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""" SPI - Simple Pascal Interpreter """
###############################################################################
# #
# LEXER #
# #
###############################################################################
# Token types
#
# EOF (end-of-file) token is used to indicate that
# there is no more input left for lexical analysis
from iamai import Plugin
from HydroRoll.utils import HydroDice
INTEGER, PLUS, MINUS, MUL, DIV, LPAREN, RPAREN, EOF = (
"INTEGER",
"PLUS",
"MINUS",
"MUL",
"DIV",
"(",
")",
"EOF",
)
DICE = "DICE"
class Token(object):
"""A single token from the lexer."""
def __init__(self, _type, _value):
self.type = _type
self.value = _value
def __str__(self):
"""String representation of the class instance.
Examples:
Token(INTEGER, 3)
Token(PLUS, '+')
Token(MUL, '*')
"""
return f"Token({self.type}, {repr(self.value)})"
def __repr__(self):
return self.__str__()
class Lexer(object):
"""A lexer for the Psi language."""
def __init__(self, text):
# client string input, e.g. "4 + 2 * 3 - 6 / 2"
self.text = text
# self.pos is an index into self.text
self.pos = 0
self.current_char = self.text[self.pos]
def error(self):
"""Raise an exception at the current position."""
raise ValueError("Invalid character")
def advance(self):
"""Advance the `pos` pointer and set the `current_char` variable."""
self.pos += 1
if self.pos > len(self.text) - 1:
self.current_char = None # Indicates end of input
else:
self.current_char = self.text[self.pos]
def skip_whitespace(self):
while self.current_char is not None and self.current_char.isspace():
self.advance()
def integer(self):
"""Return a (multidigit) integer consumed from the input."""
result = ""
while self.current_char is not None and self.current_char.isdigit():
result += self.current_char
self.advance()
return int(result)
def get_next_token(self):
"""Lexical analyzer (also known as scanner or tokenizer)"""
while self.current_char is not None:
if self.current_char.isspace():
self.skip_whitespace()
continue
token_type = {
"+": PLUS,
"-": MINUS,
"d": DICE,
"*": MUL,
"/": DIV,
"(": LPAREN,
")": RPAREN,
}.get(self.current_char)
if token_type:
self.advance()
return Token(token_type, self.current_char)
if self.current_char.isdigit():
return Token(INTEGER, self.integer())
self.error()
return Token(EOF, None)
###############################################################################
# #
# PARSER #
# #
###############################################################################
class AST(object):
pass
class BinOp(AST):
def __init__(self, left, op, right):
self.left = left
self.token = self.op = op
self.right = right
class Num(AST):
def __init__(self, token):
self.token = token
self.value = token.value
class UnaryOp(AST):
def __init__(self, op, expr):
self.token = self.op = op
self.expr = expr
class Parser(object):
def __init__(self, lexer):
self.lexer = lexer
# set current token to the first token taken from the input
self.current_token = self.lexer.get_next_token()
def error(self):
raise Exception("Invalid syntax")
def eat(self, token_type):
# compare the current token type with the passed token
# type and if they match then "eat" the current token
# and assign the next token to the self.current_token,
# otherwise raise an exception.
if self.current_token.type == token_type:
self.current_token = self.lexer.get_next_token()
else:
self.error()
def factor(self):
"""factor : (PLUS | MINUS | DICE) factor | INTEGER | LPAREN expr RPAREN"""
token = self.current_token
if token.type == PLUS:
self.eat(PLUS)
node = UnaryOp(token, self.factor())
return node
elif token.type == MINUS:
self.eat(MINUS)
node = UnaryOp(token, self.factor())
return node
elif token.type == DICE:
self.eat(DICE)
left = Num(Token(INTEGER, 1)) # 默认骰子个数为1
right = self.factor()
node = BinOp(left, token, right)
return node
elif token.type == INTEGER:
self.eat(INTEGER)
return Num(token)
elif token.type == LPAREN:
self.eat(LPAREN)
node = self.expr()
self.eat(RPAREN)
return node
def term(self):
"""term : factor ((MUL | DIV) factor)*"""
node = self.factor()
while self.current_token.type in (MUL, DIV):
token = self.current_token
if token.type == MUL:
self.eat(MUL)
elif token.type == DIV:
self.eat(DIV)
node = BinOp(left=node, op=token, right=self.factor())
return node
def expr(self):
"""
expr : term ((PLUS | MINUS) term)*
term : factor ((MUL | DIV) factor)*
factor : (PLUS | MINUS) factor | INTEGER | LPAREN expr RPAREN
"""
node = self.term()
while self.current_token.type in (PLUS, MINUS):
token = self.current_token
if token.type == PLUS:
self.eat(PLUS)
elif token.type == MINUS:
self.eat(MINUS)
node = BinOp(left=node, op=token, right=self.term())
return node
def parse(self):
node = self.expr()
if self.current_token.type != EOF:
self.error()
return node
###############################################################################
# #
# INTERPRETER #
# #
###############################################################################
class NodeVisitor(object):
def visit(self, node):
method_name = "visit_" + type(node).__name__
visitor = getattr(self, method_name, self.generic_visit)
return visitor(node)
def generic_visit(self, node):
raise Exception("No visit_{} method".format(type(node).__name__))
class Interpreter(NodeVisitor):
def __init__(self, parser):
self.parser = parser
def visit_BinOp(self, node):
if node.op.type == PLUS:
return self.visit(node.left) + self.visit(node.right)
elif node.op.type == MINUS:
return self.visit(node.left) - self.visit(node.right)
elif node.op.type == DICE:
return int(
HydroDice(1).roll_dice(
_counts=self.visit(node.left),
_sides=self.visit(node.right),
streamline=True,
)
)
elif node.op.type == MUL:
return self.visit(node.left) * self.visit(node.right)
elif node.op.type == DIV:
return self.visit(node.left) // self.visit(node.right)
def visit_Num(self, node):
return node.value
def visit_UnaryOp(self, node):
op = node.op.type
if op == PLUS:
return +self.visit(node.expr)
elif op == MINUS:
return -self.visit(node.expr)
def interpret(self):
tree = self.parser.parse()
if tree is None:
return ""
return self.visit(tree)
class Psi(Plugin):
async def handle(self) -> None:
lexer = Lexer(self.event.message.get_plain_text()[4:])
parser = Parser(lexer)
interpreter = Interpreter(parser)
result = interpreter.interpret()
await self.event.reply(str(result))
async def rule(self) -> bool:
return self.event.type == "message" and self.event.message.startswith(".psi")
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