def runCactusProgressive(options):
with Toil(options) as toil:
importSingularityImage()
#Run the workflow
if options.restart:
halID = toil.restart()
else:
options.cactusDir = getTempDirectory()
#Create the progressive cactus project
projWrapper = ProjectWrapper(options)
projWrapper.writeXml()
pjPath = os.path.join(
options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
#import the sequences
for genome, seq in project.inputSequenceMap.items():
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq) for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
project.inputSequenceIDMap[genome] = toil.importFile(seq)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
project.writeXML(pjPath)
halID = toil.start(
RunCactusPreprocessorThenProgressiveDown(
options, project, memory=configWrapper.getDefaultMemory()))
toil.exportFile(halID, makeURL(options.outputHal))
def run(self):
#Load the multi-cactus project
project = MultiCactusProject()
project.readXML(self.args[0])
#Create jobs to create the output sequences
configNode = ET.parse(project.getConfigPath()).getroot()
ConfigWrapper(configNode).substituteAllPredefinedConstantsWithLiterals() #This is necessary..
#Create the preprocessor
self.addChildTarget(CactusPreprocessor(project.getInputSequencePaths(),
CactusPreprocessor.getOutputSequenceFiles(project.getInputSequencePaths(), project.getOutputSequenceDir()),
configNode))
#Now build the progressive-down target
schedule = Schedule()
schedule.loadProject(project)
schedule.compute()
if self.options.event == None:
self.options.event = project.mcTree.getRootName()
assert self.options.event in project.expMap
leafNames = [ project.mcTree.getName(i) for i in project.mcTree.getLeaves() ]
self.options.globalLeafEventSet = set(leafNames)
self.setFollowOnTarget(ProgressiveDown(self.options, project, self.options.event, schedule))
def runCactusAfterBlastOnly(options):
with Toil(options) as toil:
importSingularityImage(options)
#Run the workflow
if options.restart:
halID = toil.restart()
else:
options.cactusDir = getTempDirectory()
# apply path overrides. this was necessary for wdl which doesn't take kindly to
# text files of local paths (ie seqfile). one way to fix would be to add support
# for s3 paths and force wdl to use it. a better way would be a more fundamental
# interface shift away from files of paths throughout all of cactus
if options.pathOverrides:
seqFile = SeqFile(options.seqFile)
configNode = ET.parse(options.configFile).getroot()
config = ConfigWrapper(configNode)
tree = MultiCactusTree(seqFile.tree)
tree.nameUnlabeledInternalNodes(
prefix=config.getDefaultInternalNodePrefix())
for name, override in zip(options.pathOverrideNames,
options.pathOverrides):
seqFile.pathMap[name] = override
override_seq = os.path.join(options.cactusDir,
'seqFile.override')
with open(override_seq, 'w') as out_sf:
out_sf.write(str(seqFile))
options.seqFile = override_seq
#to be consistent with all-in-one cactus, we make sure the project
#isn't limiting itself to the subtree (todo: parameterize so root can
#be passed through from prepare to blast/align)
proj_options = copy.deepcopy(options)
proj_options.root = None
#Create the progressive cactus project (as we do in runCactusProgressive)
projWrapper = ProjectWrapper(proj_options,
proj_options.configFile,
ignoreSeqPaths=options.root)
projWrapper.writeXml()
pjPath = os.path.join(
options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
# open up the experiment (as we do in ProgressiveUp.run)
# note that we copy the path into the options here
experimentFile = project.expMap[options.root]
expXml = ET.parse(experimentFile).getroot()
experiment = ExperimentWrapper(expXml)
configPath = experiment.getConfigPath()
