def assert_close(
x, y, data=None, summarize=None, message=None, name="assert_close"):
"""Assert that that x and y are within machine epsilon of each other.
Args:
x: Numeric `Tensor`
y: Numeric `Tensor`
data: The tensors to print out if the condition is `False`. Defaults to
error message and first few entries of `x` and `y`.
summarize: Print this many entries of each tensor.
message: A string to prefix to the default message.
name: A name for this operation (optional).
Returns:
Op raising `InvalidArgumentError` if |x - y| > machine epsilon.
"""
message = message or ""
x = ops.convert_to_tensor(x, name="x")
y = ops.convert_to_tensor(y, name="y")
if x.dtype.is_integer:
return check_ops.assert_equal(
x, y, data=data, summarize=summarize, message=message, name=name)
with ops.name_scope(name, "assert_close", [x, y, data]):
tol = np.finfo(x.dtype.as_numpy_dtype).resolution
if data is None:
data = [
message,
"Condition x ~= y did not hold element-wise: x = ", x.name, x, "y = ",
y.name, y
]
condition = math_ops.reduce_all(math_ops.less_equal(math_ops.abs(x-y), tol))
return control_flow_ops.Assert(
condition, data, summarize=summarize)
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