예제 #1
0
 def run(self):
     logger.info("Preparing sequence for preprocessing")
     # chunk it up
     inChunkDirectory = makeSubDir(os.path.join(self.getGlobalTempDir(), "preprocessChunksIn"))
     inChunkList = [
         chunk
         for chunk in popenCatch(
             "cactus_blast_chunkSequences %s %i 0 %s %s"
             % (getLogLevelString(), self.prepOptions.chunkSize, inChunkDirectory, self.inSequencePath)
         ).split("\n")
         if chunk != ""
     ]
     outChunkDirectory = makeSubDir(os.path.join(self.getGlobalTempDir(), "preprocessChunksOut"))
     outChunkList = []
     # For each input chunk we create an output chunk, it is the output chunks that get concatenated together.
     for i in xrange(len(inChunkList)):
         outChunkList.append(os.path.join(outChunkDirectory, "chunk_%i" % i))
         # Calculate the number of chunks to use
         inChunkNumber = int(max(1, math.ceil(len(inChunkList) * self.prepOptions.proportionToSample)))
         assert inChunkNumber <= len(inChunkList) and inChunkNumber > 0
         # Now get the list of chunks flanking and including the current chunk
         j = max(0, i - inChunkNumber / 2)
         inChunks = inChunkList[j : j + inChunkNumber]
         if len(inChunks) < inChunkNumber:  # This logic is like making the list circular
             inChunks += inChunkList[: inChunkNumber - len(inChunks)]
         assert len(inChunks) == inChunkNumber
         self.addChildTarget(
             PreprocessChunk(
                 self.prepOptions, inChunks, float(inChunkNumber) / len(inChunkList), inChunkList[i], outChunkList[i]
             )
         )
     # follow on to merge chunks
     self.setFollowOnTarget(MergeChunks(self.prepOptions, outChunkList, self.outSequencePath))
예제 #2
0
 def run(self):
     chunks1 = self.getChunks(self.sequenceFiles1, makeSubDir(os.path.join(self.getGlobalTempDir(), "chunks1")))
     chunks2 = self.getChunks(self.sequenceFiles2, makeSubDir(os.path.join(self.getGlobalTempDir(), "chunks2")))
     tempFileTree = TempFileTree(os.path.join(self.getGlobalTempDir(), "allAgainstAllResults"))
     resultsFiles = []
     #Make the list of blast jobs.
     for chunk1 in chunks1:
         for chunk2 in chunks2:
             resultsFile = tempFileTree.getTempFile()
             resultsFiles.append(resultsFile)
             #TODO: Make the compression work
             self.blastOptions.compressFiles = False
             self.addChildTarget(RunBlast(self.blastOptions, chunk1, chunk2, resultsFile))
     logger.info("Made the list of blasts")
     #Set up the job to collate all the results
     self.setFollowOnTarget(CollateBlasts(self.finalResultsFile, resultsFiles))
예제 #3
0
 def run(self):
     chunksDir = makeSubDir(os.path.join(self.getGlobalTempDir(), "chunks"))
     chunks = [ chunk for chunk in popenCatch("cactus_blast_chunkFlowerSequences %s '%s' %s %i %i %i %s" % \
                                                       (getLogLevelString(), self.cactusDisk, self.flowerName, 
                                                       self.blastOptions.chunkSize, 
                                                       self.blastOptions.overlapSize,
                                                       self.blastOptions.minimumSequenceLength,
                                                       chunksDir)).split("\n") if chunk != "" ]
     logger.info("Broken up the flowers into individual 'chunk' files")
     self.addChildTarget(MakeBlastsAllAgainstAll(self.blastOptions, chunks, self.finalResultsFile))
예제 #4
0
 def run(self):
     #Avoid compression if just one chunk
     self.blastOptions.compressFiles = self.blastOptions.compressFiles and len(self.chunks) > 2
     selfResultsDir = makeSubDir(os.path.join(self.getGlobalTempDir(), "selfResults"))
     resultsFiles = []
     for i in xrange(len(self.chunks)):
         resultsFile = os.path.join(selfResultsDir, str(i))
         resultsFiles.append(resultsFile)
         self.addChildTarget(RunSelfBlast(self.blastOptions, self.chunks[i], resultsFile))
     logger.info("Made the list of self blasts")
     #Setup job to make all-against-all blasts
     self.setFollowOnTarget(MakeBlastsAllAgainstAll2(self.blastOptions, self.chunks, resultsFiles, self.finalResultsFile))
예제 #5
0
def main():
    sys.path.append(sys.argv[1])
    sys.argv.remove(sys.argv[1])
    