configXml = ET.parse(configPath).getroot()
seqIDMap = dict()
tree = MultiCactusTree(experiment.getTree()).extractSubTree(
options.root)
leaves = [tree.getName(leaf) for leaf in tree.getLeaves()]
outgroups = experiment.getOutgroupGenomes()
genome_set = set(leaves + outgroups)
# this is a hack to allow specifying all the input on the command line, rather than using suffix lookups
def get_input_path(suffix=''):
base_path = options.cigarsFile[0]
for input_path in options.cigarsFile:
if suffix and input_path.endswith(suffix):
return input_path
if os.path.basename(base_path).startswith(
os.path.basename(input_path)):
base_path = input_path
return base_path + suffix
# import the outgroups
outgroupIDs = []
outgroup_fragment_found = False
for i, outgroup in enumerate(outgroups):
try:
outgroupID = toil.importFile(
makeURL(get_input_path('.og_fragment_{}'.format(i))))
outgroupIDs.append(outgroupID)
experiment.setSequenceID(outgroup, outgroupID)
outgroup_fragment_found = True
assert not options.pangenome
except:
# we assume that input is not coming from cactus blast, so we'll treat output
# sequences normally and not go looking for fragments
outgroupIDs = []
break
#import the sequences (that we need to align for the given event, ie leaves and outgroups)
for genome, seq in list(project.inputSequenceMap.items()):
if genome in leaves or (not outgroup_fragment_found
and genome in outgroups):
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq)
for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
experiment.setSequenceID(genome, toil.importFile(seq))
if not outgroup_fragment_found:
outgroupIDs = [
experiment.getSequenceID(outgroup)
for outgroup in outgroups
]
# write back the experiment, as CactusWorkflowArguments wants a path
experiment.writeXML(experimentFile)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
if options.pangenome:
# turn off the megablock filter as it ruins non-all-to-all alignments
configWrapper.disableCafMegablockFilter()
# the recoverable chains parameter does not seem to play nicely with star-like alignments either
#configWrapper.disableRecoverableChains()
workFlowArgs = CactusWorkflowArguments(
options,
experimentFile=experimentFile,
configNode=configNode,
seqIDMap=project.inputSequenceIDMap)
#import the files that cactus-blast made
workFlowArgs.alignmentsID = toil.importFile(
makeURL(get_input_path()))
workFlowArgs.secondaryAlignmentsID = None
if not options.pafInput:
try:
workFlowArgs.secondaryAlignmentsID = toil.importFile(
makeURL(get_input_path('.secondary')))
except:
pass
workFlowArgs.outgroupFragmentIDs = outgroupIDs
workFlowArgs.ingroupCoverageIDs = []
if outgroup_fragment_found and len(outgroups) > 0:
for i in range(len(leaves)):
workFlowArgs.ingroupCoverageIDs.append(
toil.importFile(
makeURL(get_input_path(
'.ig_coverage_{}'.format(i)))))
halID = toil.start(
Job.wrapJobFn(run_cactus_align,
configWrapper,
workFlowArgs,
project,
doRenaming=options.nonCactusInput,
pafInput=options.pafInput))
# export the hal
toil.exportFile(halID, makeURL(options.outputHal))
def make_align_job(options, toil):
options.cactusDir = getTempDirectory()
# apply path overrides. this was necessary for wdl which doesn't take kindly to
# text files of local paths (ie seqfile). one way to fix would be to add support
# for s3 paths and force wdl to use it. a better way would be a more fundamental
# interface shift away from files of paths throughout all of cactus
if options.pathOverrides:
seqFile = SeqFile(options.seqFile)
configNode = ET.parse(options.configFile).getroot()
config = ConfigWrapper(configNode)
tree = MultiCactusTree(seqFile.tree)
tree.nameUnlabeledInternalNodes(
prefix=config.getDefaultInternalNodePrefix())
for name, override in zip(options.pathOverrideNames,
