# type: ignore from . import util from __future__ import annotations import collections.abc import numpy import openvino._pyopenvino import typing """ Package ngraph.impl.op that wraps ov::op """ __all__ = ['Constant', 'Parameter', 'Result', 'assign', 'if_op', 'loop', 'read_value', 'tensor_iterator', 'util'] class Constant(openvino._pyopenvino.Node): """ openvino.op.Constant wraps ov::op::v0::Constant """ @typing.overload def __init__(self, array: numpy.ndarray[typing.Any, numpy.dtype[typing.Any]], shared_memory: bool = False) -> None: ... @typing.overload def __init__(self, tensor: openvino._pyopenvino.Tensor, shared_memory: bool = True) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[str]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[...]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsFloat]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsFloat]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape, arg2: collections.abc.Sequence[typing.SupportsInt]) -> None: ... def __repr__(self) -> str: ... def get_byte_size(self) -> int: ... def get_data(self, *, dtype: typing.Any = None, copy: bool = False) -> numpy.ndarray[typing.Any, numpy.dtype[typing.Any]]: """ Access to Constant's data. Returns numpy array with corresponding shape. Function tries to return a view by default, if not possible due to types mismatch (between the Constant's type and `dtype`) or when `copy=True`, then make a copy of data. If `dtype` is not specified, it's inherited from Constant itself. For Constants with OpenVINO specific element type, such as u1, it returns linear array (as view) with uint8 / int8 numpy dtype. In such cases if `dtype` is used, function also creates a copy and unpacks the data. Note: can be used to upcast BF16 data type to float32 or float64. :param dtype: Targeted data type. :type dtype: numpy.dtype, optional, keyword-only :param copy: Enable or disable copy of data. :type copy: bool, optional, keyword-only :rtype: numpy.array """ def get_strides(self) -> openvino._pyopenvino.Strides: """ Constant's strides in bytes. :rtype: openvino.Strides """ def get_tensor_view(self) -> openvino._pyopenvino.Tensor: """ Get view on constant data as tensor. :rtype: openvino.Tensor """ def get_value_strings(self) -> list[str]: ... def get_vector(self) -> numpy.ndarray[typing.Any, numpy.dtype[typing.Any]]: ... @property def data(self) -> numpy.ndarray[typing.Any, numpy.dtype[typing.Any]]: """ Access to Constant's data - creates a view of data. Returns numpy array with corresponding shape and dtype. For Constants with openvino specific element type, such as u1, it returns linear array, with uint8 / int8 numpy dtype. Note: this access method reflects shared memory if it was applied during initialization. :rtype: numpy.array """ @property def strides(self) -> openvino._pyopenvino.Strides: """ Constant's strides in bytes. :rtype: openvino.Strides """ @property def tensor_view(self) -> openvino._pyopenvino.Tensor: """ Get view on constant data as tensor. :rtype: openvino.Tensor """ class Parameter(openvino._pyopenvino.Node): """ openvino.op.Parameter wraps ov::op::v0::Parameter """ element_type: openvino._pyopenvino.Type layout: openvino._pyopenvino.Layout partial_shape: openvino._pyopenvino.PartialShape @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.Shape) -> None: ... @typing.overload def __init__(self, arg0: openvino._pyopenvino.Type, arg1: openvino._pyopenvino.PartialShape) -> None: ... @typing.overload def __repr__(self: openvino._pyopenvino.Node) -> str: ... @typing.overload def __repr__(self) -> str: ... def get_element_type(self) -> openvino._pyopenvino.Type: ... def get_layout(self) -> openvino._pyopenvino.Layout: ... @typing.overload def get_partial_shape(self) -> openvino._pyopenvino.PartialShape: ... @typing.overload def get_partial_shape(self) -> openvino._pyopenvino.PartialShape: ... def set_element_type(self, element_type: openvino._pyopenvino.Type) -> None: ... def set_layout(self, layout: openvino._pyopenvino.Layout) -> None: ... def set_partial_shape(self, partial_shape: openvino._pyopenvino.PartialShape) -> None: ... class Result(openvino._pyopenvino.Node): """ openvino.op.Result wraps ov::op::v0::Result """ layout: openvino._pyopenvino.Layout def __init__(self, arg0: openvino._pyopenvino.Output) -> None: ... def __repr__(self) -> str: ... def get_layout(self) -> openvino._pyopenvino.Layout: ... def get_output_element_type(self, index: typing.SupportsInt) -> openvino._pyopenvino.Type: ... def get_output_partial_shape(self, index: typing.SupportsInt) -> openvino._pyopenvino.PartialShape: ... def set_layout(self, layout: openvino._pyopenvino.Layout) -> None: ... class _PagedAttentionExtension(openvino._pyopenvino.Node): """ Experimental extention for PagedAttention operation. Use with care: no backward compatibility is guaranteed in future releases. """ def __init__(self, arg0: collections.abc.Sequence[openvino._pyopenvino.Output]) -> None: ... class assign(openvino._pyopenvino.Node): """ openvino.op.assign wraps ov::op::v6::Assign """ @typing.overload def __init__(self) -> None: ... @typing.overload def __init__(self, new_value: typing.Any, variable: util.Variable, name: str = '') -> None: ... @typing.overload def __init__(self, new_value: typing.Any, variable_id: str, name: str = '') -> None: ... def __repr__(self) -> str: ... def get_variable_id(self) -> str: """ Gets variable id. :return: variable id. :rtype: str """ class if_op(openvino._pyopenvino.Node): """ openvino.impl.op.If wraps ov::op::v0::If """ @typing.overload def __init__(self) -> None: ... @typing.overload def __init__(self, execution_condition: openvino._pyopenvino.Output) -> None: """ Constructs If with condition. :param execution_condition: condition node. :type execution_condition: openvino.Output :rtype: openvino.impl.op.If """ @typing.overload def __init__(self, execution_condition: openvino._pyopenvino.Node) -> None: """ Constructs If with condition. :param execution_condition: condition node. :type execution_condition: openvino.Node :rtype: openvino.impl.op.If """ def __repr__(self) -> str: ... def get_else_body(self) -> typing.Any: """ Gets else_body as Model object. :return: else_body as Model object. :rtype: openvino.Model """ def get_function(self, index: typing.SupportsInt) -> typing.Any: """ Gets internal sub-graph by index in MultiSubGraphOp. :param index: sub-graph's index in op. :type index: int :return: Model with sub-graph. :rtype: openvino.Model """ def get_input_descriptions(self, index: typing.SupportsInt) -> list: """ Gets list with connections between operation inputs and internal sub-graph parameters. :param index: index of internal sub-graph. :type index: int :return: list of input descriptions. :rtype: list[Union[openvino.op.util.MergedInputDescription, openvino.op.util.InvariantInputDescription, openvino.op.util.SliceInputDescription]] """ def get_output_descriptions(self, index: typing.SupportsInt) -> list: """ Gets list with connections between operation outputs and internal sub-graph parameters. :param index: index of internal sub-graph. :type index: int :return: list of output descriptions. :rtype: list[Union[openvino.op.util.BodyOutputDescription, openvino.op.util.ConcatOutputDescription]] """ def get_then_body(self) -> typing.Any: """ Gets then_body as Model object. :return: then_body as Model object. :rtype: openvino.Model """ def set_else_body(self, body: typing.Any) -> None: """ Sets new Model object as new else_body. :param body: new body for 'else' branch. :type body: openvino.Model :rtype: None """ def set_function(self, index: typing.SupportsInt, func: typing.Any) -> None: """ Adds sub-graph to MultiSubGraphOp. :param index: index of new sub-graph. :type index: int :param func: func new sub_graph as a Model. :type func: openvino.Model :rtype: None """ def set_input(self, value: openvino._pyopenvino.Output, then_parameter: Parameter, else_parameter: Parameter) -> None: """ Sets new input to the operation associated with parameters of each sub-graphs. :param value: input to operation. :type value: openvino.Output :param then_result: parameter for then_body or nullptr. :type then_result: openvino.Node :param else_result: parameter for else_body or nullptr. :type else_result: openvino.Node :rtype: None """ def set_input_descriptions(self, index: typing.SupportsInt, inputs: list) -> None: """ Sets list with connections between operation inputs and internal sub-graph parameters. :param index: index of internal sub-graph. :type index: int :param inputs: list of input descriptions. :type inputs: list[Union[openvino.op.util.MergedInputDescription, openvino.op.util.InvariantInputDescription, openvino.op.util.SliceInputDescription]] :rtype: None """ def set_output(self, then_result: Result, else_result: Result) -> openvino._pyopenvino.Output: """ Sets new output from the operation associated with results of each sub-graphs. :param then_result: result from then_body. :type then_result: op.Result :param else_result: result from else_body. :type else_result: op.Result :return: output from operation. :rtype: openvino.Output """ def set_output_descriptions(self, index: typing.SupportsInt, outputs: list) -> None: """ Sets list with connections between operation outputs and internal sub-graph parameters. :param index: index of internal sub-graph. :type index: int :param outputs: list of output descriptions. :type outputs: list[Union[openvino.op.util.BodyOutputDescription, openvino.op.util.ConcatOutputDescription]] :rtype: None """ def set_then_body(self, body: typing.Any) -> None: """ Sets new Model object as new then_body. :param body: new body for 'then' branch. :type body: openvino.Model :rtype: None """ class loop(openvino._pyopenvino.Node): """ openvino.impl.op.Loop wraps ov::op::v0::Loop """ @typing.overload def __init__(self) -> None: ... @typing.overload def __init__(self, trip_count: openvino._pyopenvino.Output, execution_condition: openvino._pyopenvino.Output) -> None: ... @typing.overload def __init__(self, trip_count: openvino._pyopenvino.Node, execution_condition: openvino._pyopenvino.Node) -> None: ... def __repr__(self) -> str: ... def get_concatenated_slices(self, value: openvino._pyopenvino.Output, start: typing.SupportsInt, stride: typing.SupportsInt, part_size: typing.SupportsInt, end: typing.SupportsInt, axis: typing.SupportsInt) -> openvino._pyopenvino.Output: ... def get_function(self) -> typing.Any: ... def get_input_descriptions(self) -> list: ... def get_iter_value(self, body_value: openvino._pyopenvino.Output, iteration: typing.SupportsInt = -1) -> openvino._pyopenvino.Output: ... def get_num_iterations(self) -> int: ... def get_output_descriptions(self) -> list: ... def get_special_body_ports(self) -> list: ... def set_function(self, func: typing.Any) -> None: ... def set_input_descriptions(self, inputs: list) -> None: ... def set_invariant_input(self, body_parameter: Parameter, value: openvino._pyopenvino.Output) -> None: ... def set_merged_input(self, body_parameter: Parameter, initial_value: openvino._pyopenvino.Output, successive_value: openvino._pyopenvino.Output) -> None: ... def set_output_descriptions(self, outputs: list) -> None: ... def set_sliced_input(self, parameter: Parameter, value: openvino._pyopenvino.Output, start: typing.SupportsInt, stride: typing.SupportsInt, part_size: typing.SupportsInt, end: typing.SupportsInt, axis: typing.SupportsInt) -> None: ... def set_special_body_ports(self, special_body_ports: list) -> None: ... class read_value(openvino._pyopenvino.Node): """ openvino.op.read_value wraps ov::op::v6::ReadValue """ @typing.overload def __init__(self) -> None: ... @typing.overload def __init__(self, new_value: typing.Any, variable: util.Variable) -> None: ... @typing.overload def __init__(self, variable: util.Variable) -> None: ... def __repr__(self) -> str: ... def get_variable_id(self) -> str: """ Gets variable id. :return: variable id. :rtype: str """ class tensor_iterator(openvino._pyopenvino.Node): """ openvino.impl.op.TensorIterator wraps ov::op::v0::TensorIterator """ def __init__(self) -> None: ... def __repr__(self) -> str: ... def get_body(self) -> typing.Any: ... def get_concatenated_slices(self, value: openvino._pyopenvino.Output, start: typing.SupportsInt, stride: typing.SupportsInt, part_size: typing.SupportsInt, end: typing.SupportsInt, axis: typing.SupportsInt) -> openvino._pyopenvino.Output: ... def get_function(self) -> typing.Any: ... def get_input_descriptions(self) -> list: ... def get_iter_value(self, body_value: openvino._pyopenvino.Output, iteration: typing.SupportsInt = -1) -> openvino._pyopenvino.Output: ... def get_num_iterations(self) -> int: ... def get_output_descriptions(self) -> list: ... def set_body(self, body: typing.Any) -> None: ... def set_function(self, func: typing.Any) -> None: ... def set_input_descriptions(self, inputs: list) -> None: ... def set_invariant_input(self, body_parameter: Parameter, value: openvino._pyopenvino.Output) -> None: ... def set_merged_input(self, body_parameter: Parameter, initial_value: openvino._pyopenvino.Output, successive_value: openvino._pyopenvino.Output) -> None: ... def set_output_descriptions(self, outputs: list) -> None: ... def set_sliced_input(self, parameter: Parameter, value: openvino._pyopenvino.Output, start: typing.SupportsInt, stride: typing.SupportsInt, part_size: typing.SupportsInt, end: typing.SupportsInt, axis: typing.SupportsInt) -> None: ...