Python extension module wrapping FLINT (Fast Library for Number Theory) and Arb (arbitrary-precision ball arithmetic). Features:
- Integers, rationals, integers mod n
- Real and complex numbers with rigorous error tracking
- Polynomials, power series and matrices over all the above types
- Lots of mathematical functions
Documentation: https://python-flint.readthedocs.io/en/latest/
Repository: https://github.com/flintlib/python-flint/
Author: Fredrik Johansson fredrik.johansson@gmail.com
Currently python-flint supports CPython versions 3.10-3.13. For Windows
(x86-64) or OSX (x86-64 or arm64) or Linux (x86-64 manylinux_2_17
) there are
CPython binary wheels for python-flint on PyPI. For these platforms
python-flint can be installed simply with pip
pip install python-flint
Alternatively python-flint can be installed using conda
conda install -c conda-forge python-flint
It is also possible to use python-flint with some PyPy versions. Binary wheels are not provided for this on PyPI but can be installed with conda.
For other platforms or architectures installation needs to build from source. First install FLINT 3. Starting with python-flint 0.5.0 older versions of Flint such as 2.9 are not supported any more. Note that as of Flint 3 Arb no longer needs to be built separately as it is now merged into Flint.
As of e.g. Ubuntu 24.04 a new enough version of FLINT (at least version 3) can be installed from the Ubuntu repos like
sudo apt-get install libflint-dev
For older distros the version in the repos is too old and a newer version of FLINT needs to be built. See here for instructions on building FLINT:
A script that builds and installs FLINT on Ubuntu can be found here:
The latest release of Python-FLINT can then be built from source and installed using:
pip install --no-binary python-flint python-flint
Python-FLINT can also be installed from a git checkout or a source archive as follows:
pip install .
See the documentation for further notes on building and installing python-flint:
Import Python-FLINT:
>>> from flint import *
Number-theoretic functions:
>>> fmpz(1000).partitions_p()
24061467864032622473692149727991
>>> fmpq.bernoulli(64)
-106783830147866529886385444979142647942017/510
Polynomial arithmetic:
>>> a = fmpz_poly([1,2,3]); b = fmpz_poly([2,3,4]); a.gcd(a * b)
3*x^2 + 2*x + 1
>>> a = fmpz_poly(list(range(10001))); b = fmpz_poly(list(range(10000))); a.gcd(a * b).degree()
10000
>>> x = fmpz_poly([0,1]); ((1-x**2)*(1+x**3)**3*(1+x+2*x)).factor()
(-1, [(3*x + 1, 1), (x + (-1), 1), (x^2 + (-1)*x + 1, 3), (x + 1, 4)])
Matrix arithmetic:
>>> fmpz_mat([[1,1],[1,0]]) ** 10
[89, 55]
[55, 34]
>>> fmpq_mat.hilbert(10,10).det()
1/46206893947914691316295628839036278726983680000000000
Numerical evaluation:
>>> showgood(lambda: (arb.pi() * arb(163).sqrt()).exp() - 640320**3 - 744, dps=25)
-7.499274028018143111206461e-13
>>> showgood(lambda: (arb.pi() * 10**100 + arb(1)/1000).sin(), dps=25)
0.0009999998333333416666664683
Numerical integration:
>>> ctx.dps = 30
>>> acb.integral(lambda x, _: (-x**2).exp(), -100, 100) ** 2
[3.141592653589793238462643383 +/- 3.11e-28]
- Write more tests and add missing docstrings
- Wrap missing flint types: finite fields, p-adic numbers, rational functions
- Vector or array types (maybe)
- Many convenience methods
- Write generic implementations of functions missing for specific FLINT types
- Proper handling of special values in various places (throwing Python exceptions instead of aborting, etc.)
- Various automatic conversions
- Conversions to and from external types (numpy, sage, sympy, mpmath, gmpy)
- Improved printing and string input/output
- IPython hooks (TeX pretty-printing etc.)
Generally each release of python-flint will be compatible with a range of
Python versions as described in SPEC
0. Since python-flint 0.5.0
the minimum supported Flint version is 3.0
and each release of python-flint
supports all versions of Flint >=3.0
available at the time of release.
Compatible versions (note that 0.7.0 is not yet released):
python-flint | Release date | CPython | FLINT | Cython |
---|---|---|---|---|
0.7.0 |
Not yet | 3.10-3.13 |
3.0-3.2? |
3.0-3.1? |
0.6.0 |
1st Feb 2024 | 3.9-3.12 |
3.0 only |
3.0 only |
As of python-flint 0.7.0, CPython 3.13 free-threaded builds are tested in CI but wheels are not provided on PyPI. There are no known issues related to using python-flint in a PEP 703 free-threaded build but it is likely that mutating objects from multiple threads is not safe.
Binary wheels are not yet provided for Linux aarch64 (gh-105) or for Windows on ARM but may be added when CI runners for Linux/Windows are available.
Next release (0.7.0)...
