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Brett Smith, 09/23/2014 02:02 PM
fix bugs in first example script

Python SDK

(design draft)

Hypothetical future Crunch scripts

We're writing these out with the goal of designing a new SDK for Crunch script authors.

Example scripts

Example: "Normalize" files matching a regexp

#!/usr/bin/env python

from arvados import CrunchJob

import examplelib
import re

class NormalizeMatchingFiles(CrunchJob):
    def grep_files(self):
        # CrunchJob instantiates input parameters based on the
        # dataclass attribute.  When we ask for the input parameter,
        # CrunchJob sees that it's a Collection, and returns a
        # CollectionReader object.
        input_collection = self.job_param('input')
        for filename in input_collection.filenames():
            self.grep_file(self.job_param('pattern'), input_collection, filename)

    def grep_file(self, pattern, collection, filename):
        regexp = re.compile(pattern)
        with as in_file:
            for line in in_file:

    # examplelib is already multi-threaded and will peg the whole
    # compute node.  These tasks should run sequentially.
    # When tasks are created, Arvados-specific objects like Collection file
    # objects are serialized as task parameters.  CrunchJob instantiates
    # these parameters as real objects when it runs the task.
    def normalize(self, collection_file):
        output = examplelib.frob(collection_file.mount_path())
        # self.output is a CollectionWriter.  When this task method finishes,
        # CrunchJob checks if we wrote anything to it.  If so, it takes care
        # of finishing the upload process, and sets this task's output to the
        # Collection UUID.
        with as out_file:

if __name__ == '__main__':

Example: Crunch statistics on a Collection of fastj files indicating a tumor

This demonstrates scheduling tasks in order and explicit job output.

#!/usr/bin/env python

import glob
import os
import pprint

from arvados import CrunchJob
from subprocess import check_call

class TumorAnalysis(CrunchJob):
    OUT_EXT = '.analysis'

    def check_fastjs(self):
        in_coll = self.job_param('input')
        for name in in_coll.filenames():
            if name.endswith('.fastj'):
                self.classify(in_coll, name)
        # analyze_tumors gets scheduled to run after all the classification,
        # since they're not parallel with each other (and it was invoked later).

    def classify(self, collection, filename):
        # Methods that refer to directories, like mount_path and job_dir,
        # work like os.path.join when you pass them arguments.
        check_call(['normal_or_tumor', collection.mount_path(filename)])
        outpath = filename + self.OUT_EXT
        with open(outpath) as result:
             is_tumor = 'tumor' in
        if is_tumor:
            os.rename(outpath, self.job_dir(outpath))

    def analyze_tumors(self):
        compiled = {}
        results = glob.glob(self.job_dir('*' + self.OUT_EXT))
        for outpath in results:
            with open(outpath) as outfile:
                compiled[thing] = ...  # Imagine this is a reduce-type step.
        # job_output is a CollectionWriter.  Writing to it overrides the
        # default behavior where job output is collated task output.
        with'compiled_numbers.log') as resultfile:
            pprint.pprint(compiled, resultfile)

if __name__ == '__main__':

Example from #3603

This is the script that Abram used to illustrate #3603.

#!/usr/bin/env python

from arvados import Collection, CrunchJob
from subprocess import check_call

class Example3603(CrunchJob):
    def parse_human_map(self):
        refpath = self.job_param('REFPATH').name
        for line in self.job_param('HUMAN_COLLECTION_LIST'):
            fastj_id, human_id = line.strip().split(',')
            self.run_ruler(refpath, fastj_id, human_id)

    def run_ruler(self, refpath, fastj_id, human_id):
        check_call(["tileruler", "--crunch", "--noterm", "abv",
                    "-human", human_id,
                    "-fastj-path", Collection(fastj_id).mount_path(),
                    "-lib-path", refpath])
        self.output.add('.')  # Or the path where tileruler writes output.

if __name__ == '__main__':


  • Important concurrency limits that job scripts must be able to express:
    • Task Z cannot start until all outputs/side effects of tasks W, X, Y are known/complete (e.g., because Z uses WXY's outputs as its inputs).
    • Task Y and Z cannot run on the same worker node without interfering with each other (e.g., due to RAM requirements).
  • In general, the output name is not known until the task is nearly finished. Frequently it is clearer to specify it when the task is queued, though. We should provide a convenient way to do this without any boilerplate in the queued task.
  • A second example that uses a "case" and "control" input (e.g., "tumor" and "normal") might help reveal features.
  • Should get more clear about how the output of the job (as opposed to the output of the last task) is to be set. The obvious way (concatenate all task outputs) should be a one-liner, if not implicit. Either way, it should run in a task rather than being left up to crunch-job.

Updated by Brett Smith over 8 years ago · 7 revisions