from pathlib import Path from analyzer import ( Instruction, Properties, StackItem, analysis_error, Label, CodeSection, ) from cwriter import CWriter from typing import Callable, TextIO, Iterator, Iterable from lexer import Token from stack import Storage, StackError from parser import Stmt, SimpleStmt, BlockStmt, IfStmt, ForStmt, WhileStmt, MacroIfStmt from stack import PRINT_STACKS DEBUG = False class TokenIterator: look_ahead: Token | None iterator: Iterator[Token] def __init__(self, tkns: Iterable[Token]): self.iterator = iter(tkns) self.look_ahead = None def __iter__(self) -> "TokenIterator": return self def __next__(self) -> Token: if self.look_ahead is None: return next(self.iterator) else: res = self.look_ahead self.look_ahead = None return res def peek(self) -> Token | None: if self.look_ahead is None: for tkn in self.iterator: self.look_ahead = tkn break return self.look_ahead ROOT = Path(__file__).parent.parent.parent.resolve() DEFAULT_INPUT = (ROOT / "Python/bytecodes.c").as_posix() def root_relative_path(filename: str) -> str: try: return Path(filename).resolve().relative_to(ROOT).as_posix() except ValueError: # Not relative to root, just return original path. return filename def type_and_null(var: StackItem) -> tuple[str, str]: if var.type: return var.type, "NULL" elif var.is_array(): return "_PyStackRef *", "NULL" else: return "_PyStackRef", "PyStackRef_NULL" 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: TokenIterator, end: str) -> Token: parens = 0 for tkn in tkn_iter: if tkn.kind == end and parens == 0: return tkn if tkn.kind == "LPAREN": parens += 1 if tkn.kind == "RPAREN": parens -= 1 out.emit(tkn) raise analysis_error(f"Expecting {end}. Reached end of file", tkn) ReplacementFunctionType = Callable[ [Token, TokenIterator, CodeSection, Storage, Instruction | None], bool ] def always_true(tkn: Token | None) -> bool: if tkn is None: return False return tkn.text in {"true", "1"} NON_ESCAPING_DEALLOCS = { "_PyFloat_ExactDealloc", "_PyLong_ExactDealloc", "_PyUnicode_ExactDealloc", } class Emitter: out: CWriter labels: dict[str, Label] _replacers: dict[str, ReplacementFunctionType] def __init__(self, out: CWriter, labels: dict[str, Label]): self._replacers = { "EXIT_IF": self.exit_if, "DEOPT_IF": self.deopt_if, "ERROR_IF": self.error_if, "ERROR_NO_POP": self.error_no_pop, "DECREF_INPUTS": self.decref_inputs, "DEAD": self.kill, "INPUTS_DEAD": self.kill_inputs, "SYNC_SP": self.sync_sp, "SAVE_STACK": self.save_stack, "RELOAD_STACK": self.reload_stack, "PyStackRef_CLOSE_SPECIALIZED": self.stackref_close_specialized, "PyStackRef_AsPyObjectSteal": self.stackref_steal, "DISPATCH": self.dispatch, "INSTRUCTION_SIZE": self.instruction_size, "stack_pointer": self.stack_pointer, } self.out = out self.labels = labels def dispatch( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: if storage.spilled: raise analysis_error("stack_pointer needs reloading before dispatch", tkn) self.emit(tkn) return False def deopt_if( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: self.out.start_line() self.out.emit("if (") lparen = next(tkn_iter) assert lparen.kind == "LPAREN" first_tkn = tkn_iter.peek() emit_to(self.out, tkn_iter, "RPAREN") self.emit(") {\n") next(tkn_iter) # Semi colon assert inst is not None assert inst.family is not None family_name = inst.family.name self.emit(f"UPDATE_MISS_STATS({family_name});\n") self.emit(f"assert(_PyOpcode_Deopt[opcode] == ({family_name}));\n") self.emit(f"JUMP_TO_PREDICTED({family_name});\n") self.emit("}\n") return not always_true(first_tkn) exit_if = deopt_if def goto_error(self, offset: int, storage: Storage) -> str: if offset > 0: return f"JUMP_TO_LABEL(pop_{offset}_error);" if offset < 0: storage.copy().flush(self.out) return f"JUMP_TO_LABEL(error);" def error_if( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: lparen = next(tkn_iter) assert lparen.kind == "LPAREN" first_tkn = tkn_iter.peek() unconditional = always_true(first_tkn) if unconditional: next(tkn_iter) next(tkn_iter) # RPAREN self.out.start_line() else: self.out.emit_at("if ", tkn) self.emit(lparen) emit_to(self.out, tkn_iter, "RPAREN") self.out.emit(") {\n") next(tkn_iter) # Semi colon storage.clear_inputs("at ERROR_IF") c_offset = storage.stack.sp_offset() try: offset = int(c_offset) except ValueError: offset = -1 self.out.emit(self.goto_error(offset, storage)) self.out.emit("\n") if not unconditional: self.out.emit("}\n") return not unconditional def error_no_pop( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) # LPAREN next(tkn_iter) # RPAREN next(tkn_iter) # Semi colon self.out.emit_at(self.goto_error(0, storage), tkn) return False def