Пример #1
0
def single_layer(
    space, points, wavenumber, parameters=None, device_interface=None, precision=None
):
    """Return a Helmholtz single-layer potential operator."""
    from bempp.core.dense_potential_assembler import DensePotentialAssembler
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.operators import _add_wavenumber
    from bempp.api.assembly.potential_operator import PotentialOperator

    options = {"KERNEL_FUNCTION": "helmholtz_single_layer"}
    _add_wavenumber(options, wavenumber)

    return PotentialOperator(
        DensePotentialAssembler(
            space,
            OperatorDescriptor(
                "helmholtz_single_layer_potential", options, "default_dense"
            ),
            points,
            1,
            True,
            device_interface,
            precision,
            parameters=parameters,
        )
    )
Пример #2
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def double_layer(
    space,
    points,
    parameters=None,
    assembler="dense",
    device_interface=None,
    precision=None,
):
    """Return a Laplace single-layer potential operator."""
    import bempp.api
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.assembly.potential_operator import PotentialOperator
    from bempp.api.assembly.assembler import PotentialAssembler

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    operator_descriptor = OperatorDescriptor(
        "laplace_double_layer_potential",  # Identifier
        [],  # Options
        "laplace_double_layer",  # Kernel type
        "default_scalar",  # Assembly type
        precision,  # Precision
        False,  # Is complex
        None,  # Singular part
        1,  # Kernel dimension
    )

    return PotentialOperator(
        PotentialAssembler(space, points, operator_descriptor,
                           device_interface, assembler, parameters))
Пример #3
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def electric_field(
    space,
    points,
    wavenumber,
    parameters=None,
    assembler="dense",
    device_interface=None,
    precision=None,
):
    """Return a Maxwell electric far-field potential operator."""
    import bempp.api
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.assembly.potential_operator import PotentialOperator
    from bempp.api.assembly.assembler import PotentialAssembler

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    operator_descriptor = OperatorDescriptor(
        "maxwell_far_field_electric_field_potential",  # Identifier
        [_np.real(wavenumber), _np.imag(wavenumber)],  # Options
        "helmholtz_far_field_single_layer",  # Kernel type
        "maxwell_electric_far_field",  # Assembly type
        precision,  # Precision
        True,  # Is complex
        None,  # Singular part
        3,  # Kernel dimension
    )

    return PotentialOperator(
        PotentialAssembler(space, points, operator_descriptor,
                           device_interface, assembler, parameters))
Пример #4
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def create_operator(
    identifier,
    domain,
    range_,
    dual_to_range,
    parameters,
    assembler,
    operator_options,
    compute_kernel,
    device_interface,
    precision,
):
    """Generic instantiation of operators."""
    from bempp.api.operators import OperatorDescriptor
    from bempp.api import default_device
    from bempp.api import get_precision

    if device_interface is None:
        device_interface = default_device()

    if precision is None:
        precision = get_precision(device_interface)

    assembler = _assembler.AssemblerInterface(domain, dual_to_range, assembler,
                                              device_interface, precision,
                                              parameters)

    descriptor = OperatorDescriptor(identifier, operator_options,
                                    compute_kernel)
    return _boundary_operator.BoundaryOperatorWithAssembler(
        domain, range_, dual_to_range, assembler, descriptor)
Пример #5
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def magnetic_field(space,
                   points,
                   wavenumber,
                   parameters=None,
                   device_interface=None,
                   precision=None):
    """Return a Maxwell magnetic far-field potential operator."""
    from bempp.core.dense_potential_assembler import DensePotentialAssembler
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.operators import _add_wavenumber
    from bempp.api.assembly.potential_operator import PotentialOperator

    options = {}
    _add_wavenumber(options, wavenumber)

    return PotentialOperator(
        DensePotentialAssembler(
            space,
            OperatorDescriptor("maxwell_magnetic_far_field", options,
                               "maxwell_magnetic_far_field"),
            points,
            3,
            True,
            device_interface,
            precision,
            parameters=parameters,
        ))
Пример #6
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def create_operator(
    identifier,
    domain,
    range_,
    dual_to_range,
    parameters,
    assembler,
    operator_options,
    kernel_type,
    assembly_type,
    device_interface,
    precision,
    is_complex,
):
    """Generic instantiation of operators."""
    from bempp.api.operators import OperatorDescriptor
    import bempp.api

