cb945f569c
* Initial refactor commit * Support external vars * Simplify refactor; Python scoping [wip] * Python scoping [wip] * Python scoping [fix loops; wip] * Fix lambdas * Python scoping [test fixes; wip] * Fix scoping [wip] * Fix basic tests [no-ci] * Fix tests * CallExpr refactoring [wip] * CallExpr refactoring [wip] * Remove activeUnbounds tracking * Add core.codon * Move Function and other core types to core.codon; Revamp Function and Callable types * Refactor IntExpr, FloatExpr and CallExpr * Refactor ClassStmt * Refactor context, IdExpr and DotExpr * Refactor DotExpr and AssignStmt * Refactor ImportStmt * Refactor FunctionStmt * Refactor * Remove UpdateStmt * Refactor AssignReplacementVisitor * Make SimplifyVisitor in-place * Fix new scoping * Fix import type alias handling * Add docstrings; Complete Simplify refactoring * Fixes for seqtest * Refactor typecheck [wip] * Refactor typecheck [wip] * Refactor typecheck/access; Remove void anduse NoneType; Fix #18 * Refactor typecheck/assign * clang-format and cmake-format * Fix none types in IR * Multi-error support in simplify * Fix IR tests for new void * Simplify ClassStmt * Refactor cond.cpp * Refactor error.cpp * Refactor function.cpp and simplify unbounds * Refactor op.cpp * Refactor call.cpp [wip] [no-ci] * seqassertn updates [noci] * Refactor call.cpp * Refactor call.cpp * Refactor call.cpp * Refactor typecheck * clang-tidy updates [noci] * Refactor infer.cpp [wip] * Refactor infer.cpp * Refactor wrapExpr * Remove visitedAsts * Remove old base logic * Refactor typecheck ctx * Fix JIT bug * Fix JIT tests * Scoping fixes [wip] [noci] * Fix ImperativeForFlow var store * Add newlines [noci] * Dump IR module with log flag * Fix scoping bugs; Add &, ^ and | static operations; Address stylistic review issues * Fix side effect analysis for for-loops * Add support for class variables and ClassVar * Refactor special dot-member cases * Add codon app tests * Fix class variables; clang-tidy * Fix __argv__ * Add datetime constants and update tests * Fix #25; Add Py_None, Py_True and Py_False; External var support [wip] * External var support [wip] * Dump LLVM IR when debug flags are active * clang-format * Fix arg var construction * Extern var fixes * Undo extern var changes related to stdout etc. * Fix tuple magics * Fix extern vars and tuple magics * Fix duplicate var name error * Fix extern vars * Fix #16 * Fix side-effect analysis for try-catch * Move test C var to test executable * Add staticmethod * Fix var status for try-catch * Fix tests * Fix shell var name * Fix test * Fix app test * Fix scoping issue (remove dominated identifier from stack) * Fix no-pie issue * Use PIC when building library object * Don't use -no-pie when building library [noci] * Use -relocation-model=pic in test * Fix lib build on Linux * Fix lib build * Update exceptions to use subclasses vs. header * Fix __repr__ * Fix tests * Fix exceptions test * Don't build docs Co-authored-by: A. R. Shajii <ars@ars.me>
What is Codon?
Think of Codon as a strongly-typed and statically-compiled Python: all the bells and whistles of Python, boosted with a strong type system, without any performance overhead.
Codon is a high-performance Python compiler that compiles Python code to native machine code without any runtime overhead. Typical speedups over Python are on the order of 10-100x or more, on a single thread. Codon's performance is typically on par with (and in many cases better than) that of C/C++. Unlike Python, Codon supports native multithreading, which can lead to speedups many times higher still.
Codon is extensible via a plugin infrastructure. For example, Seq is a domain-specific language for genomics and bioinformatics, built on Codon, that can outperform hand-optimized C code by 2-10x (more details in the Seq paper).
What isn't Codon?
While Codon supports nearly all of Python's syntax, it is not a drop-in replacement, and large codebases might require modifications to be run through the Codon compiler. For example, some of Python's modules are not yet implemented within Codon, and a few of Python's dynamic features are disallowed. The Codon compiler produces detailed error messages to help identify and resolve any incompatibilities.
Codon supports seamless Python interoperability to handle cases where specific Python libraries or dynamism are required:
@python
def hello():
import sys
print('Hello from Python!')
print('The version is', sys.version)
hello()
# Hello from Python!
# The version is 3.9.6 (default, Jun 29 2021, 06:20:32)
# [Clang 12.0.0 (clang-1200.0.32.29)]
Examples
Codon is a Python-compatible language, and many Python programs will work with few if any modifications:
def fib(n):
a, b = 0, 1
while a < n:
print(a, end=' ')
a, b = b, a+b
print()
fib(1000)
This prime counting example showcases Codon's OpenMP support, enabled with the addition of one line.
The @par annotation tells the compiler to parallelize the following for-loop, in this case using a dynamic schedule, chunk size
of 100, and 16 threads.
from sys import argv
def is_prime(n):
factors = 0
for i in range(2, n):
if n % i == 0:
factors += 1
return factors == 0
limit = int(argv[1])
total = 0
@par(schedule='dynamic', chunk_size=100, num_threads=16)
for i in range(2, limit):
if is_prime(i):
total += 1
print(total)
Install
Pre-built binaries
Pre-built binaries for Linux and macOS on x86_64 are available alongside each release. We also have a script for downloading and installing pre-built versions:
/bin/bash -c "$(curl -fsSL https://codon.dev/install.sh)"
Build from source
See Building from Source.
Documentation
Please check docs.codon.dev for in-depth documentation.