options.pathOverrides):
seqFile.pathMap[name] = override
override_seq = os.path.join(options.cactusDir, 'seqFile.override')
with open(override_seq, 'w') as out_sf:
out_sf.write(str(seqFile))
options.seqFile = override_seq
if not options.root:
seqFile = SeqFile(options.seqFile)
configNode = ET.parse(options.configFile).getroot()
config = ConfigWrapper(configNode)
mcTree = MultiCactusTree(seqFile.tree)
mcTree.nameUnlabeledInternalNodes(
prefix=config.getDefaultInternalNodePrefix())
options.root = mcTree.getRootName()
if options.acyclic:
seqFile = SeqFile(options.seqFile)
tree = MultiCactusTree(seqFile.tree)
leaves = [tree.getName(leaf) for leaf in tree.getLeaves()]
if options.acyclic not in leaves:
raise RuntimeError(
"Genome specified with --acyclic, {}, not found in tree leaves"
.format(options.acyclic))
#to be consistent with all-in-one cactus, we make sure the project
#isn't limiting itself to the subtree (todo: parameterize so root can
#be passed through from prepare to blast/align)
proj_options = copy.deepcopy(options)
proj_options.root = None
#Create the progressive cactus project (as we do in runCactusProgressive)
projWrapper = ProjectWrapper(proj_options,
proj_options.configFile,
ignoreSeqPaths=options.root)
projWrapper.writeXml()
pjPath = os.path.join(options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
# open up the experiment (as we do in ProgressiveUp.run)
# note that we copy the path into the options here
experimentFile = project.expMap[options.root]
expXml = ET.parse(experimentFile).getroot()
experiment = ExperimentWrapper(expXml)
configPath = experiment.getConfigPath()
configXml = ET.parse(configPath).getroot()
seqIDMap = dict()
tree = MultiCactusTree(experiment.getTree()).extractSubTree(options.root)
leaves = [tree.getName(leaf) for leaf in tree.getLeaves()]
outgroups = experiment.getOutgroupGenomes()
genome_set = set(leaves + outgroups)
# this is a hack to allow specifying all the input on the command line, rather than using suffix lookups
def get_input_path(suffix=''):
base_path = options.cigarsFile[0]
for input_path in options.cigarsFile:
if suffix and input_path.endswith(suffix):
return input_path
if os.path.basename(base_path).startswith(
os.path.basename(input_path)):
base_path = input_path
return base_path + suffix
# import the outgroups
outgroupIDs = []
outgroup_fragment_found = False
for i, outgroup in enumerate(outgroups):
try:
outgroupID = toil.importFile(
makeURL(get_input_path('.og_fragment_{}'.format(i))))
outgroupIDs.append(outgroupID)
experiment.setSequenceID(outgroup, outgroupID)
outgroup_fragment_found = True
assert not options.pangenome
except:
# we assume that input is not coming from cactus blast, so we'll treat output
# sequences normally and not go looking for fragments
outgroupIDs = []
break
#import the sequences (that we need to align for the given event, ie leaves and outgroups)
for genome, seq in list(project.inputSequenceMap.items()):
if genome in leaves or (not outgroup_fragment_found
and genome in outgroups):
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles(
[os.path.join(seq, subSeq) for subSeq in os.listdir(seq)],
tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
logger.info("Importing {}".format(seq))
experiment.setSequenceID(genome, toil.importFile(seq))
if not outgroup_fragment_found:
outgroupIDs = [
experiment.getSequenceID(outgroup) for outgroup in outgroups
]
# write back the experiment, as CactusWorkflowArguments wants a path
experiment.writeXML(experimentFile)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
if options.singleCopySpecies:
findRequiredNode(
configWrapper.xmlRoot,
"caf").attrib["alignmentFilter"] = "singleCopyEvent:{}".format(
