums:\n%s', summer.sums)
Znsumtrue = summer.sums[0].sum()
pwmtrue = jem.normalisearray(summer.sums)
pwmtrueIC = jem.informationcontent(pwmtrue, seqsdata.bgfreqs)
lambdatrue = Znsumtrue / float(numoccs)
if args.writelogos:
jem.logo(
pwmtrue,
'seed-%03d-%03d-true' % (seedidx, iteration))
distperbase = npy.linalg.norm(pwmtrue - pwm, ord=1) / W
logging.info(
'Iteration: %3d, IC/base=%.2f bits, PWM distance/base=%.4f',
iteration, pwmtrueIC/W,
npy.linalg.norm(pwmtrue - pwm, ord=1) / W)
iterstats['seedidx'].append(seedidx)
iterstats['iteration'].append(iteration)
iterstats['truetime'].append(truetime)
iterstats['numsamples'].append(numsamples)
iterstats['ICstart'].append(pwmIC)
iterstats['ICtrue'].append(pwmtrueIC)
iterstats['Znsumtrue'].append(Znsumtrue)
iterstats['lambdastart'].append(lambda_)
iterstats['lambdatrue'].append(lambdatrue)
for methodname in args.methods:
start = time.time()
domainsize, iscb = METHODS[methodname](
seqsdata, pwm, lambda_, Widx, numsamples, args)
duration = time.time() - start
pwmestimate = jem.normalisearray(iscb.cb.sums)
Znsumestimate = iscb.cb.sums[0].sum() * \
float(domainsize) / numsamples
methodstats['seedidx'].append(seedidx)
methodstats['iteration'].append(iteration)
methodstats['method'].append(methodname)
methodstats['methodtime'].append(duration)
methodstats['ICestimate'].append(
jem.informationcontent(pwmestimate, seqsdata.bgfreqs))
methodstats['Znsumestimate'].append(Znsumestimate)
methodstats['var'].append(iscb.var())
methodstats['lambdaestimate'].append(
Znsumestimate / float(numoccs))
# Various measures of how different the estimated PWM is from the
# true PWM.
methodstats['frobeniusdist'].append(
npy.linalg.norm(pwmtrue - pwmestimate, ord='fro'))
methodstats['maxdist'].append(npy.abs(pwmtrue - pwmestimate).max())
methodstats['absdist'].append(npy.abs(pwmtrue - pwmestimate).sum())
methodstats['euclideandist'].append(
npy.linalg.norm((pwmtrue - pwmestimate).flatten(), ord=2))
methodstats['KLtrueestimate'].append(
jem.pwmKL(pwmtrue, pwmestimate))
methodstats['KLestimatetrue'].append(
jem.pwmKL(pwmestimate, pwmtrue))
if args.writelogos:
jem.logo(
pwmestimate,
'seed-%03d-%03d-%s' % (seedidx, iteration, methodname))
pwm = pwmtrue
# lambda_ = lambdatrue
if distperbase < args.stopthreshold:
break
return seedstats, iterstats, methodstats
logging.info('Counting W-mers')
Ws = [W]
Wmercounts = npy.zeros((2*len(index), len(Ws)), dtype=npy.uint)
numWmers = wmers.countWmersMulti(index.topdownhistory(), Ws, Wmercounts)[0]
logging.info('Got %d %d-mers', numWmers, W)
childWmerfreqs = npy.zeros((2*len(index), len(Ws), jem.SIGMA))
wmers.countWmerChildren(index.topdownhistory(), W, Wmercounts, childWmerfreqs)
childWmerfreqs = jem.normalisearray(childWmerfreqs)
sumestimator = jis.makesumestimator(numWmers)
logging.info('Importance sampling using background model to find one seed')
rdm.seed(2)
memocb = jis.importancesample(
index, W, childWmerfreqs[:, 0], jis.UniformImportanceWeight(),
numsamples=1, callback=jis.ISCbMemo())
pwm = jem.pwmfromWmer(memocb.Xns[0], numseedsites, 1.)
jem.logo(pwm, 'seed')
numsamples = 3000
distsbs = []
distsbg = []
truesums = []
varratios = []
pwmtrue = pwm.copy()
for iteration in xrange(5):
logging.debug('Calculating true Zn sums')
summer = jis.ZnSumCb(W)
calculateZn = jem.createZncalculatorFn(pwmtrue, lambda_)
sumvisitor = jis.ZnCalcVisitor(W, calculateZn, summer)
seqan.traverse.topdownhistorytraversal(index.topdownhistory(), sumvisitor)
logging.debug('Sums:\n%s', summer.sums)