# Copyright 2015 The TensorFlow Authors. All Rights Reserved. # # 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 # # http://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. # ============================================================================== """Functions for Python 2 vs. 3 compatibility. ## Conversion routines In addition to the functions below, `as_str` converts an object to a `str`. ## Types The compatibility module also provides the following types: * `bytes_or_text_types` * `complex_types` * `integral_types` * `real_types` """ import numbers as _numbers import numpy as _np from tensorboard.compat.tensorflow_stub.compat.v1 import * # noqa def as_bytes(bytes_or_text, encoding="utf-8"): """Converts either bytes or unicode to `bytes`, using utf-8 encoding for text. Args: bytes_or_text: A `bytes`, `str`, or `unicode` object. encoding: A string indicating the charset for encoding unicode. Returns: A `bytes` object. Raises: TypeError: If `bytes_or_text` is not a binary or unicode string. """ if isinstance(bytes_or_text, str): return bytes_or_text.encode(encoding) elif isinstance(bytes_or_text, bytes): return bytes_or_text else: raise TypeError( "Expected binary or unicode string, got %r" % (bytes_or_text,) ) def as_text(bytes_or_text, encoding="utf-8"): """Returns the given argument as a unicode string. Args: bytes_or_text: A `bytes`, `str`, or `unicode` object. encoding: A string indicating the charset for decoding unicode. Returns: A `unicode` (Python 2) or `str` (Python 3) object. Raises: TypeError: If `bytes_or_text` is not a binary or unicode string. """ if isinstance(bytes_or_text, str): return bytes_or_text elif isinstance(bytes_or_text, bytes): return bytes_or_text.decode(encoding) else: raise TypeError( "Expected binary or unicode string, got %r" % bytes_or_text ) # Convert an object to a `str` in both Python 2 and 3. as_str = as_text # @tf_export('compat.as_str_any') def as_str_any(value): """Converts to `str` as `str(value)`, but use `as_str` for `bytes`. Args: value: A object that can be converted to `str`. Returns: A `str` object. """ if isinstance(value, bytes): return as_str(value) else: return str(value) # @tf_export('compat.path_to_str') def path_to_str(path): """Returns the file system path representation of a `PathLike` object, else as it is. Args: path: An object that can be converted to path representation. Returns: A `str` object. """ if hasattr(path, "__fspath__"): path = as_str_any(path.__fspath__()) return path # Numpy 1.8 scalars don't inherit from numbers.Integral in Python 3, so we # need to check them specifically. The same goes from Real and Complex. integral_types = (_numbers.Integral, _np.integer) # tf_export('compat.integral_types').export_constant(__name__, 'integral_types') real_types = (_numbers.Real, _np.integer, _np.floating) # tf_export('compat.real_types').export_constant(__name__, 'real_types') complex_types = (_numbers.Complex, _np.number) # tf_export('compat.complex_types').export_constant(__name__, 'complex_types') # Either bytes or text. bytes_or_text_types = (bytes, str) # tf_export('compat.bytes_or_text_types').export_constant(__name__, # 'bytes_or_text_types')