Beispiel #1
0
def merge_parquet_task(task,
                       inputs,
                       output,
                       local=False,
                       cwd=None,
                       force=True,
                       writer_opts=None):
    """
    This method is intended to be used by tasks that are supposed to merge parquet files, e.g. when
    inheriting from :py:class:`law.contrib.tasks.MergeCascade`. *inputs* should be a sequence of
    targets that represent the files to merge into *output*. When *local* is *False* and files need
    to be copied from remote first, *cwd* can be a set as the dowload directory. When empty, a
    temporary directory is used. The *task* itself is used to print and publish messages via its
    :py:meth:`law.Task.publish_message` and :py:meth:`law.Task.publish_step` methods. When *force*
    is *True*, any existing output file is overwritten. *writer_opts* is forwarded to
    :py:func:`merge_parquet_files` which is used internally for the actual merging.
    """
    # ensure inputs are targets
    inputs = [
        LocalFileTarget(inp) if isinstance(inp, six.string_types) else inp
        for inp in inputs
    ]

    # ensure output is a target
    if isinstance(output, six.string_types):
        output = LocalFileTarget(output)

    def merge(inputs, output):
        with task.publish_step("merging {} parquet files ...".format(
                len(inputs)),
                               runtime=True):
            # clear the output if necessary
            if output.exists() and force:
                output.remove()

            if len(inputs) == 1:
                output.copy_from_local(inputs[0])
            else:
                # merge
                merge_parquet_files([inp.path for inp in inputs],
                                    output.path,
                                    writer_opts=writer_opts)

        # print the size
        output_size = human_bytes(output.stat().st_size, fmt=True)
        task.publish_message(f"merged file size: {output_size}")

    if local:
        # everything is local, just merge
        merge(inputs, output)

    else:
        # when not local, we need to fetch files first into the cwd
        if not cwd:
            cwd = LocalDirectoryTarget(is_tmp=True)
        elif isinstance(cwd, str):
            cwd = LocalDirectoryTarget(cwd)
        cwd.touch()

        # fetch
        with task.publish_step("fetching inputs ...", runtime=True):

            def fetch(inp):
                local_inp = cwd.child(inp.unique_basename, type="f")
                inp.copy_to_local(local_inp, cache=False)
                return local_inp

            def callback(i):
                task.publish_message("fetch file {} / {}".format(
                    i + 1, len(inputs)))

            local_inputs = map_verbose(fetch,
                                       inputs,
                                       every=5,
                                       callback=callback)

        # merge into a localized output
        with output.localize("w", cache=False) as local_output:
            merge(local_inputs, local_output)
Beispiel #2
0
def hadd_task(task, inputs, output, cwd=None, local=False, force=True):
    """
    This method is intended to be used by tasks that are supposed to merge root files, e.g. when
    inheriting from :py:class:`law.contrib.tasks.MergeCascade`. *inputs* should be a sequence of
    local targets that represent the files to merge into *output*. *cwd* is the working directory
    in which hadd is invoked. When empty, a temporary directory is used. The *task* itself is
    used to print and publish messages via its :py:meth:`law.Task.publish_message` and
    :py:meth:`law.Task.publish_step` methods.

    When *local* is *True*, the input and output targets are assumed to be local and the merging is
    based on their local paths. Otherwise, the targets are fetched first and the output target is
    localized.

    When *force* is *True*, any existing output file is overwritten (by adding the ``-f`` flag to
    ``hadd``).
    """
    # ensure inputs are targets
    inputs = [
        LocalFileTarget(inp) if isinstance(inp, six.string_types) else inp
        for inp in inputs
    ]

    # ensure output is a target
    if isinstance(output, six.string_types):
        output = LocalFileTarget(output)

    # default cwd
    if not cwd:
        cwd = LocalDirectoryTarget(is_tmp=True)
    elif isinstance(cwd, six.string_types):
        cwd = LocalDirectoryTarget(cwd)
    cwd.touch()

    # helper to create the hadd cmd
    def hadd_cmd(input_paths, output_path):
        cmd = ["hadd", "-n", "0"]
        if force:
            cmd.append("-f")
        cmd.extend(["-d", cwd.path])
        cmd.append(output_path)
        cmd.extend(input_paths)
        return quote_cmd(cmd)

    if local:
        # when local, there is no need to download inputs
        input_paths = [inp.path for inp in inputs]

        with task.publish_step("merging ...", runtime=True):
            if len(inputs) == 1:
                output.copy_from_local(inputs[0])
            else:
                # merge using hadd
                cmd = hadd_cmd(input_paths, output.path)
                code = interruptable_popen(cmd, shell=True, executable="/bin/bash")[0]
                if code != 0:
                    raise Exception("hadd failed")

        task.publish_message("merged file size: {}".format(human_bytes(
            output.stat.st_size, fmt=True)))

    else:
        # when not local, we need to fetch files first into the cwd
        with task.publish_step("fetching inputs ...", runtime=True):
            def fetch(inp):
                inp.copy_to_local(cwd.child(inp.unique_basename, type="f"), cache=False)
                return inp.unique_basename

            def callback(i):
                task.publish_message("fetch file {} / {}".format(i + 1, len(inputs)))

            bases = map_verbose(fetch, inputs, every=5, callback=callback)

        # start merging into the localized output
        with output.localize("w", cache=False) as tmp_out:
            with task.publish_step("merging ...", runtime=True):
                if len(bases) == 1:
                    tmp_out.path = cwd.child(bases[0]).path
                else:
                    # merge using hadd
                    cmd = hadd_cmd(bases, tmp_out.path)
                    code = interruptable_popen(cmd, shell=True, executable="/bin/bash",
                        cwd=cwd.path)[0]
                    if code != 0:
                        raise Exception("hadd failed")

                    task.publish_message("merged file size: {}".format(human_bytes(
                        tmp_out.stat.st_size, fmt=True)))