class Cluster(IceFiles):
"""
An object of `Cluster` calls the ICE algorithm to
generate consensus isoforms.
"""
def __init__(
self,
root_dir,
flnc_fa,
nfl_fa,
bas_fofn,
ccs_fofn,
out_fa,
sge_opts,
ice_opts,
ipq_opts,
report_fn=None,
summary_fn=None,
fasta_fofn=None,
nfl_reads_per_split=30000,
):
super(Cluster, self).__init__(
prog_name="Cluster", root_dir=root_dir, bas_fofn=bas_fofn, ccs_fofn=ccs_fofn, fasta_fofn=fasta_fofn
)
self.sge_opts = sge_opts # SGE, CPU arguments and etc
self.ice_opts = ice_opts # ICE clustering algorithm arguments
self.ipq_opts = ipq_opts # IceQuiver HQ/LQ isoform arguments
self.nfl_reads_per_split = int(nfl_reads_per_split) # ToDo: setsanity check here?
self.flnc_fa, self.nfl_fa, self.ccs_fofn, self.fasta_fofn = self._validate_inputs(
flnc_fa, nfl_fa, ccs_fofn, fasta_fofn=fasta_fofn, quiver=self.ice_opts.quiver
)
self.root_dir, self.out_fa = self._validate_outputs(root_dir, out_fa)
self.sanity_check()
self._probqv = None # probability & quality value
self._flnc_splitted_fas = [] # split flnc_fa into smaller files.
self._nflncSplittedFas = [] # split nfl_fa into smaller files.
self._logConfigs() # Log configurations
self.iceinit = None
self.icec = None
self.iceq = None
self.pol = None
self.add_log(
"Setting ece_penalty: {0} ece_min_len: {1}".format(ice_opts.ece_penalty, ice_opts.ece_min_len),
level=logging.INFO,
)
self.report_fn = realpath(report_fn) if report_fn is not None else op.join(self.root_dir, "cluster_report.csv")
self.summary_fn = (
realpath(summary_fn) if summary_fn is not None else op.join(self.root_dir, "cluster_summary.txt")
)
self.add_log("A Cluster Object created.", level=logging.INFO)
def _validate_inputs(self, _flnc_fa, _nfl_fa, _ccs_fofn, fasta_fofn=None, quiver=False):
"""Validate input files and return absolute expaneded paths."""
flnc_fa, nfl_fa, ccs_fofn = _flnc_fa, _nfl_fa, _ccs_fofn
self.add_log("Checking input files.", level=logging.INFO)
if flnc_fa is None:
raise ClusterException(
"Input full-length non-chimeric reads " + "files (i.e., flnc_fa) needs to be specified."
)
else:
flnc_fa = realpath(flnc_fa)
if not op.exists(flnc_fa):
raise ClusterException("Unable to find full-length " + "non-chimeric reads: {fn}".format(fn=flnc_fa))
if nfl_fa is None:
if quiver is True:
raise ClusterException(
"Input non-full-length reads file " + "(i.e., nfl_fa) needs to be specified for isoform polish."
)
else:
nfl_fa = realpath(nfl_fa)
if not op.exists(nfl_fa):
raise ClusterException("Unable to find non-full-length " + "non-chimeric reads: {fn}".format(fn=nfl_fa))
if ccs_fofn is not None and not op.exists(ccs_fofn):
raise ClusterException("Unable to find CCS FOFN file: " + "{fn}".format(fn=ccs_fofn))
if fasta_fofn is not None and quiver:
if not os.path.exists(fasta_fofn):
raise ClusterException("Unable to find FASTA_FOFN file: {0}".format(fasta_fofn))
for line in open(fasta_fofn):
if not os.path.exists(line.strip()):
raise ClusterException("Unable to locate {0} in {1}".format(line.strip(), fasta_fofn))
return (flnc_fa, nfl_fa, ccs_fofn, fasta_fofn)
def _validate_outputs(self, _root_dir, _out_fa):
"""Validate outputs, create root_dir if it does not exist."""
self.add_log("Checking outputs.", level=logging.INFO)
root_dir, out_fa = _root_dir, _out_fa
if root_dir is None:
self.add_log("Output directory needs to be specified.", level=logging.ERROR)
if out_fa is None:
self.add_log("Output consensus fasta needs to be specified.", level=logging.ERROR)
root_dir = realpath(root_dir)
out_fa = realpath(out_fa)
if op.exists(root_dir):
self.add_log("Output directory {d} already exists.".format(d=root_dir))
else:
self.add_log("Creating output directory {d}.".format(d=root_dir))
os.mkdir(root_dir)
if op.exists(out_fa):
raise ClusterException("Consensus FASTA file {f} already exists.".format(f=out_fa))
return root_dir, out_fa
def sanity_check(self):
"""Do sanity check before stat to run."""
errMsg = ""
if self.ice_opts.quiver is True:
if self.bas_fofn is None:
errMsg = (
"A fofn of bas/bax.h5 files, e.g., input.fofn, "
+ "is required in order to polish consensus "
+ "isoforms using quiver."