decref_inputs( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) next(tkn_iter) next(tkn_iter) self._print_storage("DECREF_INPUTS", storage) try: storage.close_inputs(self.out) except StackError as ex: raise analysis_error(ex.args[0], tkn) except Exception as ex: ex.args = (ex.args[0] + str(tkn),) raise return True def kill_inputs( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) next(tkn_iter) next(tkn_iter) for var in storage.inputs: var.kill() return True def kill( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) name_tkn = next(tkn_iter) name = name_tkn.text next(tkn_iter) next(tkn_iter) for var in storage.inputs: if var.name == name: var.kill() break else: raise analysis_error( f"'{name}' is not a live input-only variable", name_tkn ) return True def stackref_kill( self, name: Token, storage: Storage, escapes: bool ) -> bool: live = "" for var in reversed(storage.inputs): if var.name == name.text: if live and escapes: raise analysis_error( f"Cannot close '{name.text}' when " f"'{live}' is still live", name) var.kill() break if var.in_local: live = var.name return True def stackref_close_specialized( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: self.out.emit(tkn) tkn = next(tkn_iter) assert tkn.kind == "LPAREN" self.out.emit(tkn) name = next(tkn_iter) self.out.emit(name) comma = next(tkn_iter) if comma.kind != "COMMA": raise analysis_error("Expected comma", comma) self.out.emit(comma) dealloc = next(tkn_iter) if dealloc.kind != "IDENTIFIER": raise analysis_error("Expected identifier", dealloc) self.out.emit(dealloc) if name.kind == "IDENTIFIER": escapes = dealloc.text not in NON_ESCAPING_DEALLOCS return self.stackref_kill(name, storage, escapes) rparen = emit_to(self.out, tkn_iter, "RPAREN") self.emit(rparen) return True def stackref_steal( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: self.out.emit(tkn) tkn = next(tkn_iter) assert tkn.kind == "LPAREN" self.out.emit(tkn) name = next(tkn_iter) self.out.emit(name) if name.kind == "IDENTIFIER": return self.stackref_kill(name, storage, False) rparen = emit_to(self.out, tkn_iter, "RPAREN") self.emit(rparen) return True def sync_sp( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) next(tkn_iter) next(tkn_iter) storage.clear_inputs("when syncing stack") storage.flush(self.out) storage.stack.clear(self.out) return True def stack_pointer( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: if storage.spilled: raise analysis_error("stack_pointer is invalid when stack is spilled to memory", tkn) self.emit(tkn) return True def goto_label(self, goto: Token, label: Token, storage: Storage) -> None: if label.text not in self.labels: print(self.labels.keys()) raise analysis_error(f"Label '{label.text}' does not exist", label) label_node = self.labels[label.text] if label_node.spilled: if not storage.spilled: self.emit_save(storage) elif storage.spilled: raise analysis_error("Cannot jump from spilled label without reloading the stack pointer", goto) self.out.start_line() self.out.emit("JUMP_TO_LABEL(") self.out.emit(label) self.out.emit(")") def emit_save(self, storage: Storage) -> None: storage.flush(self.out) storage.save(self.out) def save_stack( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) next(tkn_iter) next(tkn_iter) self.emit_save(storage) return True def emit_reload(self, storage: Storage) -> None: storage.reload(self.out) def reload_stack( self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: next(tkn_iter) next(tkn_iter) next(tkn_iter) self.emit_reload(storage) return True def instruction_size(self, tkn: Token, tkn_iter: TokenIterator, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> bool: """Replace the INSTRUCTION_SIZE macro with the size of the current instruction.""" if uop.instruction_size is None: raise analysis_error("The INSTRUCTION_SIZE macro requires uop.instruction_size to be set", tkn) self.out.emit(f" {uop.instruction_size} ") return True def _print_storage(self, reason:str, storage: Storage) -> None: if DEBUG: self.out.start_line() self.emit(f"/* {reason} */\n") self.emit(storage.as_comment()) self.out.start_line() def _emit_stmt( self, stmt: Stmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: method_name = "emit_" + stmt.__class__.