    #Now we can import all the stuff..
    from sonLib.bioio import getBasicOptionParser
    from sonLib.bioio import parseBasicOptions
    from sonLib.bioio import logger
    from sonLib.bioio import addLoggingFileHandler, redirectLoggerStreamHandlers
    from sonLib.bioio import setLogLevel
    from sonLib.bioio import getTotalCpuTime, getTotalCpuTimeAndMemoryUsage
    from sonLib.bioio import getTempDirectory
    from sonLib.bioio import makeSubDir
    from jobTree.src.job import Job
    from jobTree.src.master import getEnvironmentFileName, getConfigFileName, listChildDirs, getTempStatsFile, setupJobAfterFailure
    from sonLib.bioio import system
    
    ########################################## 
    #Input args
    ##########################################
    
    jobTreePath = sys.argv[1]
    jobFile = sys.argv[2]
    
    ##########################################
    #Load the environment for the job
    ##########################################
    
    #First load the environment for the job.
    fileHandle = open(getEnvironmentFileName(jobTreePath), 'r')
    environment = cPickle.load(fileHandle)
    fileHandle.close()
    for i in environment:
        if i not in ("TMPDIR", "TMP", "HOSTNAME", "HOSTTYPE"):
            os.environ[i] = environment[i]
    # sys.path is used by __import__ to find modules
    if "PYTHONPATH" in environment:
        for e in environment["PYTHONPATH"].split(':'):
            if e != '':
                sys.path.append(e)
    #os.environ = environment
    #os.putenv(key, value)
        
    ##########################################
    #Setup the temporary directories.
    ##########################################
        
    #Dir to put all the temp files in.
    localSlaveTempDir = getTempDirectory()
    localTempDir = makeSubDir(os.path.join(localSlaveTempDir, "localTempDir"))
    
    ##########################################
    #Setup the logging
    ##########################################
    
    #Setup the logging
    tempSlaveLogFile = os.path.join(localSlaveTempDir, "slave_log.txt")
    slaveHandle = open(tempSlaveLogFile, 'w')
    for handler in list(logger.handlers): #Remove old handlers
        logger.removeHandler(handler)
    logger.addHandler(logging.StreamHandler(slaveHandle))
    origStdErr = sys.stderr
    origStdOut = sys.stdout
    sys.stderr = slaveHandle 
    sys.stdout = slaveHandle
    
    ##########################################
    #Parse input files
    ##########################################
    
    config = ET.parse(getConfigFileName(jobTreePath)).getroot()
    setLogLevel(config.attrib["log_level"])
    job = Job.read(jobFile)
    job.messages = [] #This is the only way to stop messages logging twice, as are read only in the master
    job.children = []
    if os.path.exists(job.getLogFileName()): #This cleans the old log file
        os.remove(job.getLogFileName())
    logger.info("Parsed arguments and set up logging")

     #Try loop for slave logging
    ##########################################
    #Setup the stats, if requested
    ##########################################
    
    if config.attrib.has_key("stats"):
        startTime = time.time()
        startClock = getTotalCpuTime()
        stats = ET.Element("slave")
    else:
        stats = None
    
    ##########################################
    #The max time 
    ##########################################
    
    maxTime = float(config.attrib["job_time"])
    assert maxTime > 0.0
    assert maxTime < sys.maxint

    ##########################################
    #Slave log file trapped from here on in
    ##########################################

    slaveFailed = False
    try:
        
