PEP: 467 Title: Minor API improvements for binary sequences Version: $Revision$ Last-Modified: $Date$ Author: Nick Coghlan , Ethan Furman Status: Draft Type: Standards Track Content-Type: text/x-rst Created: 30-Mar-2014 Python-Version: 3.11 Post-History: 2014-03-30 2014-08-15 2014-08-16 2016-06-07 2016-09-01 2021-04-13 Abstract ======== During the initial development of the Python 3 language specification, the core ``bytes`` type for arbitrary binary data started as the mutable type that is now referred to as ``bytearray``. Other aspects of operating in the binary domain in Python have also evolved over the course of the Python 3 series. This PEP proposes five small adjustments to the APIs of the ``bytes`` and ``bytearray`` types to make it easier to operate entirely in the binary domain: * Discourage passing single integer values to ``bytes`` and ``bytearray`` * Add ``bytes.fromsize`` and ``bytearray.fromsize`` alternative constructors * Add ``bytes.fromint`` and ``bytearray.fromint`` alternative constructors * Add ``bytes.getbyte`` and ``bytearray.getbyte`` byte retrieval methods * Add ``bytes.iterbytes`` and ``bytearray.iterbytes`` alternative iterators Proposals ========= Discourage use of current "zero-initialised sequence" behavior --------------------------------------------------------------- Currently, the ``bytes`` and ``bytearray`` constructors accept an integer argument and interpret it as meaning to create a zero-initialised sequence of the given size:: >>> bytes(3) b'\x00\x00\x00' >>> bytearray(3) bytearray(b'\x00\x00\x00') This PEP proposes to update the documentation to discourage making use of that input type dependent behavior in Python 3.11, suggesting to use a new, more explicit, ``bytes.fromsize(n)`` or ``bytearray.fromsize(n)`` spelling instead (see next section). However, the current handling of numeric inputs in the default constructors would remain in place indefinitely to avoid introducing a compatibility break. No other changes are proposed to the existing constructors. Addition of explicit "count and byte initialised sequence" constructors ----------------------------------------------------------------------- To replace the now discouraged behavior, this PEP proposes the addition of an explicit ``fromsize`` alternative constructor as a class method on both ``bytes`` and ``bytearray`` whose first argument is the count, and whose second argument is the fill byte to use (defaults to ``\x00``):: >>> bytes.fromsize(3) b'\x00\x00\x00' >>> bytearray.fromsize(3) bytearray(b'\x00\x00\x00') >>> bytes.fromsize(5, b'\x0a') b'\x0a\x0a\x0a\x0a\x0a' >>> bytearray.fromsize(5, fill=b'\x0a') bytearray(b'\x0a\x0a\x0a\x0a\x0a') ``fromsize`` will behave just as the current constructors behave when passed a single integer, while allowing for non-zero fill values when needed. Addition of explicit "single byte" constructors ----------------------------------------------- As binary counterparts to the text ``chr`` function, this PEP proposes the addition of an explicit ``fromint`` alternative constructor as a class method on both ``bytes`` and ``bytearray``:: >>> bytes.fromint(65) b'A' >>> bytearray.fromint(65) bytearray(b'A') These methods will only accept integers in the range 0 to 255 (inclusive):: >>> bytes.fromint(512) Traceback (most recent call last): File "", line 1, in ValueError: integer must be in range(0, 256) >>> bytes.fromint(1.0) Traceback (most recent call last): File "", line 1, in TypeError: 'float' object cannot be interpreted as an integer The documentation of the ``ord`` builtin will be updated to explicitly note that ``bytes.fromint`` is the primary inverse operation for binary data, while ``chr`` is the inverse operation for text data, and that ``bytearray.fromint`` also exists. Behaviorally, ``bytes.fromint(x)`` will be equivalent to the current ``bytes([x])`` (and similarly for ``bytearray``). The new spelling is expected to be easier to discover and easier to read (especially when used in conjunction with indexing operations on binary sequence types). As a separate method, the new spelling will also work better with higher order functions like ``map``. These new methods