options.singleCopySpecies)
if options.barMaskFilter:
findRequiredNode(
configWrapper.xmlRoot,
"bar").attrib["partialOrderAlignmentMaskFilter"] = str(
options.barMaskFilter)
if options.pangenome:
# turn off the megablock filter as it ruins non-all-to-all alignments
findRequiredNode(configWrapper.xmlRoot,
"caf").attrib["minimumBlockHomologySupport"] = "0"
findRequiredNode(
configWrapper.xmlRoot,
"caf").attrib["minimumBlockDegreeToCheckSupport"] = "9999999999"
# turn off mapq filtering
findRequiredNode(configWrapper.xmlRoot,
"caf").attrib["runMapQFiltering"] = "0"
# more iterations here helps quite a bit to reduce underalignment
findRequiredNode(configWrapper.xmlRoot,
"caf").attrib["maxRecoverableChainsIterations"] = "50"
# turn down minimum block degree to get a fat ancestor
findRequiredNode(configWrapper.xmlRoot,
"bar").attrib["minimumBlockDegree"] = "1"
# turn on POA
findRequiredNode(configWrapper.xmlRoot,
"bar").attrib["partialOrderAlignment"] = "1"
# save it
if not options.batch:
pg_file = options.outHal + ".pg-conf.xml"
if pg_file.startswith('s3://'):
pg_temp_file = getTempFile()
else:
pg_temp_file = pg_file
configWrapper.writeXML(pg_temp_file)
if pg_file.startswith('s3://'):
write_s3(pg_temp_file,
pg_file,
region=get_aws_region(options.jobStore))
logger.info("pangenome configuration overrides saved in {}".format(
pg_file))
workFlowArgs = CactusWorkflowArguments(options,
experimentFile=experimentFile,
configNode=configNode,
seqIDMap=project.inputSequenceIDMap)
#import the files that cactus-blast made
workFlowArgs.alignmentsID = toil.importFile(makeURL(get_input_path()))
workFlowArgs.secondaryAlignmentsID = None
if not options.pafInput:
try:
workFlowArgs.secondaryAlignmentsID = toil.importFile(
makeURL(get_input_path('.secondary')))
except:
pass
workFlowArgs.outgroupFragmentIDs = outgroupIDs
workFlowArgs.ingroupCoverageIDs = []
if outgroup_fragment_found and len(outgroups) > 0:
for i in range(len(leaves)):
workFlowArgs.ingroupCoverageIDs.append(
toil.importFile(
makeURL(get_input_path('.ig_coverage_{}'.format(i)))))
align_job = Job.wrapJobFn(run_cactus_align,
configWrapper,
workFlowArgs,
project,
checkpointInfo=options.checkpointInfo,
doRenaming=options.nonCactusInput,
pafInput=options.pafInput,
pafSecondaries=options.usePafSecondaries,
doVG=options.outVG,
doGFA=options.outGFA,
delay=options.stagger,
eventNameAsID=options.eventNameAsID,
acyclicEvent=options.acyclic)
return align_job
def main():
parser = ArgumentParser()
Job.Runner.addToilOptions(parser)
addCactusWorkflowOptions(parser)
parser.add_argument("seqFile", help="Seq file")
parser.add_argument("outputHal", type=str, help="Output HAL file")
#Progressive Cactus Options
parser.add_argument("--database",
dest="database",
help="Database type: tokyo_cabinet or kyoto_tycoon"
" [default: %(default)s]",
default="kyoto_tycoon")
parser.add_argument("--configFile",
dest="configFile",
help="Specify cactus configuration file",
default=None)
parser.add_argument(
"--root",
dest="root",
help="Name of ancestral node (which"
" must appear in NEWICK tree in <seqfile>) to use as a "
"root for the alignment. Any genomes not below this node "
"in the tree may be used as outgroups but will never appear"
" in the output. If no root is specifed then the root"
" of the tree is used. ",
default=None)
parser.add_argument("--latest",
dest="latest",
action="store_true",
help="Use the latest, locally-built docker container "
"rather than pulling from quay.io")
parser.add_argument("--binariesMode",
choices=["docker", "local", "singularity"],
help="The way to run the Cactus binaries",
default=None)
options = parser.parse_args()
options.cactusDir = getTempDirectory()
setupBinaries(options)
setLoggingFromOptions(options)
