# Tooling to generate interpreters Documentation for the instruction definitions in `Python/bytecodes.c` ("the DSL") is [here](interpreter_definition.md). What's currently here: - `analyzer.py`: code for converting `AST` generated by `Parser` to more high-level structure for easier interaction - `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` - `parser.py` helper for interactions with `parsing.py` - `tierN_generator.py`: a couple of driver scripts to read `Python/bytecodes.c` and write `Python/generated_cases.c.h` (and several other files) - `stack.py`: code to handle generalized stack effects - `cwriter.py`: code which understands tokens and how to format C code; main class: `CWriter` - `generators_common.py`: helpers for generators - `opcode_id_generator.py`: generate a list of opcodes and write them to `Include/opcode_ids.h` - `opcode_metadata_generator.py`: reads the instruction definitions and write the metadata to `Include/internal/pycore_opcode_metadata.h` - `py_metadata_generator.py`: reads the instruction definitions and write the metadata to `Lib/_opcode_metadata.py` - `target_generator.py`: generate targets for computed goto dispatch and write them to `Python/opcode_targets.h` - `uop_id_generator.py`: generate a list of uop IDs and write them to `Include/internal/pycore_uop_ids.h` - `uop_metadata_generator.py`: reads the instruction definitions and write the metadata to `Include/internal/pycore_uop_metadata.h` 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.