)
if self.nfl_fa is None:
errMsg = "Non-full-length reads are required for polishing " + "consensus isoforms using quiver."
if errMsg != "":
self.add_log(errMsg, level=logging.ERROR)
raise ValueError(errMsg)
@property
def configFN(self):
"""Return configuration file of the current run."""
return op.join(self.root_dir, "run_ice_config.txt")
def _logConfigs(self):
"""Log configuration."""
with open(self.configFN, "w", 0) as f:
f.write("pbtranscript " + get_version() + "\n")
f.write(str(self.ice_opts) + "\n")
f.write(str(self.sge_opts) + "\n")
@property
def initPickleFN(self):
"""Return path to pickle file with initial clusters."""
return op.join(self.root_dir, "init.uc.pickle")
def _setProbQV_ccs(self, ccs_fofn, firstSplitFa):
"""Set ProbQV from .ccs.h5"""
start_t = time.time()
self._probqv = ProbFromQV(ccs_fofn, firstSplitFa)
self.add_log(
"Loading QVs from {f} + {c} took {t} sec.".format(f=firstSplitFa, c=ccs_fofn, t=time.time() - start_t),
level=logging.INFO,
)
def _setProbQV_fq(self, firstSplitFq=None):
"""Set probability and quality values from FASTQ"""
start_t = time.time()
self._probqv = ProbFromFastq(firstSplitFq)
self.add_log(
"Loading QVs from {f} took {t} sec.".format(f=firstSplitFq, t=time.time() - start_t), level=logging.INFO
)
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
if self.ice_opts.targeted_isoseq:
first_split = 1000
self.ice_opts.flnc_reads_per_split = 10000
self.add_log(
"targeted_isoseq: further splitting JUST first split to 1000. Changing flnc_reads_per_split=10000."
)
else:
first_split = None
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log(
"Splitting {flnc} into ".format(flnc=self.flnc_fa)
+ "smaller files each containing {n} reads.".format(n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO,
)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split",
first_split=first_split,
)
self.add_log("Splitted files are: " + "\n".join(self._flnc_splitted_fas), level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
firstSplit_fq = firstSplit[: firstSplit.rfind(".")] + ".fastq"
self.add_log(
"Converting first split file {0} + {1} into fastq\n".format(firstSplit, self.ccs_fofn), level=logging.INFO
)
# Convert this into FASTQ
ice_fa2fq(firstSplit, self.ccs_fofn, firstSplit_fq)
# Set up probabbility and quality value model
if self.ice_opts.use_finer_qv:
self._setProbQV_ccs(self.ccs_fofn, firstSplit)
else:
self._setProbQV_fq(firstSplitFq=firstSplit_fq)
# Initialize cluster by clique
if os.path.exists(self.initPickleFN):
self.add_log("Reading existing uc pickle: {0}".format(self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques: initializing IceInit.", level=logging.INFO)
self.iceinit = IceInit(
readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
qvmean_get_func=self._probqv.get_mean,
)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log("Dumping initial clusters to {f}".format(f=self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN, "w") as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iterative clustering: initializing IceIterative.", level=logging.INFO)
# self.add_log("In Cluster. DEBUG: Calling Cluster with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv,
fastq_filename=firstSplit_fq,
use_ccs_qv=self.ice_opts.use_finer_qv,
)
self.add_log("IceIterative log: {f}.".format(f=self.icec.log_fn))
self.icec.run()
self.add_log("IceIterative completed.", level=logging.INFO)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# self.add_log("In Cluster. DEBUG: End Cluster with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.", level=logging.INFO)
ln(src=self.icec.report_fn, dst=self.report_fn)
# Summarize cluster and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn, isoforms_fa=self.out_fa)
else: # self.ice_opts.quiver is True
self.add_log("Polishing clusters: initializing IcePolish.", level=logging.INFO)
# self.add_log("In Cluster. DEBUG: Calling Polish with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
self.pol = Polish(
root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
fasta_fofn=self.fasta_fofn,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
ipq_opts=self.ipq_opts,
nfl_reads_per_split=self.nfl_reads_per_split,
)
self.add_log("IcePolish log: {f}.".format(f=self.pol.log_fn), level=logging.INFO)
self.pol.run()
self.add_log("IcePolish completed.", level=logging.INFO)
# cluster report
self.add_log("Creating a link to cluster report.", level=logging.INFO)
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Summarize cluster & polish and write to summary_fn.
self.write_summary(
summary_fn=self.summary_fn,
isoforms_fa=self.out_fa,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa,
)
# Create log file.
self.close_log()
return 0
class Cluster(IceFiles):
"""
An object of `Cluster` calls the ICE algorithm to
generate consensus isoforms.
"""
def __init__(self,
root_dir,
flnc_fa,
nfl_fa,
bas_fofn,
ccs_fofn,
out_fa,
sge_opts,
ice_opts,
ipq_opts,
report_fn=None,
summary_fn=None,
fasta_fofn=None,
nfl_reads_per_split=30000):
super(Cluster, self).__init__(prog_name="Cluster",
root_dir=root_dir,
bas_fofn=bas_fofn,
ccs_fofn=ccs_fofn,
fasta_fofn=fasta_fofn)
self.sge_opts = sge_opts # SGE, CPU arguments and etc
self.ice_opts = ice_opts # ICE clustering algorithm arguments
self.ipq_opts = ipq_opts # IceQuiver HQ/LQ isoform arguments
self.nfl_reads_per_split = int(
nfl_reads_per_split) # ToDo: setsanity check here?
self.flnc_fa, self.nfl_fa, self.ccs_fofn, self.fasta_fofn = self._validate_inputs(
flnc_fa,
nfl_fa,
ccs_fofn,
fasta_fofn=fasta_fofn,
quiver=self.ice_opts.quiver)
self.add_log("DEBUG: self.fasta_fofn is {0}".format(self.fasta_fofn))
self.root_dir, self.out_fa = self._validate_outputs(root_dir, out_fa)
self.sanity_check()
self._probqv = None # probability & quality value
self._flnc_splitted_fas = [] # split flnc_fa into smaller files.