# Mess with some toil options to create useful defaults.
# Caching generally slows down the cactus workflow, plus some
# methods like readGlobalFileStream don't support forced
# reads directly from the job store rather than from cache.
options.disableCaching = True
# Job chaining breaks service termination timing, causing unused
# databases to accumulate and waste memory for no reason.
options.disableChaining = True
# The default deadlockWait is currently 60 seconds. This can cause
# issues if the database processes take a while to actually begin
# after they're issued. Change it to at least an hour so that we
# don't preemptively declare a deadlock.
if options.deadlockWait is None or options.deadlockWait < 3600:
options.deadlockWait = 3600
if options.retryCount is None:
# If the user didn't specify a retryCount value, make it 5
# instead of Toil's default (1).
options.retryCount = 5
#Create the progressive cactus project
projWrapper = ProjectWrapper(options)
projWrapper.writeXml()
pjPath = os.path.join(options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
with Toil(options) as toil:
importSingularityImage()
#Run the workflow
if options.restart:
halID = toil.restart()
else:
project.readXML(pjPath)
#import the sequences
seqIDs = []
for seq in project.getInputSequencePaths():
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq) for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
seqIDs.append(toil.importFile(seq))
project.setInputSequenceIDs(seqIDs)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
logger.info("Setting config id to: %s" % cactusConfigID)
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
project.writeXML(pjPath)
halID = toil.start(
RunCactusPreprocessorThenProgressiveDown(
options, project, memory=configWrapper.getDefaultMemory()))
toil.exportFile(halID, makeURL(options.outputHal))
def runCactusAfterBlastOnly(options):
with Toil(options) as toil:
importSingularityImage(options)
#Run the workflow
if options.restart:
alignmentID = toil.restart()
else:
options.cactusDir = getTempDirectory()
#Create the progressive cactus project (as we do in runCactusProgressive)
projWrapper = ProjectWrapper(options,
options.configFile,
ignoreSeqPaths=options.root)
projWrapper.writeXml()
pjPath = os.path.join(
options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
# open up the experiment (as we do in ProgressiveUp.run)
# note that we copy the path into the options here
experimentFile = project.expMap[options.root]
expXml = ET.parse(experimentFile).getroot()
experiment = ExperimentWrapper(expXml)
configPath = experiment.getConfigPath()
configXml = ET.parse(configPath).getroot()
seqIDMap = dict()
tree = MultiCactusTree(experiment.getTree()).extractSubTree(
options.root)
leaves = [tree.getName(leaf) for leaf in tree.getLeaves()]
outgroups = experiment.getOutgroupGenomes()
genome_set = set(leaves + outgroups)
# import the outgroups
outgroupIDs = []
cactus_blast_input = not options.nonBlastInput
for i, outgroup in enumerate(outgroups):
try:
outgroupID = toil.importFile(
makeURL(options.blastOutput) +
'.og_fragment_{}'.format(i))
outgroupIDs.append(outgroupID)
experiment.setSequenceID(outgroup, outgroupID)
except:
if cactus_blast_input:
raise
# we assume that input is not coming from cactus blast, so we'll treat output
# sequences normally and not go looking for fragments
outgroupIDs = []
break
#import the sequences (that we need to align for the given event, ie leaves and outgroups)
for genome, seq in list(project.inputSequenceMap.items()):
if genome in leaves or (not cactus_blast_input
and genome in outgroups):
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq)