Contributors (0.7.0):
- Jake Moss (JM)
- Giacomo Pope (GP)
- Joris Roos (JR)
- Edgar Costa (EC)
- Oscar Benjamin (OB)
Highlights (0.7.0):
- gh-97,
gh-182:
Add
fq_default
andfq_default_poly
for finite fields and univariate polynomials over finite fields. (GP) - gh-132,
gh-164,
gh-190,
gh-192:
Add
fmpz_mpoly
,fmpq_mpoly
,nmod_poly
andfmpz_mod_poly
types for multivariate polynomials with integer, rational or integers mod n coefficients. (JM) - gh-142
Add
acb_theta
module for the numerical evaluation of theta functions (only available forFlint >= 3.1
). (EC) - gh-129 Use meson/meson-python instead of setuptools as the build system for parallel builds and better detection of build and dependency requirements. (OB)
Compatibility break (0.7.0):
- gh-189
As of python-flint 0.7.0
fmpq_poly.factor()
now returns primitive rather than monic factors i.e.2*x + 1
rather thanx + 1/2
. This ensures consistency between all poly types including betweenfmpq_poly
andfmpq_mpoly
. (OB)
Other changes (0.7.0):
- gh-189
All scalar and poly types now have
sqrt
. All poly types now havefactor_squarefree
andleading_coefficient
methods. Exception types raised in a number of places were changed toDomainError
for better consistency. - gh-196 Supported Python versions are 3.10-3.13 (3.9 dropped). CI Testing added for 3.13 free-threaded CPython.
- gh-194 Add version checking for build requirements. (OB)
- gh-180
Add
equal_trunc
,add_trunc
,sub_trunc
,mul_low
,mul_mod
andpow_trunc
methods tofmpz_mod_poly
. (GP) - gh-177 Remove old Py2 code for compatibility with Cython 3.1. (OB)
- gh-176
Fix the error messages from
fmpq
constructor. (OB) - gh-174
Add
pow_mod
andcompose_mod
methods tonmod_poly
andfmpz_mod_poly
. Also add some missing methods tonmod_poly
that other poly types already have. (GP) - gh-172
Add
fmpz_is_square
. (JR) - gh-168
Make comparisons consistent between different types. Add
is_one
andis_zero
for all poly types. (OB) - gh-161
Add
acb.lerch_phi
to compute the Lerch transcendent. (OB) - gh-160
Add
bits
toarb
andacb
, addlog_base
toarb
. (JR) - gh-149 Bump Flint version to 3.1.3-p1 (Flint 3.0.0 - 3.1.3-p1 is supported but the wheels are built with 3.1.3-p1). (OB)
- gh-148 Remove debug symbols to make smaller Linux binaries. (OB)
- gh-144
Add
rel_one_accuracy_bits
toarb
andacb
. (EC) - gh-137
Add
erfinv
anderfcinv
forarb
. (JR) - gh-119 Add compatibility with Flint 3.1. (OB)
0.6.0
- gh-112,
gh-111,
gh-110,
gh-108:
Add pyproject.toml and build dependencies. This means that
python-flint can be built from source without
--no-build-isolation
. - gh-109:
Use exact division for non-field domains. Now
fmpz(6)/fmpz(3)
returns an exact resultfmpz(2)
or raises an error if an exact result is not possible. Similar changes forfmpz_poly/fmpz
,fmpz_mat/fmpz
, and for polynomial division withfmpz_poly
,fmpq_poly
,nmod_poly
andfmpz_mod_poly
. - gh-106:
Add
fmpz_mod_mat
for matrices of integers modn
wheren
is larger than word sized. - gh-104: Bump Flint from 3.0.0 to 3.0.1
0.5.0
Important compatibility changes:
- gh-80, gh-94, gh-98: Switch from Flint 2.9 to Flint 3.
- gh-100: Supports Python 3.12 by using setuptools instead of numpy.distutils.
New features:
- gh-87:
Adds
fmpz_mod_poly
type for polynomials overfmpz_mod
. - gh-85:
Adds discrete logarithms to
fmpz_mod
. - gh-83:
Introduces the
fmpz_mod
type for multi-precision integer mods.
Bug fixes:
- gh-93:
Fixes a bug with
pow(int, int, fmpz)
which previously gave incorrect results. - gh-78,
gh-79:
minor fixes for the
nmod
type.
0.4.4
- gh-75,
gh-77:
finish bulk of the work in refactoring
python-flint
into submodules - gh-72:
The roots method of
arb_poly
is not supported. Use either thecomplex_roots
method oracb_roots(p).roots()
to get the old behaviour of returning the complex roots. Theroots
method onfmpz_poly
andfmpq_poly
now return integer and rational roots respectively. To access complex roots on these types, use thecomplex_roots
method. Foracb_poly
, bothroots
andcomplex_roots
behave the same - gh-71: Include files in sdist and fix issue gh-70
- gh-67:
Continue refactoring job to introduce submodules into
python-flint
0.4.3
- gh-63:
The
roots
method ofarb_poly
, andnmod_poly
is no longer supported. Useacb_roots(p).roots()
to get the old behaviour of returning the roots asacb
. Note that theroots
method offmpz_poly
andfmpq_poly
currently returns the complex roots of the polynomial. - gh-61:
Start refactoring job to introduce submodules into
python-flint
0.4.2
- gh-57: Adds manylinux wheels
0.4.1
- gh-47: Removes Linux wheels, updates instructions for building from source.
0.4.0
- gh-45: Adds wheels for Windows, OSX and manylinux but the Linux wheels are broken.
Python-FLINT is licensed MIT. FLINT and Arb are LGPL v2.1+.