self._nflncSplittedFas = [] # split nfl_fa into smaller files.
self._logConfigs() # Log configurations
self.iceinit = None
self.icec = None
self.iceq = None
self.pol = None
self.report_fn = realpath(report_fn) if report_fn is not None \
else op.join(self.root_dir, "cluster_report.csv")
self.summary_fn = realpath(summary_fn) if summary_fn is not None \
else op.join(self.root_dir, "cluster_summary.txt")
self.add_log("A Cluster Object created.", level=logging.INFO)
def _validate_inputs(self,
_flnc_fa,
_nfl_fa,
_ccs_fofn,
fasta_fofn=None,
quiver=False):
"""Validate input files and return absolute expaneded paths."""
flnc_fa, nfl_fa, ccs_fofn = _flnc_fa, _nfl_fa, _ccs_fofn
self.add_log("Checking input files.", level=logging.INFO)
if flnc_fa is None:
raise ClusterException(
"Input full-length non-chimeric reads " +
"files (i.e., flnc_fa) needs to be specified.")
else:
flnc_fa = realpath(flnc_fa)
if not op.exists(flnc_fa):
raise ClusterException("Unable to find full-length " +
"non-chimeric reads: {fn}".format(
fn=flnc_fa))
if nfl_fa is None:
if quiver is True:
raise ClusterException(
"Input non-full-length reads file " +
"(i.e., nfl_fa) needs to be specified for isoform polish.")
else:
nfl_fa = realpath(nfl_fa)
if not op.exists(nfl_fa):
raise ClusterException("Unable to find non-full-length " +
"non-chimeric reads: {fn}".format(
fn=nfl_fa))
if ccs_fofn is not None and not op.exists(ccs_fofn):
raise ClusterException("Unable to find CCS FOFN file: " +
"{fn}".format(fn=ccs_fofn))
if fasta_fofn is not None and quiver:
if not os.path.exists(fasta_fofn):
raise ClusterException(
"Unable to find FASTA_FOFN file: {0}".format(fasta_fofn))
for line in open(fasta_fofn):
if not os.path.exists(line.strip()):
raise ClusterException("Unable to locate {0} in {1}".format(\
line.strip(), fasta_fofn))
return (flnc_fa, nfl_fa, ccs_fofn, fasta_fofn)
def _validate_outputs(self, _root_dir, _out_fa):
"""Validate outputs, create root_dir if it does not exist."""
self.add_log("Checking outputs.", level=logging.INFO)
root_dir, out_fa = _root_dir, _out_fa
if root_dir is None:
self.add_log("Output directory needs to be specified.",
level=logging.ERROR)
if out_fa is None:
self.add_log("Output consensus fasta needs to be specified.",
level=logging.ERROR)
root_dir = realpath(root_dir)
out_fa = realpath(out_fa)
if op.exists(root_dir):
self.add_log(
"Output directory {d} already exists.".format(d=root_dir))
else:
self.add_log("Creating output directory {d}.".format(d=root_dir))
os.mkdir(root_dir)
if op.exists(out_fa):
raise ClusterException(
"Consensus FASTA file {f} already exists.".format(f=out_fa))
return root_dir, out_fa
def sanity_check(self):
"""Do sanity check before stat to run."""
errMsg = ""
if self.ice_opts.quiver is True:
if self.bas_fofn is None:
errMsg = "A fofn of bas/bax.h5 files, e.g., input.fofn, " + \
"is required in order to polish consensus " + \
"isoforms using quiver."
if self.nfl_fa is None:
errMsg = "Non-full-length reads are required for polishing " + \
"consensus isoforms using quiver."
if errMsg != "":
self.add_log(errMsg, level=logging.ERROR)
raise ValueError(errMsg)
@property
def configFN(self):
"""Return configuration file of the current run."""
return op.join(self.root_dir, "run_ice_config.txt")
def _logConfigs(self):
"""Log configuration."""
with open(self.configFN, 'w', 0) as f:
f.write('pbtranscript ' + get_version() + "\n")
f.write(str(self.ice_opts) + "\n")
f.write(str(self.sge_opts) + "\n")
@property
def initPickleFN(self):
"""Return path to pickle file with initial clusters."""