for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
experiment.setSequenceID(genome, toil.importFile(seq))
if not cactus_blast_input:
outgroupIDs = [
experiment.getSequenceID(outgroup)
for outgroup in outgroups
]
# write back the experiment, as CactusWorkflowArguments wants a path
experiment.writeXML(experimentFile)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
workFlowArgs = CactusWorkflowArguments(
options,
experimentFile=experimentFile,
configNode=configNode,
seqIDMap=project.inputSequenceIDMap)
#import the files that cactus-blast made
workFlowArgs.alignmentsID = toil.importFile(
makeURL(options.blastOutput))
try:
workFlowArgs.secondaryAlignmentsID = toil.importFile(
makeURL(options.blastOutput) + '.secondary')
except:
workFlowArgs.secondaryAlignmentsID = None
workFlowArgs.outgroupFragmentIDs = outgroupIDs
workFlowArgs.ingroupCoverageIDs = []
if cactus_blast_input and len(outgroups) > 0:
for i in range(len(leaves)):
workFlowArgs.ingroupCoverageIDs.append(
toil.importFile(
makeURL(options.blastOutput) +
'.ig_coverage_{}'.format(i)))
halID = toil.start(
Job.wrapJobFn(run_cactus_align, configWrapper, workFlowArgs,
project, cactus_blast_input))
# export the hal
toil.exportFile(halID, makeURL(options.outputHal))
def runCactusBlastOnly(options):
with Toil(options) as toil:
importSingularityImage(options)
#Run the workflow
if options.restart:
alignmentID = toil.restart()
else:
options.cactusDir = getTempDirectory()
# apply path overrides. this was necessary for wdl which doesn't take kindly to
# text files of local paths (ie seqfile). one way to fix would be to add support
# for s3 paths and force wdl to use it. a better way would be a more fundamental
# interface shift away from files of paths throughout all of cactus
if options.pathOverrides:
seqFile = SeqFile(options.seqFile)
configNode = ET.parse(options.configFile).getroot()
config = ConfigWrapper(configNode)
tree = MultiCactusTree(seqFile.tree)
tree.nameUnlabeledInternalNodes(
prefix=config.getDefaultInternalNodePrefix())
for name, override in zip(options.pathOverrideNames,
options.pathOverrides):
seqFile.pathMap[name] = override
override_seq = os.path.join(options.cactusDir,
'seqFile.override')
with open(override_seq, 'w') as out_sf:
out_sf.write(str(seqFile))
options.seqFile = override_seq
#to be consistent with all-in-one cactus, we make sure the project
#isn't limiting itself to the subtree (todo: parameterize so root can
#be passed through from prepare to blast/align)
proj_options = copy.deepcopy(options)
proj_options.root = None
#Create the progressive cactus project (as we do in runCactusProgressive)
projWrapper = ProjectWrapper(proj_options,
proj_options.configFile,
ignoreSeqPaths=options.root)
projWrapper.writeXml()
pjPath = os.path.join(
options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
# open up the experiment (as we do in ProgressiveUp.run)
# note that we copy the path into the options here
experimentFile = project.expMap[options.root]
expXml = ET.parse(experimentFile).getroot()
logger.info("Experiment {}".format(ET.tostring(expXml)))
experiment = ExperimentWrapper(expXml)
configPath = experiment.getConfigPath()
configXml = ET.parse(configPath).getroot()
seqIDMap = dict()
tree = MultiCactusTree(experiment.getTree()).extractSubTree(
options.root)
leaves = tree.getChildNames(tree.getRootName())
outgroups = experiment.getOutgroupGenomes()
genome_set = set(leaves + outgroups)
logger.info("Genomes in blastonly, {}: {}".format(
options.root, list(genome_set)))
print(str(project.inputSequenceMap))
#import the sequences (that we need to align for the given event, ie leaves and outgroups)
for genome, seq in list(project.inputSequenceMap.items()):
