Copy-and-patch
In computing, copy-and-patch compilation is a simple compiler technique intended for just-in-time compilation (JIT compilation) that uses pattern matching to match pre-generated templates to parts of an abstract syntax tree (AST) or bytecode stream, and emit corresponding pre-written machine code fragments that are then patched to insert memory addresses, register addresses, constants and other parameters to produce executable code. Code not matched by templates can be either be interpreted in the normal way, or code created to directly call interpreter code.
Compilation[edit]
While copy-and-patch is a "quick-and-dirty" approach to compilation that is orders of magnitude slower than more rigorous techniques, it often yields code that can in many cases approach the performance of unoptimized code produced by those techniques.
Copy-and-patch was first described by Fredrik Kjolstad and Haoran Xu in a 2021 paper.[1]
As of 2023[update], Xu was working on an implementation for Lua that generates templates automatically, based on high-level language descriptions of the interpreter primitives.[2]
As of 2024[update], a bytecode-based copy-and-patch implementation was used for the Python 3.13 JIT compiler.[3][4]
See also[edit]
References[edit]
- ^ Xu, Haoran; Kjolstad, Fredrik (2021-10-15). "Copy-and-patch compilation: a fast compilation algorithm for high-level languages and bytecode". Proceedings of the ACM on Programming Languages. 5 (OOPSLA): 136:1–136:30. arXiv:2011.13127. doi:10.1145/3485513.
- ^ Xu, Haoran (2023-05-12). "Building a baseline JIT for Lua automatically". sillycross.github.io. Retrieved 2024-01-11.
- ^ "Python 3.13 gets a JIT". tonybaloney.github.io. Retrieved 2024-01-09.
- ^ "GH-113464: A copy-and-patch JIT compiler by brandtbucher · Pull Request #113465 · python/cpython". GitHub. Retrieved 2024-01-09.