return op.join(self.root_dir, "init.uc.pickle")
def _setProbQV_ccs(self, ccs_fofn, firstSplitFa):
"""Set ProbQV from .ccs.h5"""
start_t = time.time()
self.add_log("Loading QVs from {f} + {c} took {t} sec.".format(
f=firstSplitFa, c=ccs_fofn, t=time.time() - start_t),
level=logging.INFO)
self._probqv = ProbFromQV(ccs_fofn, firstSplitFa)
def _setProbQV_fq(self, firstSplitFq=None):
"""Set probability and quality values from FASTQ"""
start_t = time.time()
self.add_log("Loading QVs from {f} took {t} sec.".format(
f=firstSplitFq, t=time.time() - start_t),
level=logging.INFO)
self._probqv = ProbFromFastq(firstSplitFq)
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
#self.ice_opts.flnc_reads_per_split=1000 #FOR DEBUGGING, REMOVE LATER
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
firstSplit_fq = firstSplit[:firstSplit.rfind('.')] + '.fastq'
self.add_log("Converting first split file {0} + {1} into fastq\n".format(\
firstSplit, self.ccs_fofn), level=logging.INFO)
# Convert this into FASTQ
ice_fa2fq(firstSplit, self.ccs_fofn, firstSplit_fq)
# Set up probabbility and quality value model
if self.ice_opts.use_finer_qv:
self._setProbQV_ccs(self.ccs_fofn, firstSplit)
else:
self._setProbQV_fq(firstSplitFq=firstSplit_fq)
# Initialize cluster by clique
self.add_log("Finding maximal cliques: initializing IceInit.",
level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log(
"Dumping initial clusters to {f}".format(f=self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iterative clustering: initializing IceIterative.",
level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv,
fastq_filename=firstSplit_fq,
use_ccs_qv=self.ice_opts.use_finer_qv)
self.add_log("IceIterative log: {f}.".format(f=self.icec.log_fn))
self.icec.run()
self.add_log("IceIterative completed.", level=logging.INFO)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.",
level=logging.INFO)
ln(src=self.icec.report_fn, dst=self.report_fn)
# Summarize cluster and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn,
isoforms_fa=self.out_fa)
else: # self.ice_opts.quiver is True
self.add_log("Polishing clusters: initializing IcePolish.",
level=logging.INFO)
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
fasta_fofn=self.fasta_fofn,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
ipq_opts=self.ipq_opts,
nfl_reads_per_split=self.nfl_reads_per_split)
self.add_log("IcePolish log: {f}.".format(f=self.pol.log_fn),
level=logging.INFO)
self.pol.run()
self.add_log("IcePolish completed.", level=logging.INFO)
# cluster report
self.add_log("Creating a link to cluster report.",
level=logging.INFO)
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Summarize cluster & polish and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn,
isoforms_fa=self.out_fa,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
if self.ice_opts.targeted_isoseq:
first_split = 1000
self.ice_opts.flnc_reads_per_split = 10000
self.add_log(
"targeted_isoseq: further splitting JUST first split to 1000. Changing flnc_reads_per_split=10000."
)
else:
first_split = None
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log(
"Splitting {flnc} into ".format(flnc=self.flnc_fa)
+ "smaller files each containing {n} reads.".format(n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO,
)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split",
first_split=first_split,
)
self.add_log("Splitted files are: " + "\n".join(self._flnc_splitted_fas), level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
firstSplit_fq = firstSplit[: firstSplit.rfind(".")] + ".fastq"
self.add_log(
"Converting first split file {0} + {1} into fastq\n".format(firstSplit, self.ccs_fofn), level=logging.INFO
)
# Convert this into FASTQ
ice_fa2fq(firstSplit, self.ccs_fofn, firstSplit_fq)
# Set up probabbility and quality value model
if self.ice_opts.use_finer_qv:
self._setProbQV_ccs(self.ccs_fofn, firstSplit)
else:
self._setProbQV_fq(firstSplitFq=firstSplit_fq)
# Initialize cluster by clique
if os.path.exists(self.initPickleFN):
self.add_log("Reading existing uc pickle: {0}".format(self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques: initializing IceInit.", level=logging.INFO)
self.iceinit = IceInit(
readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
qvmean_get_func=self._probqv.get_mean,
)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log("Dumping initial clusters to {f}".format(f=self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN, "w") as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iterative clustering: initializing IceIterative.", level=logging.INFO)
# self.add_log("In Cluster. DEBUG: Calling Cluster with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv,
fastq_filename=firstSplit_fq,
use_ccs_qv=self.ice_opts.use_finer_qv,
)
self.add_log("IceIterative log: {f}.".format(f=self.icec.log_fn))
self.icec.run()
self.add_log("IceIterative completed.", level=logging.INFO)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# self.add_log("In Cluster. DEBUG: End Cluster with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.", level=logging.INFO)
ln(src=self.icec.report_fn, dst=self.report_fn)
# Summarize cluster and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn, isoforms_fa=self.out_fa)
else: # self.ice_opts.quiver is True
self.add_log("Polishing clusters: initializing IcePolish.", level=logging.INFO)
# self.add_log("In Cluster. DEBUG: Calling Polish with {0} {1} {2} ".format(self.bas_fofn, self.ccs_fofn, self.fasta_fofn))
self.pol = Polish(
root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
fasta_fofn=self.fasta_fofn,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
ipq_opts=self.ipq_opts,
nfl_reads_per_split=self.nfl_reads_per_split,
)
self.add_log("IcePolish log: {f}.".format(f=self.pol.log_fn), level=logging.INFO)
self.pol.run()
self.add_log("IcePolish completed.", level=logging.INFO)
# cluster report
self.add_log("Creating a link to cluster report.", level=logging.INFO)
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Summarize cluster & polish and write to summary_fn.