if genome in genome_set:
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq)
for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
project.inputSequenceIDMap[genome] = toil.importFile(seq)
else:
# out-of-scope sequences will only cause trouble later on
del project.inputSequenceMap[genome]
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
workFlowArgs = CactusWorkflowArguments(
options,
experimentFile=experimentFile,
configNode=configNode,
seqIDMap=project.inputSequenceIDMap)
outWorkFlowArgs = toil.start(
CactusTrimmingBlastPhase(standAlone=True,
cactusWorkflowArguments=workFlowArgs,
phaseName="trimBlast"))
# export the alignments
toil.exportFile(outWorkFlowArgs.alignmentsID,
makeURL(options.outputFile))
# optional secondary alignments
if outWorkFlowArgs.secondaryAlignmentsID:
toil.exportFile(outWorkFlowArgs.secondaryAlignmentsID,
makeURL(options.outputFile) + '.secondary')
# outgroup fragments and coverage are necessary for cactus-align, as the sequence names got changed in the above alignemnts
for i, outgroupFragmentID in enumerate(
outWorkFlowArgs.outgroupFragmentIDs):
toil.exportFile(
outgroupFragmentID,
makeURL(options.outputFile) + '.og_fragment_{}'.format(i))
# cactus-align can recompute coverage on the fly, but we save them because we have them
for i, ingroupCoverageID in enumerate(
outWorkFlowArgs.ingroupCoverageIDs):
toil.exportFile(
ingroupCoverageID,
makeURL(options.outputFile) + '.ig_coverage_{}'.format(i))
def main():
parser = ArgumentParser()
Job.Runner.addToilOptions(parser)
addCactusWorkflowOptions(parser)
parser.add_argument("seqFile", help = "Seq file")
parser.add_argument("outputHal", type=str, help = "Output HAL file")
#Progressive Cactus Options
parser.add_argument("--database", dest="database",
help="Database type: tokyo_cabinet or kyoto_tycoon"
" [default: %(default)s]",
default="kyoto_tycoon")
parser.add_argument("--configFile", dest="configFile",
help="Specify cactus configuration file",
default=None)
parser.add_argument("--root", dest="root", help="Name of ancestral node (which"
" must appear in NEWICK tree in <seqfile>) to use as a "
"root for the alignment. Any genomes not below this node "
"in the tree may be used as outgroups but will never appear"
" in the output. If no root is specifed then the root"
" of the tree is used. ", default=None)
parser.add_argument("--latest", dest="latest", action="store_true",
help="Use the latest version of the docker container "
"rather than pulling one matching this version of cactus")
parser.add_argument("--containerImage", dest="containerImage", default=None,
help="Use the the specified pre-built containter image "
"rather than pulling one from quay.io")
parser.add_argument("--binariesMode", choices=["docker", "local", "singularity"],
help="The way to run the Cactus binaries", default=None)
options = parser.parse_args()
setupBinaries(options)
setLoggingFromOptions(options)
# Mess with some toil options to create useful defaults.
# Caching generally slows down the cactus workflow, plus some
# methods like readGlobalFileStream don't support forced
# reads directly from the job store rather than from cache.
options.disableCaching = True
# Job chaining breaks service termination timing, causing unused
# databases to accumulate and waste memory for no reason.
options.disableChaining = True
# The default deadlockWait is currently 60 seconds. This can cause
# issues if the database processes take a while to actually begin
# after they're issued. Change it to at least an hour so that we
# don't preemptively declare a deadlock.
if options.deadlockWait is None or options.deadlockWait < 3600:
options.deadlockWait = 3600
if options.retryCount is None:
