from pathlib import Path from typing import TextIO from analyzer import ( Instruction, Uop, Properties, ) from cwriter import CWriter from typing import Callable, Mapping, TextIO, Iterator from lexer import Token from stack import Stack ROOT = Path(__file__).parent.parent.parent DEFAULT_INPUT = (ROOT / "Python/bytecodes.c").absolute().as_posix() def root_relative_path(filename: str) -> str: try: return Path(filename).absolute().relative_to(ROOT).as_posix() except ValueError: # Not relative to root, just return original path. return filename def write_header( generator: str, sources: list[str], outfile: TextIO, comment: str = "//" ) -> None: outfile.write( f"""{comment} This file is generated by {root_relative_path(generator)} {comment} from: {comment} {", ".join(root_relative_path(src) for src in sources)} {comment} Do not edit! """ ) def emit_to(out: CWriter, tkn_iter: Iterator[Token], end: str) -> None: parens = 0 for tkn in tkn_iter: if tkn.kind == end and parens == 0: return if tkn.kind == "LPAREN": parens += 1 if tkn.kind == "RPAREN": parens -= 1 out.emit(tkn) def replace_deopt( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, unused: Stack, inst: Instruction | None, ) -> None: out.emit_at("DEOPT_IF", tkn) out.emit(next(tkn_iter)) emit_to(out, tkn_iter, "RPAREN") next(tkn_iter) # Semi colon out.emit(", ") assert inst is not None assert inst.family is not None out.emit(inst.family.name) out.emit(");\n") def replace_error( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, stack: Stack, inst: Instruction | None, ) -> None: out.emit_at("if ", tkn) out.emit(next(tkn_iter)) emit_to(out, tkn_iter, "COMMA") label = next(tkn_iter).text next(tkn_iter) # RPAREN next(tkn_iter) # Semi colon out.emit(") ") c_offset = stack.peek_offset.to_c() try: offset = -int(c_offset) close = ";\n" except ValueError: offset = None out.emit(f"{{ stack_pointer += {c_offset}; ") close = "; }\n" out.emit("goto ") if offset: out.emit(f"pop_{offset}_") out.emit(label) out.emit(close) def replace_error_no_pop( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, stack: Stack, inst: Instruction | None, ) -> None: next(tkn_iter) # LPAREN next(tkn_iter) # RPAREN next(tkn_iter) # Semi colon out.emit_at("goto error;", tkn) def replace_decrefs( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, stack: Stack, inst: Instruction | None, ) -> None: next(tkn_iter) next(tkn_iter) next(tkn_iter) out.emit_at("", tkn) for var in uop.stack.inputs: if var.name == "unused" or var.name == "null" or var.peek: continue if var.size != "1": out.emit(f"for (int _i = {var.size}; --_i >= 0;) {{\n") out.emit(f"Py_DECREF({var.name}[_i]);\n") out.emit("}\n") elif var.condition: if var.condition == "1": out.emit(f"Py_DECREF({var.name});\n") elif var.condition != "0": out.emit(f"Py_XDECREF({var.name});\n") else: out.emit(f"Py_DECREF({var.name});\n") def replace_sync_sp( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, stack: Stack, inst: Instruction | None, ) -> None: next(tkn_iter) next(tkn_iter) next(tkn_iter) stack.flush(out) def replace_check_eval_breaker( out: CWriter, tkn: Token, tkn_iter: Iterator[Token], uop: Uop, stack: Stack, inst: Instruction | None, ) -> None: next(tkn_iter) next(tkn_iter) next(tkn_iter) if not uop.properties.ends_with_eval_breaker: out.emit_at("CHECK_EVAL_BREAKER();", tkn) REPLACEMENT_FUNCTIONS = { "EXIT_IF": replace_deopt, "DEOPT_IF": replace_deopt, "ERROR_IF": replace_error, "ERROR_NO_POP": replace_error_no_pop, "DECREF_INPUTS": replace_decrefs, "CHECK_EVAL_BREAKER": replace_check_eval_breaker, "SYNC_SP": replace_sync_sp, } ReplacementFunctionType = Callable[ [CWriter, Token, Iterator[Token], Uop, Stack, Instruction | None], None ] def emit_tokens( out: CWriter, uop: Uop, stack: Stack, inst: Instruction | None, replacement_functions: Mapping[ str, ReplacementFunctionType ] = REPLACEMENT_FUNCTIONS, ) -> None: tkns = uop.body[1:-1] if not tkns: return tkn_iter = iter(tkns) out.start_line() for tkn in tkn_iter: if tkn.kind == "IDENTIFIER" and tkn.text in replacement_functions: replacement_functions[tkn.text](out, tkn, tkn_iter, uop, stack, inst) else: out.emit(tkn) def cflags(p: Properties) -> str: flags: list[str] = [] if p.oparg: flags.append("HAS_ARG_FLAG") if p.uses_co_consts: flags.append("HAS_CONST_FLAG") if p.uses_co_names: flags.append("HAS_NAME_FLAG") if p.jumps: flags.append("HAS_JUMP_FLAG") if p.has_free: flags.append("HAS_FREE_FLAG") if p.uses_locals: flags.append("HAS_LOCAL_FLAG") if p.eval_breaker: flags.append("HAS_EVAL_BREAK_FLAG") if p.deopts: flags.append("HAS_DEOPT_FLAG") if p.side_exit: flags.append("HAS_EXIT_FLAG") if not p.infallible: flags.append("HAS_ERROR_FLAG") if p.error_without_pop: flags.append("HAS_ERROR_NO_POP_FLAG") if p.escapes: flags.append("HAS_ESCAPES_FLAG") if p.pure: flags.append("HAS_PURE_FLAG") if p.oparg_and_1: flags.append("HAS_OPARG_AND_1_FLAG") if flags: return " | ".join(flags) else: return "0"