        ##########################################
        #The next job
        ##########################################
        
        def globalTempDirName(job, depth):
            return job.getGlobalTempDirName() + str(depth)
        
        command, memoryAvailable, cpuAvailable, depth = job.followOnCommands[-1]
        defaultMemory = int(config.attrib["default_memory"])
        defaultCpu = int(config.attrib["default_cpu"])
        assert len(job.children) == 0
        
        startTime = time.time() 
        while True:
            job.followOnCommands.pop()
            
            ##########################################
            #Global temp dir
            ##########################################
            
            globalTempDir = makeSubDir(globalTempDirName(job, depth))
            i = 1
            while os.path.isdir(globalTempDirName(job, depth+i)):
                system("rm -rf %s" % globalTempDirName(job, depth+i))
                i += 1
                
            ##########################################
            #Old children, not yet deleted
            #
            #These may exist because of the lazy cleanup
            #we do
            ##########################################
        
            for childDir in listChildDirs(job.jobDir):
                logger.debug("Cleaning up old child %s" % childDir)
                system("rm -rf %s" % childDir)
        
            ##########################################
            #Run the job
            ##########################################
        
            if command != "": #Not a stub
                if command[:11] == "scriptTree ":
                    ##########################################
                    #Run the target
                    ##########################################
                    
                    loadStack(command).execute(job=job, stats=stats,
                                    localTempDir=localTempDir, globalTempDir=globalTempDir, 
                                    memoryAvailable=memoryAvailable, cpuAvailable=cpuAvailable, 
                                    defaultMemory=defaultMemory, defaultCpu=defaultCpu, depth=depth)
            
                else: #Is another command
                    system(command) 
            
            ##########################################
            #Cleanup/reset a successful job/checkpoint
            ##########################################
            
            job.remainingRetryCount = int(config.attrib["try_count"])
            system("rm -rf %s/*" % (localTempDir))
            job.update(depth=depth, tryCount=job.remainingRetryCount)
            
            ##########################################
            #Establish if we can run another job
            ##########################################
            
            if time.time() - startTime > maxTime:
                logger.info("We are breaking because the maximum time the job should run for has been exceeded")
                break
            
            #Deal with children
            if len(job.children) >= 1:  #We are going to have to return to the parent
                logger.info("No more jobs can run in series by this slave, its got %i children" % len(job.children))
                break
            
            if len(job.followOnCommands) == 0:
                logger.info("No more jobs can run by this slave as we have exhausted the follow ons")
                break
            
            #Get the next job and see if we have enough cpu and memory to run it..
            command, memory, cpu, depth = job.followOnCommands[-1]
            
            if memory > memoryAvailable:
                logger.info("We need more memory for the next job, so finishing")
                break
            if cpu > cpuAvailable:
                logger.info("We need more cpus for the next job, so finishing")
                break
            
            logger.info("Starting the next job")
        
        ##########################################
        #Finish up the stats
        ##########################################
        
        if stats != None:
            totalCpuTime, totalMemoryUsage = getTotalCpuTimeAndMemoryUsage()
            stats.attrib["time"] = str(time.time() - startTime)
            stats.attrib["clock"] = str(totalCpuTime - startClock)
            stats.attrib["memory"] = str(totalMemoryUsage)
            tempStatsFile = getTempStatsFile(jobTreePath)
            fileHandle = open(tempStatsFile + ".new", "w")
            ET.ElementTree(stats).write(fileHandle)
            fileHandle.close()
            os.rename(tempStatsFile + ".new", tempStatsFile) #This operation is atomic
        
        logger.info("Finished running the chain of jobs on this node, we ran for a total of %f seconds" % (time.time() - startTime))
    
    ##########################################
    #Where slave goes wrong
    ##########################################
    except: #Case that something goes wrong in slave
        traceback.print_exc(file = slaveHandle)
        logger.critical("Exiting the slave because of a failed job on host %s", socket.gethostname())
        job = Job.read(jobFile)
        setupJobAfterFailure(job, config)
        job.write()
        slaveFailed = True

