#!/usr/bin/env python3 """The core VM/interpreter model.""" import typing as t from ichor.isa import Opcode class Identifier(t.NamedTuple): name: str class FunctionSignature(t.NamedTuple): raw: str type_params: list name: str args: list ret: list @staticmethod def parse_list(l): return [e for e in l.split(",") if e] @classmethod def parse(cls, raw: str): vars, name, args, ret = raw.split(";") return cls( raw, cls.parse_list(vars), name, cls.parse_list(args), cls.parse_list(ret) ) class FunctionRef(t.NamedTuple): raw: str type_params: list name: str args: list ret: list @staticmethod def parse_list(l): return [e for e in l.split(",") if e] @classmethod def parse(cls, raw: str): vars, name, args, ret = raw.split(";") return cls( raw, cls.parse_list(vars), name, cls.parse_list(args), cls.parse_list(ret) ) class Function(t.NamedTuple): name: str class Closure(t.NamedTuple): # Note that a closure over a closure is equivalent to a single closure which extends the captured stack fragment, so # there's no need for a union here as we can simply convert nested closures. funref: FunctionRef frag: t.List[t.Any] class Struct(t.NamedTuple): name: str type_params: list children: t.Mapping[str, t.Any] class Module(t.NamedTuple): codepage: list = [] functions: dict = {} types: dict = {} constants: dict = {} def copy(self) -> "Module": return Module( self.codepage.copy(), self.functions.copy(), self.types.copy(), self.constants.copy(), ) @staticmethod def translate(start: int, end: int, i: Opcode): # FIXME: Consolidate bounds checks somehow match i: case Opcode.IF(t): d = t + start assert start <= d < end return Opcode.IF(d) case Opcode.GOTO(t): d = t + start assert start <= d < end return Opcode.GOTO(d) case _: return i def define_function(self, name, opcodes): """Enter a function into module. Side-effects the codepage and name table. """ try: sig = FunctionRef.parse(name) assert sig.name except: raise ValueError("Illegal name provided") start = len(self.codepage) self.functions[name] = start for op in opcodes: self.codepage.append(self.translate(start, start + len(opcodes), op)) return name def define_type(self, name, signature): self.types[name] = signature return name def __str__(self): b = [] marks = {v: k for k, v in self.functions.items()} for i, o in zip(range(1<<64), self.codepage): if(i in marks): b.append(f"{marks[i]}:") b.append(f"{i: >10}: {o}") return "\n".join(b)