Bitstring

A maintenance release, with some changes to the Array class which is still in 'beta'.

* bitarray dependency now pinned to ">=2.8.0, <3.0.0" rather than a specific version. Bug 283.
* Fix for using numpy integers as integer parameters. Bug 286.
* Removed ability to extend an Array with the '+' operator. Use the 'extend' method instead.
* Improvements when pretty-printing the Array.
* Array.count() can now count 'nan' values for floating point types.

This has turned into a suprisingly big release, with a major refactor and a brand new
class (the first for 12 years!) There are also a couple of small possibly breaking changes
detailed below, in particular 'auto' initialising bitstrings from integers is now disallowed.

Speed increased with bitarray dependency.

The major weakness of bitstring has been its poor performance for computationally
intensive tasks relative to lower level alternatives. This was principally due to
relying on pure Python code to achieve things that the base language often didn't have
fast ways of doing.

This release starts to address that problem with a fairly extensive rewrite to replace
much of the pure Python low-level bit operations with methods from the bitarray package.
This is a package that does many of the same things as bitstring, and the two packages
have co-existed for a long time. While bitarray doesn't have all of the options and
facilities of bitstring it has the advantage of being very fast as it is implemented in C.
By replacing the internal datatypes I can speed up bitstring's operations while keeping
the same API.

Huge kudos to Ilan Schnell for all his work on bitarray.

New Array class for homogeneous data (beta)

If your data is all of the same type you can make use of the new Array class, which
mirrors much of the functionality of the standard array.array type, but doesn't restrict
you to just a dozen formats.


>>> from bitstring import Array
>>> a = Array('uint7', [9, 100, 3, 1])
>>> a.data
BitArray('0x1390181')
>>> b = Array('float16', a.tolist())
>>> b.append(0.25)
>>> b.tobytes()
b'H\x80VB\x00<\x004\x00'
>>> b.tolist()
[9.0, 100.0, 3.0, 1.0, 0.25]


The data is stored efficiently in a BitArray object, and you can manipulate both the
data and the Array format freely. See the main documentation for more details. Note that
this feature carries the 'beta' flag so may change in future point versions.

Other changes:

* Added two new floating point interpretations: float8_143 and float8_152. These are 8-bit
floating point formats, with very limited range and precision, but useful in some fields,
particularly machine learning. This is an experimental feature - the formats haven't
even been standardised yet.


>>> a = Bits(float8_143=16.5)
>>> a.bin
'01100000'
>>> a.float8_143
16.0


* Auto initialistion from ints has been removed and now raises a TypeError. Creating a
bitstring from an int still creates a zeroed bitstring of that length but ints won't
be promoted to bitstrings as that has been a constant source of errors and confusion.


>>> a = BitArray(100) Fine - create with 100 zeroed bits
>>> a += 0xff TypeError - previously this would have appended 0xff (=255) zero bits.
>>> a += '0xff' Probably what was meant - append eight '1' bits.
>>> a += Bits(255) Fine, append 255 zero bits.


This is a breaking change, but it breaks loudly with an exception, it is easily recoded,
and it removes a confusing wrinkle.

* Explicitly specifying the 'auto' parameter is now disallowed rather than discouraged.
It was always meant to be a positional-only parameter (and will be once I can drop
Python 3.7 support) but for now it's renamed to `__auto`. In the unlikely event
this breaks code, the fix should be just to delete the `auto=` if it's already the
first parameter.


>>> s = Bits(auto='0xff') Now raises a CreationError
>>> s = Bits('0xff') Fine, as always


* Deleting, replacing or inserting into a bitstring resets the bit position to 0 if the
bitstring's length has been changed. Previously the bit position was adjusted but
this was not well defined.

* Only empty bitstring are now considered False in a boolean sense. Previously s was
False is no bits in s were set to 1, but this goes against what it means to be a
container in Python so I consider this to be a bug, even if it was documented. I'm
guessing it's related to `__nonzero__` in Python 2 becoming `__bool__` in Python 3, and
it's never been fixed before now.

* Casting to bytes now behaves as expected, so that `bytes(s)` gives the same result as
`s.tobytes()`. Previously it created a byte per bit.