    ##########################################
    #Cleanup
    ##########################################
    
    #Close the slave logging
    slaveHandle.flush()
    sys.stderr = origStdErr
    sys.stdout = origStdOut
    redirectLoggerStreamHandlers(slaveHandle, sys.stderr)
    slaveHandle.close()
    
    #Copy back the log file to the global dir, if needed
    if slaveFailed:
        truncateFile(tempSlaveLogFile)
        system("mv %s %s" % (tempSlaveLogFile, job.getLogFileName()))
    #Remove the temp dir
    system("rm -rf %s" % localSlaveTempDir)
    
    #This must happen after the log file is done with, else there is no place to put the log
    if (not slaveFailed) and len(job.followOnCommands) == 0 and len(job.children) == 0 and len(job.messages) == 0:
        ##########################################
        #Cleanup global files at the end of the chain
        ##########################################
        job.delete()            
예제 #6
0
 def run(self):
     chunks = self.getChunks(self.sequenceFiles1, makeSubDir(os.path.join(self.getGlobalTempDir(), "chunks")))
     logger.info("Broken up the sequence files into individual 'chunk' files")
     self.addChildTarget(MakeBlastsAllAgainstAll(self.blastOptions, chunks, self.finalResultsFile))
예제 #7
0
def main():
    sys.path.append(sys.argv[1])
    sys.argv.remove(sys.argv[1])
    
    #Now we can import all the stuff..
    from sonLib.bioio import getBasicOptionParser
    from sonLib.bioio import parseBasicOptions
    from sonLib.bioio import logger
    from sonLib.bioio import addLoggingFileHandler, redirectLoggerStreamHandlers
    from sonLib.bioio import setLogLevel
    from sonLib.bioio import getTotalCpuTime, getTotalCpuTimeAndMemoryUsage
    from sonLib.bioio import getTempDirectory
    from sonLib.bioio import makeSubDir
    from jobTree.src.job import Job
    from jobTree.src.master import getEnvironmentFileName, getConfigFileName, listChildDirs, getTempStatsFile, setupJobAfterFailure
    from sonLib.bioio import system
    
    ########################################## 
    #Input args
    ##########################################
    
    jobTreePath = sys.argv[1]
    jobFile = sys.argv[2]
    
    ##########################################
    #Load the environment for the job
    ##########################################
    
    #First load the environment for the job.
    fileHandle = open(getEnvironmentFileName(jobTreePath), 'r')
    environment = cPickle.load(fileHandle)
    fileHandle.close()
    for i in environment:
        if i not in ("TMPDIR", "TMP", "HOSTNAME", "HOSTTYPE"):
            os.environ[i] = environment[i]
    # sys.path is used by __import__ to find modules
    if "PYTHONPATH" in environment:
        for e in environment["PYTHONPATH"].split(':'):
            if e != '':
                sys.path.append(e)
    #os.environ = environment
    #os.putenv(key, value)
        
    ##########################################
    #Setup the temporary directories.
    ##########################################
        
    #Dir to put all the temp files in.
    localSlaveTempDir = getTempDirectory()
    localTempDir = makeSubDir(os.path.join(localSlaveTempDir, "localTempDir"))
    
    ##########################################
    #Setup the logging
    ##########################################
    
    #Setup the logging. This is mildly tricky because we don't just want to
    #redirect stdout and stderr for this Python process; we want to redirect it
    #for this process and all children. Consequently, we can't just replace
    #sys.stdout and sys.stderr; we need to mess with the underlying OS-level
    #file descriptors. See <http://stackoverflow.com/a/11632982/402891>
    
    #When we start, standard input is file descriptor 0, standard output is
    #file descriptor 1, and standard error is file descriptor 2.

