This documentation is for an old version of OpenDP.

The current release of OpenDP is v0.11.1.

Source code for opendp.core

# Auto-generated. Do not edit.
from opendp._convert import *
from opendp._lib import *
from opendp.mod import *
from opendp.typing import *

__all__ = [
    "_error_free",
    "_transformation_free",
    "_measurement_free",
    "transformation_check",
    "measurement_check",
    "measurement_invoke",
    "transformation_invoke",
    "transformation_input_carrier_type",
    "measurement_input_carrier_type",
    "transformation_input_distance_type",
    "transformation_output_distance_type",
    "measurement_input_distance_type",
    "measurement_output_distance_type"
]


def _error_free(
    error: FfiError
) -> bool:
    """Internal function. Free the memory associated with `error`.
    
    :param error: 
    :type error: FfiError
    :return: true indicates successful free
    :rtype: bool
    :raises AssertionError: if an argument's type differs from the expected type
    :raises UnknownTypeError: if a type-argument fails to parse
    """
    # No type arguments to standardize.
    # No arguments to convert to c types.
    # Call library function.
    function = lib.opendp_core___error_free
    function.argtypes = [ctypes.POINTER(FfiError)]
    function.restype = ctypes.c_bool
    
    return c_to_py(function(error))


def _transformation_free(
    transformation: Transformation
):
    """Internal function. Free the memory associated with `transformation`.
    
    :param transformation: 
    :type transformation: Transformation
    :raises AssertionError: if an argument's type differs from the expected type
    :raises UnknownTypeError: if a type-argument fails to parse
    :raises OpenDPException: packaged error from the core OpenDP library
    """
    # No type arguments to standardize.
    # No arguments to convert to c types.
    # Call library function.
    function = lib.opendp_core___transformation_free
    function.argtypes = [Transformation]
    function.restype = FfiResult
    
    return c_to_py(unwrap(function(transformation), ctypes.c_void_p))


def _measurement_free(
    measurement: Measurement
):
    """Internal function. Free the memory associated with `measurement`.
    
    :param measurement: 
    :type measurement: Measurement
    :raises AssertionError: if an argument's type differs from the expected type
    :raises UnknownTypeError: if a type-argument fails to parse
    :raises OpenDPException: packaged error from the core OpenDP library
    """
    # No type arguments to standardize.
    # No arguments to convert to c types.
    # Call library function.
    function = lib.opendp_core___measurement_free
    function.argtypes = [Measurement]
    function.restype = FfiResult
    
    return c_to_py(unwrap(function(measurement), ctypes.c_void_p))