self.write_summary(
summary_fn=self.summary_fn,
isoforms_fa=self.out_fa,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa,
)
# Create log file.
self.close_log()
return 0
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
#self.ice_opts.flnc_reads_per_split=1000 #FOR DEBUGGING, REMOVE LATER
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
firstSplit_fq = firstSplit[:firstSplit.rfind('.')] + '.fastq'
self.add_log("Converting first split file {0} + {1} into fastq\n".format(\
firstSplit, self.ccs_fofn), level=logging.INFO)
# Convert this into FASTQ
ice_fa2fq(firstSplit, self.ccs_fofn, firstSplit_fq)
# Set up probabbility and quality value model
if self.ice_opts.use_finer_qv:
self._setProbQV_ccs(self.ccs_fofn, firstSplit)
else:
self._setProbQV_fq(firstSplitFq=firstSplit_fq)
# Initialize cluster by clique
self.add_log("Finding maximal cliques: initializing IceInit.",
level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log(
"Dumping initial clusters to {f}".format(f=self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iterative clustering: initializing IceIterative.",
level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv,
fastq_filename=firstSplit_fq,
use_ccs_qv=self.ice_opts.use_finer_qv)
self.add_log("IceIterative log: {f}.".format(f=self.icec.log_fn))
self.icec.run()
self.add_log("IceIterative completed.", level=logging.INFO)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.",
level=logging.INFO)
ln(src=self.icec.report_fn, dst=self.report_fn)
# Summarize cluster and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn,
isoforms_fa=self.out_fa)
else: # self.ice_opts.quiver is True
self.add_log("Polishing clusters: initializing IcePolish.",
level=logging.INFO)
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
fasta_fofn=self.fasta_fofn,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
ipq_opts=self.ipq_opts,
nfl_reads_per_split=self.nfl_reads_per_split)
self.add_log("IcePolish log: {f}.".format(f=self.pol.log_fn),
level=logging.INFO)
self.pol.run()
self.add_log("IcePolish completed.", level=logging.INFO)
# cluster report
self.add_log("Creating a link to cluster report.",
level=logging.INFO)
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Summarize cluster & polish and write to summary_fn.
self.write_summary(summary_fn=self.summary_fn,
isoforms_fa=self.out_fa,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
class Cluster(IceFiles):
"""
An object of `Cluster` calls the ICE algorithm to
generate consensus isoforms.
"""
def __init__(self, root_dir, flnc_fa, nfl_fa,
bas_fofn, ccs_fofn, out_fa,
sge_opts, ice_opts,
hq_isoforms_fa=None, hq_isoforms_fq=None,
lq_isoforms_fa=None, lq_isoforms_fq=None,
report_fn=None, summary_fn=None):
super(Cluster, self).__init__(prog_name="Cluster",
root_dir=root_dir, bas_fofn=bas_fofn, ccs_fofn=ccs_fofn)
self.flnc_fa, self.nfl_fa, self.ccs_fofn = self._validateInputs(
flnc_fa, nfl_fa, ccs_fofn)
self.root_dir, self.out_fa = self._validateOutputs(
root_dir, out_fa)
self.hq_isoforms_fa = hq_isoforms_fa
self.hq_isoforms_fq = hq_isoforms_fq
self.lq_isoforms_fa = lq_isoforms_fa
self.lq_isoforms_fq = lq_isoforms_fq
self.sge_opts = sge_opts # SGE, CPU options and etc
self.ice_opts = ice_opts # The ICE clutering algorithm options
self.sanity_check()
self._probqv = None # probability & quality value
self._flnc_splitted_fas = [] # split flnc_fa into smaller files.
self._nflncSplittedFas = [] # split nfl_fa into smaller files.
self._logConfigs() # Log configurations
self.iceinit = None
self.icec = None
self.iceq = None
self.pol = None
self.report_fn = realpath(report_fn) if report_fn is not None \
else op.join(self.root_dir, "cluster_report.csv")
self.summary_fn = realpath(summary_fn) if summary_fn is not None \
else op.join(self.root_dir, "cluster_summary.txt")
self.summary = ClusterSummary()
self.add_log("Finishing create Cluster Object.", level=logging.INFO)
def _validateInputs(self, _flnc_fa, _nfl_fa, _ccs_fofn):
"""Validate input files and return absolute expaneded paths."""
flnc_fa, nfl_fa, ccs_fofn = _flnc_fa, _nfl_fa, _ccs_fofn
self.add_log("Checking input files.", level=logging.INFO)
if flnc_fa is None or nfl_fa is None:
raise ClusterException(
"Input non-chimeric reads files needs to be specified.")
else:
flnc_fa, nfl_fa = realpath(flnc_fa), realpath(nfl_fa)
if not op.exists(flnc_fa):
raise ClusterException("Unable to find full-length " +
"non-chimeric reads: {fn}".format(fn=flnc_fa))
if not op.exists(nfl_fa):
raise ClusterException("Unable to find non-full-length " +
"non-chimeric reads: {fn}".format(fn=nfl_fa))
if ccs_fofn is not None and not op.exists(ccs_fofn):
raise ClusterException("Unable to find FOFN file: " +
"{fn}".format(fn=ccs_fofn))
return (flnc_fa, nfl_fa, ccs_fofn)
def _validateOutputs(self, _root_dir, _out_fa):
"""Validate outputs, create root_dir if it does not exist."""
self.add_log("Checking outputs.", level=logging.INFO)
root_dir, out_fa = _root_dir, _out_fa
if root_dir is None:
self.add_log("Output directory needs to be specified.",
level=logging.ERROR)
if out_fa is None:
self.add_log("Output consensus fasta needs to be specified.",
level=logging.ERROR)
root_dir = realpath(root_dir)
out_fa = realpath(out_fa)
if op.exists(root_dir):
self.add_log("Output directory {d} already exists.".
format(d=root_dir))
else:
self.add_log("Creating output directory {d}.".format(d=root_dir))
os.mkdir(root_dir)
if op.exists(out_fa):
raise ClusterException("Consensus FASTA file {f} already exists.".