    #What file do we want to point FDs 1 and 2 to?    
    tempSlaveLogFile = os.path.join(localSlaveTempDir, "slave_log.txt")
    
    #Save the original stdout and stderr (by opening new file descriptors to the
    #same files)
    origStdOut = os.dup(1)
    origStdErr = os.dup(2)
    
    #Open the file to send stdout/stderr to.
    logDescriptor = os.open(tempSlaveLogFile, os.O_WRONLY | os.O_CREAT | os.O_APPEND)

    #Replace standard output with a descriptor for the log file
    os.dup2(logDescriptor, 1)
    
    #Replace standard error with a descriptor for the log file
    os.dup2(logDescriptor, 2)
    
    #Since we only opened the file once, all the descriptors duped from the
    #original will share offset information, and won't clobber each others'
    #writes. See <http://stackoverflow.com/a/5284108/402891>. This shouldn't
    #matter, since O_APPEND seeks to the end of the file before every write, but
    #maybe there's something odd going on...
    
    #Close the descriptor we used to open the file
    os.close(logDescriptor)
    
    for handler in list(logger.handlers): #Remove old handlers
        logger.removeHandler(handler)
    
    #Add the new handler. The sys.stderr stream has been redirected by swapping
    #the file descriptor out from under it.
    logger.addHandler(logging.StreamHandler(sys.stderr))

    #Put a message at the top of the log, just to make sure it's working.
    print "---JOBTREE SLAVE OUTPUT LOG---"
    sys.stdout.flush()
    
    #Log the number of open file descriptors so we can tell if we're leaking
    #them.
    logger.debug("Next available file descriptor: {}".format(
        nextOpenDescriptor()))
    
    ##########################################
    #Parse input files
    ##########################################
    
    config = ET.parse(getConfigFileName(jobTreePath)).getroot()
    setLogLevel(config.attrib["log_level"])
    job = Job.read(jobFile)
    job.messages = [] #This is the only way to stop messages logging twice, as are read only in the master
    job.children = [] #Similarly, this is where old children are flushed out.
    job.write() #Update status, to avoid reissuing children after running a follow on below.
    if os.path.exists(job.getLogFileName()): #This cleans the old log file
        os.remove(job.getLogFileName())
    logger.info("Parsed arguments and set up logging")

     #Try loop for slave logging
    ##########################################
    #Setup the stats, if requested
    ##########################################
    
    if config.attrib.has_key("stats"):
        startTime = time.time()
        startClock = getTotalCpuTime()
        stats = ET.Element("slave")
    else:
        stats = None
    
    ##########################################
    #The max time 
    ##########################################
    
    maxTime = float(config.attrib["job_time"])
    assert maxTime > 0.0
    assert maxTime < sys.maxint

    ##########################################
    #Slave log file trapped from here on in
    ##########################################

    slaveFailed = False
    try:
        
        ##########################################
        #The next job
        ##########################################
        
        def globalTempDirName(job, depth):
            return job.getGlobalTempDirName() + str(depth)
        
        command, memoryAvailable, cpuAvailable, depth = job.followOnCommands[-1]
        defaultMemory = int(config.attrib["default_memory"])
        defaultCpu = int(config.attrib["default_cpu"])
        assert len(job.children) == 0
        
        startTime = time.time() 
        while True:
            job.followOnCommands.pop()
            
            ##########################################
            #Global temp dir
            ##########################################
            
            globalTempDir = makeSubDir(globalTempDirName(job, depth))
            i = 1
            while os.path.isdir(globalTempDirName(job, depth+i)):
                system("rm -rf %s" % globalTempDirName(job, depth+i))
                i += 1
                
            ##########################################
            #Old children, not yet deleted
            #
            #These may exist because of the lazy cleanup
            #we do
            ##########################################
        
            for childDir in listChildDirs(job.jobDir):
                logger.debug("Cleaning up old child %s" % childDir)
                system("rm -rf %s" % childDir)
        
            ##########################################
            #Run the job
            ##########################################
        
            if command != "": #Not a stub
                if command[:11] == "scriptTree ":
                    ##########################################
                    #Run the target
                    ##########################################
                    
                    loadStack(command).execute(job=job, stats=stats,
                                    localTempDir=localTempDir, globalTempDir=globalTempDir, 
                                    memoryAvailable=memoryAvailable, cpuAvailable=cpuAvailable, 
                                    defaultMemory=defaultMemory, defaultCpu=defaultCpu, depth=depth)
            
                else: #Is another command
                    system(command) 
            