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    if assembler != "only_singular_part":
        # Add operator for singular part assembly. Needed for certain fast methods.
        singular_part = create_operator(
            identifier,
            domain,
            range_,
            dual_to_range,
            parameters,
            "only_singular_part",
            operator_options,
            kernel_type,
            assembly_type,
            device_interface,
            precision,
            is_complex,
        )
    else:
        singular_part = None

    assembler = _assembler.AssemblerInterface(
        domain, dual_to_range, assembler, device_interface, precision, parameters
    )

    kernel_dimension = 1

    descriptor = OperatorDescriptor(
        identifier,
        operator_options,
        kernel_type,
        assembly_type,
        precision,
        is_complex,
        singular_part,
        kernel_dimension,
    )
    return _boundary_operator.BoundaryOperatorWithAssembler(
        domain, range_, dual_to_range, assembler, descriptor
    )
Пример #7
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def double_layer(
    space,
    points,
    wavenumber,
    parameters=None,
    assembler="dense",
    device_interface=None,
    precision=None,
):
    """Return a Helmholtz double-layer potential operator."""
    import bempp.api
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.assembly.potential_operator import PotentialOperator
    from bempp.api.assembly.assembler import PotentialAssembler
    from .modified_helmholtz import double_layer as modified_double_layer

    if _np.real(wavenumber) == 0:
        return modified_double_layer(
            space,
            points,
            wavenumber,
            parameters,
            assembler,
            device_interface,
            precision,
        )

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    operator_descriptor = OperatorDescriptor(
        "helmholtz_double_layer_potential",  # Identifier
        [_np.real(wavenumber), _np.imag(wavenumber)],  # Options
        "helmholtz_double_layer",  # Kernel type
        "default_scalar",  # Assembly type
        precision,  # Precision
        True,  # Is complex
        None,  # Singular part
        1,  # Kernel dimension
    )

    return PotentialOperator(
        PotentialAssembler(space, points, operator_descriptor,
                           device_interface, assembler, parameters))
Пример #8
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def double_layer(
    space,
    points,
    omega,
    parameters=None,
    assembler="dense",
    device_interface=None,
    precision=None,
):
    """Return a modified Helmholtz double-layer potential operator."""
    import bempp.api
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.assembly.potential_operator import PotentialOperator
    from bempp.api.assembly.assembler import PotentialAssembler

    if _np.imag(omega) != 0:
        raise ValueError("'omega' must be real.")

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    operator_descriptor = OperatorDescriptor(
        "modified_helmholtz_double_layer_potential",  # Identifier
        [omega],  # Options
        "modified_helmholtz_double_layer",  # Kernel type
        "default_scalar",  # Assembly type
        precision,  # Precision
        False,  # Is complex
        None,  # Singular part
        1,  # Kernel dimension
    )

    return PotentialOperator(
        PotentialAssembler(
            space, points, operator_descriptor, device_interface, assembler, parameters
        )
    )
Пример #9
0
def magnetic_field(
    space,
    points,
    wavenumber,
    parameters=None,
    assembler="dense",
    device_interface=None,
    precision=None,
):
    """Return a Maxwell magnetic field potential operator."""
    from bempp.api.operators import OperatorDescriptor
    from bempp.api.assembly.potential_operator import PotentialOperator
    from bempp.api.assembly.assembler import PotentialAssembler
    import bempp.api

    if space.identifier != "rwg0":
        raise ValueError("Space must be an RWG type function space.")

    if precision is None:
        precision = bempp.api.DEFAULT_PRECISION

    operator_descriptor = OperatorDescriptor(
        "maxwell_magnetic_field_potential",  # Identifier
        [_np.real(wavenumber), _np.imag(wavenumber)],  # Options
        "helmholtz_single_layer",  # Kernel type
        "maxwell_magnetic_field",  # Assembly type
        precision,  # Precision
        True,  # Is complex
        None,  # Singular part
        3,  # Kernel dimension
    )

    return PotentialOperator(
        PotentialAssembler(
            space, points, operator_descriptor, device_interface, assembler, parameters
        )
    )