format(f=out_fa))
return root_dir, out_fa
def sanity_check(self):
"""Do sanity check before stat to run."""
errMsg = ""
if self.ice_opts.quiver is True:
if self.bas_fofn is None:
errMsg = "A fofn of bas/bax.h5 files, e.g., input.fofn, " + \
"is required in order to polish consensus " + \
"isoforms using quiver."
if self.nfl_fa is None:
errMsg = "Non-full-length reads are required for polishing " + \
"consensus isoforms using quiver."
if errMsg != "":
self.add_log(errMsg, level=logging.ERROR)
raise ValueError(errMsg)
@property
def configFN(self):
"""Return configuration file of the current run."""
return op.join(self.root_dir, "run_ice_config.txt")
def _logConfigs(self):
"""Log configuration."""
with open (self.configFN, 'w', 0) as f:
f.write('pbtranscript ' + get_version() + "\n")
f.write(str(self.ice_opts) + "\n")
f.write(str(self.sge_opts) + "\n")
@property
def initPickleFN(self):
"""Return path to pickle file with initial clusters."""
return op.join(self.root_dir, "init.uc.pickle")
def _setProbQV(self, ccs_fofn=None, firstSplitFa=None):
"""Set probability and quality values.
If a fofn file is specified, load QV from it. Otherwise, use
a pre-defined probability model."""
if ccs_fofn is None:
self.add_log("Loading predefined probabilities model.")
self._probqv = ProbFromModel(0.01, 0.07, 0.06)
else:
self.add_log("Loading probabilities and QV from {f}.".
format(f=firstSplitFa))
self._probqv = ProbFromQV(ccs_fofn, firstSplitFa)
def writeSummary(self, fa, summary_fn, hq_fa=None, lq_fa=None):
"""Extract number of consensus isoforms predicted, and total
number of bases in all consensuus isoforms from fa and write
the two attributes to summary_fn.
if hq_fa (polished high-quality isoforms) is not None, report
the number of polished hq clusters
if lq_fa (polished high-quality isoforms) is not None, report
the number of polished hq clusters
"""
try:
with FastaReader(fa) as reader:
for r in reader:
self.summary.numConsensusIsoforms += 1
self.summary.numTotalBases += len(r.sequence)
if hq_fa is not None:
self.summary.num_polished_hq_isoforms = 0
with FastaReader(hq_fa) as reader:
for r in reader:
self.summary.num_polished_hq_isoforms += 1
if lq_fa is not None:
self.summary.num_polished_lq_isoforms = 0
with FastaReader(lq_fa) as reader:
for r in reader:
self.summary.num_polished_lq_isoforms += 1
self.summary.write(summary_fn)
except ZeroDivisionError:
errMsg = "No consensus isoforms predicted."
self.add_log(errMsg, level=logging.ERROR)
raise ClusterException(errMsg)
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
# Set up probabbility and quality value model
self._setProbQV(ccs_fofn=self.ccs_fofn, firstSplitFa=firstSplit)
# Initialize cluster by clique
# check if init.pickle already exists, if so, no need to run IceInit
if os.path.exists(self.initPickleFN):
self.add_log("{0} already exists. Reading to get uc.".format(self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques.", level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log("Dumping initial clusters to {f}".format(
f=self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iteratively clustering.", level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv)
self.icec.run()
clean_up_after_ICE(self.root_dir)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.")
ln(src=self.icec.report_fn, dst=self.report_fn)
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn)
else: # self.ice_opts.quiver is True
#TODO review code
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
hq_isoforms_fa=self.hq_isoforms_fa,
hq_isoforms_fq=self.hq_isoforms_fq,
lq_isoforms_fa=self.lq_isoforms_fa,
lq_isoforms_fq=self.lq_isoforms_fq,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
self.pol.run()
# cluster report
self.add_log("Creating a link to cluster report.")
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Write a summary.
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
# Set up probabbility and quality value model
self._setProbQV(ccs_fofn=self.ccs_fofn, firstSplitFa=firstSplit)
# Initialize cluster by clique
# check if init.pickle already exists, if so, no need to run IceInit
if os.path.exists(self.initPickleFN):
self.add_log("{0} already exists. Reading to get uc.".format(self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques.", level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log("Dumping initial clusters to {f}".format(
f=self.initPickleFN), level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iteratively clustering.", level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv)
self.icec.run()
clean_up_after_ICE(self.root_dir)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.")
ln(src=self.icec.report_fn, dst=self.report_fn)
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn)
else: # self.ice_opts.quiver is True
#TODO review code
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
hq_isoforms_fa=self.hq_isoforms_fa,
hq_isoforms_fq=self.hq_isoforms_fq,
lq_isoforms_fa=self.lq_isoforms_fa,
lq_isoforms_fq=self.lq_isoforms_fq,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
self.pol.run()
# cluster report
self.add_log("Creating a link to cluster report.")
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Write a summary.
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
class Cluster(IceFiles):
"""
An object of `Cluster` calls the ICE algorithm to
generate consensus isoforms.