intentionally do NOT offer the same level of general integer support as the existing ``int.to_bytes`` conversion method, which allows arbitrarily large integers to be converted to arbitrarily long bytes objects. The restriction to only accept positive integers that fit in a single byte means that no byte order information is needed, and there is no need to handle negative numbers. The documentation of the new methods will refer readers to ``int.to_bytes`` for use cases where handling of arbitrary integers is needed. Addition of "getbyte" method to retrieve a single byte ------------------------------------------------------ This PEP proposes that ``bytes`` and ``bytearray`` gain the method ``getbyte`` which will always return ``bytes``:: >>> b'abc'.getbyte(0) b'a' If an index is asked for that doesn't exist, ``IndexError`` is raised:: >>> b'abc'.getbyte(9) Traceback (most recent call last): File "", line 1, in IndexError: index out of range Addition of optimised iterator methods that produce ``bytes`` objects --------------------------------------------------------------------- This PEP proposes that ``bytes`` and ``bytearray`` gain an optimised ``iterbytes`` method that produces length 1 ``bytes`` objects rather than integers:: for x in data.iterbytes(): # x is a length 1 ``bytes`` object, rather than an integer For example:: >>> tuple(b"ABC".iterbytes()) (b'A', b'B', b'C') Design discussion ================= Why not rely on sequence repetition to create zero-initialised sequences? ------------------------------------------------------------------------- Zero-initialised sequences can be created via sequence repetition:: >>> b'\x00' * 3 b'\x00\x00\x00' >>> bytearray(b'\x00') * 3 bytearray(b'\x00\x00\x00') However, this was also the case when the ``bytearray`` type was originally designed, and the decision was made to add explicit support for it in the type constructor. The immutable ``bytes`` type then inherited that feature when it was introduced in PEP 3137. This PEP isn't revisiting that original design decision, just changing the spelling as users sometimes find the current behavior of the binary sequence constructors surprising. In particular, there's a reasonable case to be made that ``bytes(x)`` (where ``x`` is an integer) should behave like the ``bytes.fromint(x)`` proposal in this PEP. Providing both behaviors as separate class methods avoids that ambiguity. Omitting the originally proposed builtin function ------------------------------------------------- When submitted to the Steering Council, this PEP proposed the introduction of a ``bchr`` builtin (with the same behaviour as ``bytes.fromint``), recreating the ``ord``/``chr``/``unichr`` trio from Python 2 under a different naming scheme (``ord``/``bchr``/``chr``). The SC indicated they didn't think this functionality was needed often enough to justify offering two ways of doing the same thing, especially when one of those ways was a new builtin function. That part of the proposal was therefore dropped as being redundant with the ``bytes.fromint`` alternate constructor. Developers that use this method frequently will instead have the option to define their own ``bchr = bytes.fromint`` aliases. Scope limitation: memoryview ---------------------------- Updating ``memoryview`` with the new item retrieval methods is outside the scope of this PEP. References ========== .. [1] Initial March 2014 discussion thread on python-ideas (https://mail.python.org/pipermail/python-ideas/2014-March/027295.html) .. [2] Guido's initial feedback in that thread (https://mail.python.org/pipermail/python-ideas/2014-March/027376.html) .. [3] Issue proposing moving zero-initialised sequences to a dedicated API (http://bugs.python.org/issue20895) .. [4] Issue proposing to use calloc() for zero-initialised binary sequences (http://bugs.python.org/issue21644) .. [5] August 2014 discussion thread on python-dev (https://mail.python.org/pipermail/python-ideas/2014-March/027295.html) .. [6] June 2016 discussion thread on python-dev (https://mail.python.org/pipermail/python-dev/2016-June/144875.html) Copyright ========= This document has been placed in the public domain.