* Pretty printing with the 'bytes' format now uses characters from the 'Latin Extended-A'
unicode block for non-ASCII and unprintable characters instead of replacing them with '.'

* When using struct-like codes you can now use '=' instead of '' to signify native-
endianness. They behave identically, but the new '=' is now preferred.

* More fixes for LSB0 mode. There are now no known issues with this feature.

A maintenance release.

* Added py.typed file and converted the module to a package to let mypy find type
annotations. Bug 248.
* Fix to shifting operations when using LSB0 mode. Bug 251.
* A few more fixes for LSB0 mode.
* Improved LSB0 documentation.
* Added build-system section to pyproject.toml. Bug 243.
* Rewrote the walkthrough documentation as a jupyter notebook.
* Updated the project's logo.

November 2022: version 4.0.1 released
-------------------------------------

This is a major release which drops support for Python 2.7 and has a new minimum
requirement of Python 3.7. Around 95% of downloads satisfy this - users of
older versions can continue to use bitstring 3.1, which will still be supported
with fixes, but no new features.

Other changes are minimal, with a few features added.

Breaking changes:
-------------------

* Minimum supported Python version is now Python 3.7.
* Removed ConstBitArray and BitString class aliases. Use Bits and BitStream instead.
* The cut() method will now also yield the final bits of a bitstring, even if they
are shorter than the requested cut size.
* Removed default uint interpretation. This wasn't being applied uniformly - default
is now always to return a bitstring object of the given length and not to interpret
it as a uint. Bug 220.
* If an overwrite goes beyond the end of the bitstring it will now extend the bitstring
rather than raise an exception. Bug 148.

New features and improvements:
---------------------------------

* Type hints added throughout the code.
* Underscores are now allowed in strings representing number literals.
* The copy() method now works on Bits as well as BitArray objects.
* The experimental command-line feature is now official. Command-line
parameters are concatenated and a bitstring created from them. If
the final parameter is either an interpretation string or ends with
a ``.`` followed by an interpretation string then that interpretation
of the bitstring will be used when printing it. ::

$ python -m bitstring int:16=-400
0xfe70
$ python -m bitstring float:32=0.2 bin
00111110010011001100110011001101

* New pp() method that pretty-prints the bitstring in various formats - useful
especially in interactive sessions. Thanks to Omer Barak for the suggestion
and discussion.

>>> s.pp()
0: 10001000 01110110 10001110 01110110 11111000 01110110 10000111 00101000
64: 01110010 11111001 10000111 10011000 11110111 10011110 10000111 11111101
128: 11111001 10001100 01111111 10111100 10111111 11011011 11101011 11111011
192: 1100
>>> s.pp('bin, hex')
0: 10001000 01110110 10001110 01110110 11111000 01110110 88 76 8e 76 f8 76
48: 10000111 00101000 01110010 11111001 10000111 10011000 87 28 72 f9 87 98
96: 11110111 10011110 10000111 11111101 11111001 10001100 f7 9e 87 fd f9 8c
144: 01111111 10111100 10111111 11011011 11101011 11111011 7f bc bf db eb fb
192: 1100 c

* Shorter and more versatile properties. The bin, oct, hex, float, uint and int
properties can now be shortened to just their first letter. They can also have
a length in bits after them - allowing Rust-like data types. ::

>>> s = BitArray('0x44961000')
>>> s.h
'44961000'
>>> s.f32
1200.5
>>> s.u
1150685184
>>> s.i7 = -60
>>> s.b
'1000100'
>>> t = Bits('u12=160, u12=120, b=100')

* Support for IEEE 16 bit floats. Floating point types can now be 16 bits long as well
as 32 and 64 bits. This is using the 'e' format from the struct module.

* Support for the bfloat format. This is a specialised 16-bit floating point format
mostly used in machine learning. It is essentially a truncated IEEE 32-bit floating
point number that has the same range but much less accuracy.

* Removed requirement to have a colon before lengths in format strings. So for example
`'uint:12=100'` can be just `'uint12=100'`. The colon is still recommended for
readability if the length isn't given as a number literal.

Pulled due to a bug when using Python 3.7.

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July 20th 2021: version 3.1.9 released
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