cpython/Tools/cases_generator
2023-11-22 15:19:50 +00:00
..
_typing_backports.py
analysis.py GH-109369: Exit tier 2 if executor is invalid (GH-111657) 2023-11-09 11:19:51 +00:00
flags.py A few more cases_generator cleanups (#112220) 2023-11-17 22:36:37 +00:00
formatting.py
generate_cases.py GH-111485: Sort cases in the case generator output (GH-112315) 2023-11-22 15:19:50 +00:00
instructions.py gh-112287: Speed up Tier 2 (uop) interpreter a little (#112286) 2023-11-20 11:25:32 -08:00
interpreter_definition.md
lexer.py GH-111848: Tidy up tier 2 handling of FOR_ITER specialization by using DEOPT_IF instead of jumps. (GH-111849) 2023-11-08 13:31:55 +00:00
mypy.ini
parsing.py gh-106529: Cleanups split off gh-112134 (#112214) 2023-11-17 11:49:42 -08:00
plexer.py
README.md
stacking.py GH-111485: Increment next_instr consistently at the start of the instruction. (GH-111486) 2023-10-31 10:09:54 +00:00

Tooling to generate interpreters

Documentation for the instruction definitions in Python/bytecodes.c ("the DSL") is here.

What's currently here:

  • lexer.py: lexer for C, originally written by Mark Shannon
  • plexer.py: OO interface on top of lexer.py; main class: PLexer
  • parsing.py: Parser for instruction definition DSL; main class Parser
  • generate_cases.py: driver script to read Python/bytecodes.c and write Python/generated_cases.c.h (and several other files)
  • analysis.py: Analyzer class used to read the input files
  • flags.py: abstractions related to metadata flags for instructions
  • formatting.py: Formatter class used to write the output files
  • instructions.py: classes to analyze and write instructions
  • stacking.py: code to handle generalized stack effects

Note that there is some dummy C code at the top and bottom of Python/bytecodes.c to fool text editors like VS Code into believing this is valid C code.

A bit about the parser

The parser class uses a pretty standard recursive descent scheme, but with unlimited backtracking. The PLexer class tokenizes the entire input before parsing starts. We do not run the C preprocessor. Each parsing method returns either an AST node (a Node instance) or None, or raises SyntaxError (showing the error in the C source).

Most parsing methods are decorated with @contextual, which automatically resets the tokenizer input position when None is returned. Parsing methods may also raise SyntaxError, which is irrecoverable. When a parsing method returns None, it is possible that after backtracking a different parsing method returns a valid AST.

Neither the lexer nor the parsers are complete or fully correct. Most known issues are tersely indicated by # TODO: comments. We plan to fix issues as they become relevant.