"""
def __init__(self,
root_dir,
flnc_fa,
nfl_fa,
bas_fofn,
ccs_fofn,
out_fa,
sge_opts,
ice_opts,
hq_isoforms_fa=None,
hq_isoforms_fq=None,
lq_isoforms_fa=None,
lq_isoforms_fq=None,
report_fn=None,
summary_fn=None):
super(Cluster, self).__init__(prog_name="Cluster",
root_dir=root_dir,
bas_fofn=bas_fofn,
ccs_fofn=ccs_fofn)
self.flnc_fa, self.nfl_fa, self.ccs_fofn = self._validateInputs(
flnc_fa, nfl_fa, ccs_fofn)
self.root_dir, self.out_fa = self._validateOutputs(root_dir, out_fa)
self.hq_isoforms_fa = hq_isoforms_fa
self.hq_isoforms_fq = hq_isoforms_fq
self.lq_isoforms_fa = lq_isoforms_fa
self.lq_isoforms_fq = lq_isoforms_fq
self.sge_opts = sge_opts # SGE, CPU options and etc
self.ice_opts = ice_opts # The ICE clutering algorithm options
self.sanity_check()
self._probqv = None # probability & quality value
self._flnc_splitted_fas = [] # split flnc_fa into smaller files.
self._nflncSplittedFas = [] # split nfl_fa into smaller files.
self._logConfigs() # Log configurations
self.iceinit = None
self.icec = None
self.iceq = None
self.pol = None
self.report_fn = realpath(report_fn) if report_fn is not None \
else op.join(self.root_dir, "cluster_report.csv")
self.summary_fn = realpath(summary_fn) if summary_fn is not None \
else op.join(self.root_dir, "cluster_summary.txt")
self.summary = ClusterSummary()
self.add_log("Finishing create Cluster Object.", level=logging.INFO)
def _validateInputs(self, _flnc_fa, _nfl_fa, _ccs_fofn):
"""Validate input files and return absolute expaneded paths."""
flnc_fa, nfl_fa, ccs_fofn = _flnc_fa, _nfl_fa, _ccs_fofn
self.add_log("Checking input files.", level=logging.INFO)
if flnc_fa is None or nfl_fa is None:
raise ClusterException(
"Input non-chimeric reads files needs to be specified.")
else:
flnc_fa, nfl_fa = realpath(flnc_fa), realpath(nfl_fa)
if not op.exists(flnc_fa):
raise ClusterException("Unable to find full-length " +
"non-chimeric reads: {fn}".format(
fn=flnc_fa))
if not op.exists(nfl_fa):
raise ClusterException("Unable to find non-full-length " +
"non-chimeric reads: {fn}".format(
fn=nfl_fa))
if ccs_fofn is not None and not op.exists(ccs_fofn):
raise ClusterException("Unable to find FOFN file: " +
"{fn}".format(fn=ccs_fofn))
return (flnc_fa, nfl_fa, ccs_fofn)
def _validateOutputs(self, _root_dir, _out_fa):
"""Validate outputs, create root_dir if it does not exist."""
self.add_log("Checking outputs.", level=logging.INFO)
root_dir, out_fa = _root_dir, _out_fa
if root_dir is None:
self.add_log("Output directory needs to be specified.",
level=logging.ERROR)
if out_fa is None:
self.add_log("Output consensus fasta needs to be specified.",
level=logging.ERROR)
root_dir = realpath(root_dir)
out_fa = realpath(out_fa)
if op.exists(root_dir):
self.add_log(
"Output directory {d} already exists.".format(d=root_dir))
else:
self.add_log("Creating output directory {d}.".format(d=root_dir))
os.mkdir(root_dir)
if op.exists(out_fa):
raise ClusterException(
"Consensus FASTA file {f} already exists.".format(f=out_fa))
return root_dir, out_fa
def sanity_check(self):
"""Do sanity check before stat to run."""
errMsg = ""
if self.ice_opts.quiver is True:
if self.bas_fofn is None:
errMsg = "A fofn of bas/bax.h5 files, e.g., input.fofn, " + \
"is required in order to polish consensus " + \
"isoforms using quiver."
if self.nfl_fa is None:
errMsg = "Non-full-length reads are required for polishing " + \
"consensus isoforms using quiver."
if errMsg != "":
self.add_log(errMsg, level=logging.ERROR)
raise ValueError(errMsg)
@property
def configFN(self):
"""Return configuration file of the current run."""
return op.join(self.root_dir, "run_ice_config.txt")
def _logConfigs(self):
"""Log configuration."""
with open(self.configFN, 'w', 0) as f:
f.write('pbtranscript ' + get_version() + "\n")
f.write(str(self.ice_opts) + "\n")
f.write(str(self.sge_opts) + "\n")
@property
def initPickleFN(self):
"""Return path to pickle file with initial clusters."""
return op.join(self.root_dir, "init.uc.pickle")
def _setProbQV(self, ccs_fofn=None, firstSplitFa=None):
"""Set probability and quality values.
If a fofn file is specified, load QV from it. Otherwise, use
a pre-defined probability model."""
if ccs_fofn is None:
self.add_log("Loading predefined probabilities model.")
self._probqv = ProbFromModel(0.01, 0.07, 0.06)
else:
self.add_log("Loading probabilities and QV from {f}.".format(
f=firstSplitFa))
self._probqv = ProbFromQV(ccs_fofn, firstSplitFa)
def writeSummary(self, fa, summary_fn, hq_fa=None, lq_fa=None):
"""Extract number of consensus isoforms predicted, and total
number of bases in all consensuus isoforms from fa and write
the two attributes to summary_fn.
