Exemplo n.º 1
0
    def initialize(self):
        """
        Initialise the processing
        """
        # Get the start time
        start_time = time()

        # Ensure the reflections contain bounding boxes
        assert "bbox" in self.reflections, "Reflections have no bbox"

        if self.params.mp.nproc is libtbx.Auto:
            self.params.mp.nproc = available_cores()
            logger.info("Setting nproc={}".format(self.params.mp.nproc))

        # Compute the block size and processors
        self.compute_jobs()
        self.split_reflections()
        self.compute_processors()

        # Create the reflection manager
        self.manager = ReflectionManager(self.jobs, self.reflections)

        # Parallel reading of HDF5 from the same handle is not allowed. Python
        # multiprocessing is a bit messed up and used fork on linux so need to
        # close and reopen file.
        for exp in self.experiments:
            if exp.imageset.reader().is_single_file_reader():
                exp.imageset.reader().nullify_format_instance()

        # Set the initialization time
        self.time.initialize = time() - start_time
Exemplo n.º 2
0
    def initialize(self):
        """
        Initialise the processing
        """
        # Get the start time
        start_time = time()

        # Ensure the reflections contain bounding boxes
        assert "bbox" in self.reflections, "Reflections have no bbox"

        if self.params.mp.nproc is libtbx.Auto:
            self.params.mp.nproc = available_cores()
            logger.info(f"Setting nproc={self.params.mp.nproc}")

        # Compute the block size and processors
        self.compute_jobs()
        self.split_reflections()
        self.compute_processors()

        # Create the reflection manager
        self.manager = ReflectionManager(self.jobs, self.reflections)

        # Set the initialization time
        self.time.initialize = time() - start_time
Exemplo n.º 3
0
    def _find_spots(self, imageset):
        """
        Find the spots in the imageset

        :param imageset: The imageset to process
        :return: The list of spot shoeboxes
        """
        # Change the number of processors if necessary
        mp_nproc = self.mp_nproc
        mp_njobs = self.mp_njobs
        if mp_nproc is libtbx.Auto:
            mp_nproc = available_cores()
            logger.info(f"Setting nproc={mp_nproc}")
        if mp_nproc * mp_njobs > len(imageset):
            mp_nproc = min(mp_nproc, len(imageset))
            mp_njobs = int(math.ceil(len(imageset) / mp_nproc))

        mp_method = self.mp_method
        mp_chunksize = self.mp_chunksize

        if mp_chunksize is libtbx.Auto:
            mp_chunksize = self._compute_chunksize(len(imageset),
                                                   mp_njobs * mp_nproc,
                                                   self.min_chunksize)
            logger.info("Setting chunksize=%i", mp_chunksize)

        len_by_nproc = int(math.floor(len(imageset) / (mp_njobs * mp_nproc)))
        if mp_chunksize > len_by_nproc:
            mp_chunksize = len_by_nproc
        if mp_chunksize == 0:
            mp_chunksize = 1
        assert mp_nproc > 0, "Invalid number of processors"
        assert mp_njobs > 0, "Invalid number of jobs"
        assert mp_njobs == 1 or mp_method is not None, "Invalid cluster method"
        assert mp_chunksize > 0, "Invalid chunk size"

        # The extract pixels function
        function = ExtractPixelsFromImage(
            imageset=imageset,
            threshold_function=self.threshold_function,
            mask=self.mask,
            max_strong_pixel_fraction=self.max_strong_pixel_fraction,
            compute_mean_background=self.compute_mean_background,
            region_of_interest=self.region_of_interest,
        )

        # The indices to iterate over
        indices = list(range(len(imageset)))

        # Initialise the pixel labeller
        num_panels = len(imageset.get_detector())
        pixel_labeller = [PixelListLabeller() for p in range(num_panels)]

        # Do the processing
        logger.info("Extracting strong pixels from images")
        if mp_njobs > 1:
            logger.info(
                " Using %s with %d parallel job(s) and %d processes per node\n",
                mp_method,
                mp_njobs,
                mp_nproc,
            )
        else:
            logger.info(" Using multiprocessing with %d parallel job(s)\n",
                        mp_nproc)
        if mp_nproc > 1 or mp_njobs > 1:

            def process_output(result):
                rehandle_cached_records(result[1])
                assert len(pixel_labeller) == len(
                    result[0]), "Inconsistent size"
                for plabeller, plist in zip(pixel_labeller, result[0]):
                    plabeller.add(plist)

            batch_multi_node_parallel_map(
                func=ExtractSpotsParallelTask(function),
                iterable=indices,
                nproc=mp_nproc,
                njobs=mp_njobs,
                cluster_method=mp_method,
                chunksize=mp_chunksize,
                callback=process_output,
            )
        else:
            for task in indices:
                result = function(task)
                assert len(pixel_labeller) == len(result), "Inconsistent size"
                for plabeller, plist in zip(pixel_labeller, result):
                    plabeller.add(plist)
                result.clear()

        # Create shoeboxes from pixel list
        return pixel_list_to_reflection_table(
            imageset,
            pixel_labeller,
            filter_spots=self.filter_spots,
            min_spot_size=self.min_spot_size,
            max_spot_size=self.max_spot_size,
            write_hot_pixel_mask=self.write_hot_pixel_mask,
        )