[docs] def transformation_check( transformation: Transformation, d_in: Any, d_out: Any ) -> bool: """Check the stability relation of the `transformation` at the given `d_in`, `d_out`. :param transformation: Transformation to check the stability relation of. :type transformation: Transformation :param d_in: Distance in terms of the input metric. :type d_in: Any :param d_out: Distance in terms of the output metric. :type d_out: Any :return: True indicates that the relation passed at the given distance. :rtype: bool :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. transformation = py_to_c(transformation, c_type=Transformation) d_in = py_to_c(d_in, c_type=AnyObjectPtr, type_name=transformation_input_distance_type(transformation)) d_out = py_to_c(d_out, c_type=AnyObjectPtr, type_name=transformation_output_distance_type(transformation)) # Call library function. function = lib.opendp_core__transformation_check function.argtypes = [Transformation, AnyObjectPtr, AnyObjectPtr] function.restype = FfiResult return c_to_py(unwrap(function(transformation, d_in, d_out), BoolPtr))
[docs] def measurement_check( measurement: Measurement, d_in: Any, d_out: Any ) -> bool: """Check the privacy relation of the `measurement` at the given `d_in`, `d_out`. :param measurement: Measurement to check the privacy relation of. :type measurement: Measurement :param d_in: Distance in terms of the input metric. :type d_in: Any :param d_out: Distance in terms of the output measure. :type d_out: Any :return: True indicates that the relation passed at the given distance. :rtype: bool :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. measurement = py_to_c(measurement, c_type=Measurement) d_in = py_to_c(d_in, c_type=AnyObjectPtr, type_name=measurement_input_distance_type(measurement)) d_out = py_to_c(d_out, c_type=AnyObjectPtr, type_name=measurement_output_distance_type(measurement)) # Call library function. function = lib.opendp_core__measurement_check function.argtypes = [Measurement, AnyObjectPtr, AnyObjectPtr] function.restype = FfiResult return c_to_py(unwrap(function(measurement, d_in, d_out), BoolPtr))
[docs] def measurement_invoke( measurement: Measurement, arg: Any ) -> Any: """Invoke the `measurement` with `arg`. Returns a differentially private release. :param measurement: Measurement to invoke. :type measurement: Measurement :param arg: Input data to supply to the measurement. A member of the measurement's input domain. :type arg: Any :return: Differentially private release. :rtype: Any :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. measurement = py_to_c(measurement, c_type=Measurement) arg = py_to_c(arg, c_type=AnyObjectPtr, type_name=measurement_input_carrier_type(measurement)) # Call library function. function = lib.opendp_core__measurement_invoke function.argtypes = [Measurement, AnyObjectPtr] function.restype = FfiResult return c_to_py(unwrap(function(measurement, arg), AnyObjectPtr))
[docs] def transformation_invoke( transformation: Transformation, arg: Any ) -> Any: """Invoke the `transformation` with `arg`. The response is not differentially private as it has not been chained with a measurement. :param transformation: Transformation to invoke. :type transformation: Transformation :param arg: Input data to supply to the measurement. A member of the transformations's input domain. :type arg: Any :return: Non-differentially private answer to the query. :rtype: Any :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. transformation = py_to_c(transformation, c_type=Transformation) arg = py_to_c(arg, c_type=AnyObjectPtr, type_name=transformation_input_carrier_type(transformation)) # Call library function. function = lib.opendp_core__transformation_invoke function.argtypes = [Transformation, AnyObjectPtr] function.restype = FfiResult return c_to_py(unwrap(function(transformation, arg), AnyObjectPtr))
[docs] def transformation_input_carrier_type( transformation: Transformation ) -> str: """Get the input (carrier) data type of `transformation`. :param transformation: The transformation to retrieve the type from. :type transformation: Transformation :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. transformation = py_to_c(transformation, c_type=Transformation) # Call library function. function = lib.opendp_core__transformation_input_carrier_type function.argtypes = [Transformation] function.restype = FfiResult return c_to_py(unwrap(function(transformation), ctypes.c_char_p))
[docs] def measurement_input_carrier_type( measurement: Measurement ) -> str: """Get the input (carrier) data type of `measurement`. :param measurement: The measurement to retrieve the type from. :type measurement: Measurement :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. measurement = py_to_c(measurement, c_type=Measurement) # Call library function. function = lib.opendp_core__measurement_input_carrier_type function.argtypes = [Measurement] function.restype = FfiResult return c_to_py(unwrap(function(measurement), ctypes.c_char_p))
[docs] def transformation_input_distance_type( transformation: Transformation ) -> str: """Get the input distance type of `transformation`. :param transformation: The transformation to retrieve the type from. :type transformation: Transformation :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. transformation = py_to_c(transformation, c_type=Transformation) # Call library function. function = lib.opendp_core__transformation_input_distance_type function.argtypes = [Transformation] function.restype = FfiResult return c_to_py(unwrap(function(transformation), ctypes.c_char_p))
[docs] def transformation_output_distance_type( transformation: Transformation ) -> str: """Get the output distance type of `transformation`. :param transformation: The transformation to retrieve the type from. :type transformation: Transformation :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. transformation = py_to_c(transformation, c_type=Transformation) # Call library function. function = lib.opendp_core__transformation_output_distance_type function.argtypes = [Transformation] function.restype = FfiResult return c_to_py(unwrap(function(transformation), ctypes.c_char_p))
[docs] def measurement_input_distance_type( measurement: Measurement ) -> str: """Get the input distance type of `measurement`. :param measurement: The measurement to retrieve the type from. :type measurement: Measurement :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. measurement = py_to_c(measurement, c_type=Measurement) # Call library function. function = lib.opendp_core__measurement_input_distance_type function.argtypes = [Measurement] function.restype = FfiResult return c_to_py(unwrap(function(measurement), ctypes.c_char_p))
[docs] def measurement_output_distance_type( measurement: Measurement ) -> str: """Get the output distance type of `measurement`. :param measurement: The measurement to retrieve the type from. :type measurement: Measurement :rtype: str :raises AssertionError: if an argument's type differs from the expected type :raises UnknownTypeError: if a type-argument fails to parse :raises OpenDPException: packaged error from the core OpenDP library """ # No type arguments to standardize. # Convert arguments to c types. measurement = py_to_c(measurement, c_type=Measurement) # Call library function. function = lib.opendp_core__measurement_output_distance_type function.argtypes = [Measurement] function.restype = FfiResult return c_to_py(unwrap(function(measurement), ctypes.c_char_p))