Source code for data_specification.data_specification_executor

# Copyright (c) 2017-2019 The University of Manchester
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program.  If not, see <>.

import logging
import struct
import functools
import numpy
from spinn_utilities.log import FormatAdapter
from .data_specification_executor_functions import (
from .constants import (
from .enums import Commands
from .exceptions import DataSpecificationException
from .memory_region_real import MemoryRegionReal

logger = FormatAdapter(logging.getLogger(__name__))
_ONE_WORD = struct.Struct("<I")

[docs]class DataSpecificationExecutor(object): """ Used to execute a SpiNNaker data specification language file to\ produce a memory image. """ __slots__ = [ # The object to read the specification language file "_spec_reader", # The executer functions "dsef" ] def __init__(self, spec_reader, memory_space): """ :param ~io.RawIOBase spec_reader: The object to read the specification language file from :param int memory_space: memory available on the destination architecture :raise IOError: If a read or write fails """ #: The object to read the specification to execute. self._spec_reader = spec_reader #: The executor functions themselves. self.dsef = DataSpecificationExecutorFunctions( self._spec_reader, memory_space) # TODO: make the dsef field a private detail of the executor # Currently accessed directly from FEC to get memory regions... def __operation_func(self, cmd, index): """ Decode the command and select an implementation of the command. """ try: opcode = (cmd >> 20) & 0xFF # noinspection PyArgumentList # pylint: disable=no-value-for-parameter return functools.partial(Commands(opcode).exec_function, self.dsef) except (ValueError, TypeError) as e: logger.debug("problem decoding opcode %d at index %d", cmd, index, exc_info=True) raise DataSpecificationException( "Invalid command 0x{0:X} while reading file {1:s}".format( cmd, self._spec_reader.filename)) from e
[docs] def execute(self): """ Executes the specification. This will result in a configuration \ of memory regions being done. :raise IOError: If a read or write fails :raise DataSpecificationException: If there is an error when executing the specification :raise TablePointerOutOfMemoryException: If the table pointer generated as data header exceeds the size of the available memory """ index = 0 instruction_spec = while instruction_spec: # process the received command cmd = _ONE_WORD.unpack(instruction_spec)[0] operation_fn = self.__operation_func(cmd, index) if operation_fn(cmd) == END_SPEC_EXECUTOR: break instruction_spec = index += 4
[docs] def get_region(self, region_id): """ Get a region with a given ID. :param int region_id: The ID of the region to get :return: The region, or None if the region was not allocated :rtype: MemoryRegionReal or None """ return self.dsef.mem_regions[region_id]
@property def mem_regions(self): """ An enumeration of the mapping from region ID to region holder. :rtype: iterable(tuple(int, MemoryRegion or None)) """ return enumerate(self.dsef.mem_regions)
[docs] def get_header(self): """ Get the header of the data as a numpy array. :rtype: numpy.ndarray """ return numpy.array([APPDATA_MAGIC_NUM, DSE_VERSION], dtype="<u4")
[docs] def get_pointer_table(self, start_address): """ Get the pointer table as a numpy array. :param int start_address: The base address of the data to be written :rtype: numpy.ndarray """ pointer_table = numpy.zeros(MAX_MEM_REGIONS, dtype="<u4") pointer_table_size = MAX_MEM_REGIONS * 4 next_free_offset = pointer_table_size + APP_PTR_TABLE_HEADER_BYTE_SIZE for i, region in self.mem_regions: if isinstance(region, MemoryRegionReal): pointer_table[i] = next_free_offset + start_address next_free_offset += region.allocated_size else: pointer_table[i] = 0 return pointer_table
@property def referenceable_regions(self): """ The regions that can be referenced by others :rtype: list(int) """ return self.dsef.referenceable_regions @property def references_to_fill(self): """ The references that need to be filled :rtype: list(int) """ return self.dsef.references_to_fill
[docs] def get_constructed_data_size(self): """ Return the size of the data that will be written to memory. :return: size of the data that will be written to memory :rtype: int """ return APP_PTR_TABLE_BYTE_SIZE + sum( region.allocated_size for _, region in self.mem_regions if isinstance(region, MemoryRegionReal))