__name__ method = getattr(self, method_name, None) if method is None: raise NotImplementedError return method(stmt, uop, storage, inst) # type: ignore[no-any-return] def emit_SimpleStmt( self, stmt: SimpleStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: local_stores = set(uop.local_stores) reachable = True tkn = stmt.contents[-1] try: if stmt in uop.properties.escaping_calls: escape = uop.properties.escaping_calls[stmt] if escape.kills is not None: self.stackref_kill(escape.kills, storage, True) self.emit_save(storage) tkn_iter = TokenIterator(stmt.contents) for tkn in tkn_iter: if tkn.kind == "GOTO": label_tkn = next(tkn_iter) self.goto_label(tkn, label_tkn, storage) reachable = False elif tkn.kind == "RETURN": self.emit(tkn) semicolon = emit_to(self.out, tkn_iter, "SEMI") self.emit(semicolon) reachable = False elif tkn.kind == "IDENTIFIER": if tkn.text in self._replacers: if not self._replacers[tkn.text](tkn, tkn_iter, uop, storage, inst): reachable = False else: if tkn in local_stores: for var in storage.inputs: if var.name == tkn.text: var.in_local = True var.memory_offset = None break for var in storage.outputs: if var.name == tkn.text: var.in_local = True var.memory_offset = None break if tkn.text.startswith("DISPATCH"): reachable = False self.out.emit(tkn) else: self.out.emit(tkn) if stmt in uop.properties.escaping_calls: self.emit_reload(storage) return reachable, None, storage except StackError as ex: raise analysis_error(ex.args[0], tkn) #from None def emit_MacroIfStmt( self, stmt: MacroIfStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: self.out.emit(stmt.condition) branch = stmt.else_ is not None reachable = True if branch: else_storage = storage.copy() for s in stmt.body: r, tkn, storage = self._emit_stmt(s, uop, storage, inst) if tkn is not None: self.out.emit(tkn) if not r: reachable = False if branch: assert stmt.else_ is not None self.out.emit(stmt.else_) assert stmt.else_body is not None for s in stmt.else_body: r, tkn, else_storage = self._emit_stmt(s, uop, else_storage, inst) if tkn is not None: self.out.emit(tkn) if not r: reachable = False else_storage.merge(storage, self.out) # type: ignore[possibly-undefined] storage = else_storage self.out.emit(stmt.endif) return reachable, None, storage def emit_IfStmt( self, stmt: IfStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: self.out.emit(stmt.if_) for tkn in stmt.condition: self.out.emit(tkn) if_storage = storage.copy() rbrace: Token | None = stmt.if_ try: reachable, rbrace, if_storage = self._emit_stmt(stmt.body, uop, if_storage, inst) if stmt.else_ is not None: assert rbrace is not None self.out.emit(rbrace) self.out.emit(stmt.else_) if stmt.else_body is not None: else_reachable, rbrace, else_storage = self._emit_stmt(stmt.else_body, uop, storage, inst) if not reachable: reachable, storage = else_reachable, else_storage elif not else_reachable: # Discard the else storage storage = if_storage else: #Both reachable else_storage.merge(if_storage, self.out) storage = else_storage else: if reachable: if_storage.merge(storage, self.out) storage = if_storage else: # Discard the if storage reachable = True return reachable, rbrace, storage except StackError as ex: assert rbrace is not None raise analysis_error(ex.args[0], rbrace) from None def emit_BlockStmt( self, stmt: BlockStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, emit_braces: bool = True, ) -> tuple[bool, Token | None, Storage]: """ Returns (reachable?, closing '}', stack).""" tkn: Token | None = None try: if emit_braces: self.out.emit(stmt.open) reachable = True for s in stmt.body: reachable, tkn, storage = self._emit_stmt(s, uop, storage, inst) if tkn is not None: self.out.emit(tkn) if not reachable: break return reachable, stmt.close, storage except StackError as ex: if tkn is None: tkn = stmt.close raise analysis_error(ex.args[0], tkn) from None def emit_ForStmt( self, stmt: ForStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: """ Returns (reachable?, closing '}', stack).""" self.out.emit(stmt.for_) for tkn in stmt.header: self.out.emit(tkn) return self._emit_stmt(stmt.body, uop, storage, inst) def emit_WhileStmt( self, stmt: WhileStmt, uop: CodeSection, storage: Storage, inst: Instruction | None, ) -> tuple[bool, Token | None, Storage]: """ Returns (reachable?, closing '}', stack).""" self.out.emit(stmt.while_) for tkn in stmt.condition: self.out.emit(tkn) return self._emit_stmt(stmt.body, uop, storage, inst) def emit_tokens( self, code: CodeSection, storage: Storage, inst: Instruction | None, emit_braces: bool = True ) -> tuple[bool, Storage]: self.out.start_line() reachable, tkn, storage = self.emit_BlockStmt(code.body, code, storage, inst, emit_braces) assert tkn is not None try: if reachable: storage.push_outputs() if emit_braces: self.out.emit(tkn) except StackError as ex: raise analysis_error(ex.args[0], tkn) from None return reachable, storage def emit(self, txt: str | Token) -> None: self.out.emit(txt) 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.no_save_ip: flags.append("HAS_NO_SAVE_IP_FLAG") if flags: return " | ".join(flags) else: return "0"