            ##########################################
            #Cleanup/reset a successful job/checkpoint
            ##########################################
            
            job.remainingRetryCount = int(config.attrib["try_count"])
            system("rm -rf %s/*" % (localTempDir))
            job.update(depth=depth, tryCount=job.remainingRetryCount)
            
            ##########################################
            #Establish if we can run another job
            ##########################################
            
            if time.time() - startTime > maxTime:
                logger.info("We are breaking because the maximum time the job should run for has been exceeded")
                break
            
            #Deal with children
            if len(job.children) >= 1:  #We are going to have to return to the parent
                logger.info("No more jobs can run in series by this slave, its got %i children" % len(job.children))
                break
            
            if len(job.followOnCommands) == 0:
                logger.info("No more jobs can run by this slave as we have exhausted the follow ons")
                break
            
            #Get the next job and see if we have enough cpu and memory to run it..
            command, memory, cpu, depth = job.followOnCommands[-1]
            
            if memory > memoryAvailable:
                logger.info("We need more memory for the next job, so finishing")
                break
            if cpu > cpuAvailable:
                logger.info("We need more cpus for the next job, so finishing")
                break
            
            logger.info("Starting the next job")
        
        ##########################################
        #Finish up the stats
        ##########################################
        
        if stats != None:
            totalCpuTime, totalMemoryUsage = getTotalCpuTimeAndMemoryUsage()
            stats.attrib["time"] = str(time.time() - startTime)
            stats.attrib["clock"] = str(totalCpuTime - startClock)
            stats.attrib["memory"] = str(totalMemoryUsage)
            tempStatsFile = getTempStatsFile(jobTreePath)
            fileHandle = open(tempStatsFile + ".new", "w")
            ET.ElementTree(stats).write(fileHandle)
            fileHandle.close()
            os.rename(tempStatsFile + ".new", tempStatsFile) #This operation is atomic
        
        logger.info("Finished running the chain of jobs on this node, we ran for a total of %f seconds" % (time.time() - startTime))
    
    ##########################################
    #Where slave goes wrong
    ##########################################
    except: #Case that something goes wrong in slave
        traceback.print_exc()
        logger.critical("Exiting the slave because of a failed job on host %s", socket.gethostname())
        job = Job.read(jobFile)
        setupJobAfterFailure(job, config)
        job.write()
        slaveFailed = True

    ##########################################
    #Cleanup
    ##########################################
    
    #Close the slave logging
    #Flush at the Python level
    sys.stdout.flush()
    sys.stderr.flush()
    #Flush at the OS level
    os.fsync(1)
    os.fsync(2)
    
    #Close redirected stdout and replace with the original standard output.
    os.dup2(origStdOut, 1)
    
    #Close redirected stderr and replace with the original standard error.
    os.dup2(origStdOut, 2)
    
    #sys.stdout and sys.stderr don't need to be modified at all. We don't need
    #to call redirectLoggerStreamHandlers since they still log to sys.stderr
    
    #Close our extra handles to the original standard output and standard error
    #streams, so we don't leak file handles.
    os.close(origStdOut)
    os.close(origStdErr)
    
    #Now our file handles are in exactly the state they were in before.
    
    #Copy back the log file to the global dir, if needed
    if slaveFailed:
        truncateFile(tempSlaveLogFile)
        system("mv %s %s" % (tempSlaveLogFile, job.getLogFileName()))
    #Remove the temp dir
    system("rm -rf %s" % localSlaveTempDir)
    
    #This must happen after the log file is done with, else there is no place to put the log
    if (not slaveFailed) and len(job.followOnCommands) == 0 and len(job.children) == 0 and len(job.messages) == 0:
        ##########################################
        #Cleanup global files at the end of the chain
        ##########################################
        job.delete()