if hq_fa (polished high-quality isoforms) is not None, report
the number of polished hq clusters
if lq_fa (polished high-quality isoforms) is not None, report
the number of polished hq clusters
"""
try:
with FastaReader(fa) as reader:
for r in reader:
self.summary.numConsensusIsoforms += 1
self.summary.numTotalBases += len(r.sequence)
if hq_fa is not None:
self.summary.num_polished_hq_isoforms = 0
with FastaReader(hq_fa) as reader:
for r in reader:
self.summary.num_polished_hq_isoforms += 1
if lq_fa is not None:
self.summary.num_polished_lq_isoforms = 0
with FastaReader(lq_fa) as reader:
for r in reader:
self.summary.num_polished_lq_isoforms += 1
self.summary.write(summary_fn)
except ZeroDivisionError:
errMsg = "No consensus isoforms predicted."
self.add_log(errMsg, level=logging.ERROR)
raise ClusterException(errMsg)
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
# Set up probabbility and quality value model
self._setProbQV(ccs_fofn=self.ccs_fofn, firstSplitFa=firstSplit)
# Initialize cluster by clique
# check if init.pickle already exists, if so, no need to run IceInit
if os.path.exists(self.initPickleFN):
self.add_log("{0} already exists. Reading to get uc.".format(
self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques.", level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log(
"Dumping initial clusters to {f}".format(f=self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iteratively clustering.", level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv)
self.icec.run()
clean_up_after_ICE(self.root_dir)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.")
ln(src=self.icec.report_fn, dst=self.report_fn)
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn)
else: # self.ice_opts.quiver is True
#TODO review code
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
hq_isoforms_fa=self.hq_isoforms_fa,
hq_isoforms_fq=self.hq_isoforms_fq,
lq_isoforms_fa=self.lq_isoforms_fa,
lq_isoforms_fq=self.lq_isoforms_fq,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
self.pol.run()
# cluster report
self.add_log("Creating a link to cluster report.")
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Write a summary.
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa,
summary_fn=self.summary_fn,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
def run(self):
"""Call ICE to cluster consensus isoforms."""
self.add_log("Start to run cluster.", level=logging.INFO)
# Split flnc_fa into smaller files and save files to _flnc_splitted_fas.
self.add_log("Splitting {flnc} into ".format(flnc=self.flnc_fa) +
"smaller files each containing {n} reads.".format(
n=self.ice_opts.flnc_reads_per_split),
level=logging.INFO)
self._flnc_splitted_fas = splitFasta(
input_fasta=self.flnc_fa,
reads_per_split=self.ice_opts.flnc_reads_per_split,
out_dir=self.root_dir,
out_prefix="input.split")
self.add_log("Splitted files are: " +
"\n".join(self._flnc_splitted_fas),
level=logging.INFO)
firstSplit = self._flnc_splitted_fas[0]
# Set up probabbility and quality value model
self._setProbQV(ccs_fofn=self.ccs_fofn, firstSplitFa=firstSplit)
# Initialize cluster by clique
# check if init.pickle already exists, if so, no need to run IceInit
if os.path.exists(self.initPickleFN):
self.add_log("{0} already exists. Reading to get uc.".format(
self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN) as f:
uc = cPickle.load(f)
else:
self.add_log("Finding maximal cliques.", level=logging.INFO)
self.iceinit = IceInit(readsFa=firstSplit,
qver_get_func=self._probqv.get_smoothed,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
uc = self.iceinit.uc
# Dump uc to a file
self.add_log(
"Dumping initial clusters to {f}".format(f=self.initPickleFN),
level=logging.INFO)
with open(self.initPickleFN, 'w') as f:
cPickle.dump(uc, f)
# Run IceIterative.
self.add_log("Iteratively clustering.", level=logging.INFO)
self.icec = IceIterative(
fasta_filename=firstSplit,
fasta_filenames_to_add=self._flnc_splitted_fas[1:],
all_fasta_filename=self.flnc_fa,
ccs_fofn=self.ccs_fofn,
root_dir=self.root_dir,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts,
uc=uc,
probQV=self._probqv)
self.icec.run()
clean_up_after_ICE(self.root_dir)
# IceIterative done, write predicted (unplished) consensus isoforms
# to an output fasta
self.add_log("Creating a link to unpolished consensus isoforms.")
ln(self.icec.final_consensus_fa, self.out_fa)
# Call quiver to polish predicted consensus isoforms.
if self.ice_opts.quiver is not True:
self.add_log("Creating a link to cluster report.")
ln(src=self.icec.report_fn, dst=self.report_fn)
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa, summary_fn=self.summary_fn)
else: # self.ice_opts.quiver is True
#TODO review code
self.pol = Polish(root_dir=self.root_dir,
nfl_fa=self.nfl_fa,
bas_fofn=self.bas_fofn,
ccs_fofn=self.ccs_fofn,
hq_isoforms_fa=self.hq_isoforms_fa,
hq_isoforms_fq=self.hq_isoforms_fq,
lq_isoforms_fa=self.lq_isoforms_fa,
lq_isoforms_fq=self.lq_isoforms_fq,
ice_opts=self.ice_opts,
sge_opts=self.sge_opts)
self.pol.run()
# cluster report
self.add_log("Creating a link to cluster report.")
ln(src=self.pol.iceq.report_fn, dst=self.report_fn)
# Write a summary.
self.add_log("Writing a summary to {f}".format(f=self.summary_fn),
level=logging.INFO)
self.writeSummary(fa=self.out_fa,
summary_fn=self.summary_fn,
hq_fa=self.pol.icepq.quivered_good_fa,
lq_fa=self.pol.icepq.quivered_bad_fa)
# Create log file.
self.close_log()
return 0
