Source code for spynnaker.pyNN.models.common.param_generator_data

# Copyright (c) 2022 The University of Manchester
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import numpy
from spinn_front_end_common.interface.ds import DataType
from pyNN.random import RandomDistribution, available_distributions
from spinn_front_end_common.utilities.constants import BYTES_PER_WORD


#: The generator param type for each data type
_GENERATOR_TYPES = {
    DataType.S1615: 0,
    DataType.UINT32: 1,
    DataType.INT32: 2,
    DataType.U032: 3
}




def get_generator_type(data_type):
    """
    :param ~data_specification.enums.DataType data_type:
    :return: The generator parameter type code for the given data type.
    :rtype: int
    :raises TypeError: If an unsupported data type is given
    """
    if data_type in _GENERATOR_TYPES:
        return _GENERATOR_TYPES[data_type]
    raise TypeError(f"Ungeneratable type {data_type}")





def type_has_generator(data_type):
    """
    :param ~data_specification.enums.DataType data_type:
    :return:
        Whether there is a generator parameter type code for the given data
        type.
    :rtype: bool
    """
    return data_type in _GENERATOR_TYPES



#: ID of the constant parameter generator.
PARAM_TYPE_CONSTANT_ID = 0

#: IDs of the random parameter generators supported by the synapse expander.
PARAM_TYPE_BY_NAME = {
    "uniform": 1,
    "uniform_int": 1,
    "normal": 2,
    "normal_clipped": 3,
    "normal_clipped_to_boundary": 4,
    "exponential": 5,
    "exponential_clipped": 6
}




def param_generator_id(value):
    """
    :param value: The value to examine the type of.
    :return: The ID of the on-chip generator that handles the value.
    :rtype: int
    :raises TypeError: If an value of an unsupported data type is given
    """
    # Scalars are fine on the machine
    if numpy.isscalar(value):
        return PARAM_TYPE_CONSTANT_ID

    # Only certain types of random distributions are supported for
    # generation on the machine
    if isinstance(value, RandomDistribution):
        if value.name in PARAM_TYPE_BY_NAME:
            return PARAM_TYPE_BY_NAME[value.name]

    raise TypeError(f"Ungeneratable parameter {value}")





def is_param_generatable(value):
    """
    :param value: The value to examine the type of.
    :return: Whether the value is of a type that can be generated on chip.
    :rtype: bool
    """
    if isinstance(value, str):
        return False
    if numpy.isscalar(value):
        return True
    return (isinstance(value, RandomDistribution) and
            value.name in PARAM_TYPE_BY_NAME)





def param_generator_params(values):
    """
    Get the parameter generator parameters as a numpy array.

    :param values:
    :type values: int or ~pyNN.random.RandomDistribution
    :rtype: ~numpy.ndarray
    """
    if numpy.isscalar(values):
        return numpy.array(
            [DataType.S1615.encode_as_int(values)],
            dtype=numpy.uint32)

    if isinstance(values, RandomDistribution):
        parameters = (
            values.parameters.get(param_name, None)
            for param_name in available_distributions[values.name])
        parameters = (
            DataType.S1615.max if param == numpy.inf
            else DataType.S1615.min if param == -numpy.inf else param
            for param in parameters if param is not None)
        params = [
            DataType.S1615.encode_as_int(param) for param in parameters]
        return numpy.array(params, dtype=numpy.uint32)

    raise ValueError(f"Unexpected value {values}")



#: At most, there are 4 words as param generator parameters
MAX_PARAMS_BYTES = 4 * BYTES_PER_WORD




def param_generator_params_size_in_bytes(values):
    """
    Get the size of the parameter generator parameters in bytes.

    :param values:
    :type values: int or ~pyNN.random.RandomDistribution
    :rtype: int
    :raises TypeError: If `values` is of an unsupported data type
    """
    if numpy.isscalar(values):
        return BYTES_PER_WORD

    if isinstance(values, RandomDistribution):
        parameters = available_distributions[values.name]
        return len(parameters) * BYTES_PER_WORD

    raise ValueError(f"Unexpected value {values}")