def _unary(cls, tok: Token) -> Node: # unary = ("+" | "-") unary | primary if Tokenizer.equal(tok, "+"): return cls._unary(unwrap_optional(tok.next)) if Tokenizer.equal(tok, "-"): return Node(NodeKind.ND_NEG, lhs=cls._unary(unwrap_optional(tok.next))) return cls._primary(tok)
def _primary(cls, tok: Token) -> Node: # primary = "(" expr ")" | ident | num if Tokenizer.equal(tok, "("): node = cls._expr(unwrap_optional(tok.next)) cls._rest = unwrap_optional(Tokenizer.skip(cls._rest, ")")) return node if tok.kind == TokenKind.TK_IDENT: node = Node(NodeKind.ND_VAR, name=cls._prog[tok.loc]) cls._rest = unwrap_optional(tok.next) return node if tok.kind == TokenKind.TK_NUM: node = Node(NodeKind.ND_NUM, val=tok.val) cls._rest = unwrap_optional(tok.next) return node raise TokenError(tok, cls._prog, "expected an expression")
def main(argv): if len(argv) != 2: raise PyccError(f"{argv[0]} invalid number of arguments") prog = argv[1] tok: Token = Tokenizer.tokenize(prog) node = Parser.parse(tok, prog) Codegen.codegen(node)
def _assign(cls, tok: Token) -> Node: # assign = equality ("=" assign)? node = cls._equality(tok) if Tokenizer.equal(cls._rest, "="): node = Node( NodeKind.ND_ASSIGN, lhs=node, rhs=cls._assign(unwrap_optional(cls._rest.next)), ) return node
def _mul(cls, tok: Token) -> Node: # mul = unary ("*" unary | "/" unary)* node = cls._unary(tok) while True: if Tokenizer.equal(cls._rest, "/"): node = Node( NodeKind.ND_DIV, lhs=node, rhs=cls._unary(unwrap_optional(cls._rest.next)), ) continue if Tokenizer.equal(cls._rest, "*"): node = Node( NodeKind.ND_MUL, lhs=node, rhs=cls._unary(unwrap_optional(cls._rest.next)), ) continue return node
def _equality(cls, tok: Token) -> Node: # equality = relational ("==" relational | "!=" relational)* node = cls._relational(tok) while True: if Tokenizer.equal(cls._rest, "=="): node = Node( NodeKind.ND_EQ, lhs=node, rhs=cls._relational(unwrap_optional(cls._rest.next)), ) continue if Tokenizer.equal(cls._rest, "!="): node = Node( NodeKind.ND_NE, lhs=node, rhs=cls._relational(unwrap_optional(cls._rest.next)), ) continue return node
def _add(cls, tok: Token) -> Node: # add = mul ("+" mul | "-" mul)*`` node = cls._mul(tok) while True: if Tokenizer.equal(cls._rest, "+"): node = Node( NodeKind.ND_ADD, lhs=node, rhs=cls._mul(unwrap_optional(cls._rest.next)), ) continue if Tokenizer.equal(cls._rest, "-"): node = Node( NodeKind.ND_SUB, lhs=node, rhs=cls._mul(unwrap_optional(cls._rest.next)), ) continue return node
def _relational(cls, tok: Token) -> Node: # relational = add ("<" add | "<=" add | ">" add | ">=" add)* node = cls._add(tok) while True: if Tokenizer.equal(cls._rest, "<"): node = Node( NodeKind.ND_LT, lhs=node, rhs=cls._add(unwrap_optional(cls._rest.next)), ) continue if Tokenizer.equal(cls._rest, "<="): node = Node( NodeKind.ND_LE, lhs=node, rhs=cls._add(unwrap_optional(cls._rest.next)), ) continue if Tokenizer.equal(cls._rest, ">"): node = Node( NodeKind.ND_LT, lhs=cls._add(unwrap_optional(cls._rest.next)), rhs=node, ) continue if Tokenizer.equal(cls._rest, ">="): node = Node( NodeKind.ND_LE, lhs=cls._add(unwrap_optional(cls._rest.next)), rhs=node, ) continue return node
def _expr_stmt(cls, tok: Token) -> Node: # expr-stmt = expr ";" node = Node(NodeKind.ND_EXPR_STMT, lhs=cls._expr(tok)) cls._rest = unwrap_optional(Tokenizer.skip(cls._rest, ";")) return node