# If the user didn't specify a retryCount value, make it 5
# instead of Toil's default (1).
options.retryCount = 5
with Toil(options) as toil:
importSingularityImage()
#Run the workflow
if options.restart:
halID = toil.restart()
else:
options.cactusDir = getTempDirectory()
#Create the progressive cactus project
projWrapper = ProjectWrapper(options)
projWrapper.writeXml()
pjPath = os.path.join(options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
#import the sequences
seqIDs = []
print "Importing %s sequences" % (len(project.getInputSequencePaths()))
for seq in project.getInputSequencePaths():
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([os.path.join(seq, subSeq) for subSeq in os.listdir(seq)], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
seqIDs.append(toil.importFile(seq))
project.setInputSequenceIDs(seqIDs)
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
project.writeXML(pjPath)
halID = toil.start(RunCactusPreprocessorThenProgressiveDown(options, project, memory=configWrapper.getDefaultMemory()))
toil.exportFile(halID, makeURL(options.outputHal))
def runCactusBlastOnly(options):
with Toil(options) as toil:
importSingularityImage(options)
#Run the workflow
if options.restart:
alignmentID = toil.restart()
else:
options.cactusDir = getTempDirectory()
#Create the progressive cactus project (as we do in runCactusProgressive)
projWrapper = ProjectWrapper(options,
options.configFile,
ignoreSeqPaths=options.root)
projWrapper.writeXml()
pjPath = os.path.join(
options.cactusDir, ProjectWrapper.alignmentDirName,
'%s_project.xml' % ProjectWrapper.alignmentDirName)
assert os.path.exists(pjPath)
project = MultiCactusProject()
if not os.path.isdir(options.cactusDir):
os.makedirs(options.cactusDir)
project.readXML(pjPath)
# open up the experiment (as we do in ProgressiveUp.run)
# note that we copy the path into the options here
experimentFile = project.expMap[options.root]
expXml = ET.parse(experimentFile).getroot()
logger.info("Experiment {}".format(ET.tostring(expXml)))
experiment = ExperimentWrapper(expXml)
configPath = experiment.getConfigPath()
configXml = ET.parse(configPath).getroot()
seqIDMap = dict()
tree = MultiCactusTree(experiment.getTree()).extractSubTree(
options.root)
leaves = tree.getChildNames(tree.getRootName())
outgroups = experiment.getOutgroupGenomes()
genome_set = set(leaves + outgroups)
logger.info("Genomes in blastonly, {}: {}".format(
options.root, list(genome_set)))
#import the sequences (that we need to align for the given event, ie leaves and outgroups)
for genome, seq in list(project.inputSequenceMap.items()):
if genome in genome_set:
if os.path.isdir(seq):
tmpSeq = getTempFile()
catFiles([
os.path.join(seq, subSeq)
for subSeq in os.listdir(seq)
], tmpSeq)
seq = tmpSeq
seq = makeURL(seq)
project.inputSequenceIDMap[genome] = toil.importFile(seq)
else:
# out-of-scope sequences will only cause trouble later on
del project.inputSequenceMap[genome]
#import cactus config
if options.configFile:
cactusConfigID = toil.importFile(makeURL(options.configFile))
else:
cactusConfigID = toil.importFile(
makeURL(project.getConfigPath()))
project.setConfigID(cactusConfigID)
project.syncToFileStore(toil)
configNode = ET.parse(project.getConfigPath()).getroot()
configWrapper = ConfigWrapper(configNode)
configWrapper.substituteAllPredefinedConstantsWithLiterals()
workFlowArgs = CactusWorkflowArguments(
options,
experimentFile=experimentFile,
configNode=configNode,
seqIDMap=project.inputSequenceIDMap)
outWorkFlowArgs = toil.start(
CactusTrimmingBlastPhase(standAlone=True,
cactusWorkflowArguments=workFlowArgs,
phaseName="trimBlast"))
# export the alignments
toil.exportFile(outWorkFlowArgs.alignmentsID,
makeURL(options.outputFile))
# optional secondary alignments
if outWorkFlowArgs.secondaryAlignmentsID:
toil.exportFile(outWorkFlowArgs.secondaryAlignmentsID,
makeURL(options.outputFile) + '.secondary')
# outgroup fragments and coverage are necessary for cactus-align, as the sequence names got changed in the above alignemnts
for i, outgroupFragmentID in enumerate(
outWorkFlowArgs.outgroupFragmentIDs):
toil.exportFile(
outgroupFragmentID,
makeURL(options.outputFile) + '.og_fragment_{}'.format(i))
# cactus-align can recompute coverage on the fly, but we save them because we have them
for i, ingroupCoverageID in enumerate(
outWorkFlowArgs.ingroupCoverageIDs):
toil.exportFile(
ingroupCoverageID,
makeURL(options.outputFile) + '.ig_coverage_{}'.format(i))
