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original.py
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original.py
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#######################################
# IMPORTS
#######################################
from string_with_arrows import *
import string
import os
#######################################
# CONSTANTS
#######################################
DIGITS = '0123456789'
LETTERS = string.ascii_letters
LETTERS_DIGITS = LETTERS + DIGITS
#######################################
# ERRORS
#######################################
class Error:
def __init__(self, pos_start, pos_end, error_name, details):
self.pos_start = pos_start
self.pos_end = pos_end
self.error_name = error_name
self.details = details
def as_string(self):
result = f'{self.error_name}: {self.details}\n'
result += f'File {self.pos_start.fn}, line {self.pos_start.ln + 1}'
result += '\n\n' + string_with_arrows(self.pos_start.ftxt, self.pos_start, self.pos_end)
return result
class IllegalCharError(Error):
def __init__(self, pos_start, pos_end, details):
super().__init__(pos_start, pos_end, 'Illegal Character', details)
class ExpectedCharError(Error):
def __init__(self, pos_start, pos_end, details):
super().__init__(pos_start, pos_end, 'Expected Character', details)
class InvalidSyntaxError(Error):
def __init__(self, pos_start, pos_end, details=''):
super().__init__(pos_start, pos_end, 'Invalid Syntax', details)
class RTError(Error):
def __init__(self, pos_start, pos_end, details, context):
super().__init__(pos_start, pos_end, 'Runtime Error', details)
self.context = context
def as_string(self):
result = self.generate_traceback()
result += f'{self.error_name}: {self.details}'
result += '\n\n' + string_with_arrows(self.pos_start.ftxt, self.pos_start, self.pos_end)
return result
def generate_traceback(self):
result = ''
pos = self.pos_start
ctx = self.context
while ctx:
result = f' File {pos.fn}, line {str(pos.ln + 1)}, in {ctx.display_name}\n' + result
pos = ctx.parent_entry_pos
ctx = ctx.parent
return 'Traceback (most recent call last):\n' + result
#######################################
# POSITION
#######################################
class Position:
def __init__(self, idx, ln, col, fn, ftxt):
self.idx = idx
self.ln = ln
self.col = col
self.fn = fn
self.ftxt = ftxt
def advance(self, current_char=None):
self.idx += 1
self.col += 1
if current_char == '\n':
self.ln += 1
self.col = 0
return self
def copy(self):
return Position(self.idx, self.ln, self.col, self.fn, self.ftxt)
#######################################
# TOKENS
#######################################
TT_INT = 'INT'
TT_FLOAT = 'FLOAT'
TT_STRING = 'STRING'
TT_IDENTIFIER = 'IDENTIFIER'
TT_KEYWORD = 'KEYWORD'
TT_PLUS = 'PLUS'
TT_MINUS = 'MINUS'
TT_MUL = 'MUL'
TT_DIV = 'DIV'
TT_POW = 'POW'
TT_EQ = 'EQ'
TT_LPAREN = 'LPAREN'
TT_RPAREN = 'RPAREN'
TT_LSQUARE = 'LSQUARE'
TT_RSQUARE = 'RSQUARE'
TT_EE = 'EE'
TT_NE = 'NE'
TT_LT = 'LT'
TT_GT = 'GT'
TT_LTE = 'LTE'
TT_GTE = 'GTE'
TT_COMMA = 'COMMA'
TT_ARROW = 'ARROW'
TT_EOF = 'EOF'
TT_NEW_LINE = 'NEW_LINE'
KEYWORDS = [
'pikachu',
'and',
'or',
'not',
'if',
'elif',
'else',
'for',
'to',
'step',
'while',
'pokeball',
'then',
'end',
"return",
"continue",
"break"
]
class Token:
def __init__(self, type_, value=None, pos_start=None, pos_end=None):
self.type = type_
self.value = value
if pos_start:
self.pos_start = pos_start.copy()
self.pos_end = pos_start.copy()
self.pos_end.advance()
if pos_end:
self.pos_end = pos_end.copy()
def matches(self, type_, value):
return self.type == type_ and self.value == value
def __repr__(self):
if self.value: return f'{self.type}:{self.value}'
return f'{self.type}'
#######################################
# LEXER
#######################################
class Lexer:
def __init__(self, fn, text):
self.fn = fn
self.text = text
self.pos = Position(-1, 0, -1, fn, text)
self.current_char = None
self.advance()
def advance(self):
self.pos.advance(self.current_char)
self.current_char = self.text[self.pos.idx] if self.pos.idx < len(self.text) else None
def make_tokens(self):
tokens = []
while self.current_char != None:
if self.current_char in ' \t':
self.advance()
elif self.current_char == "$":
self.skip_comment()
elif self.current_char in ";\n":
tokens.append(Token(TT_NEW_LINE, pos_start=self.pos))
self.advance()
elif self.current_char in DIGITS:
tokens.append(self.make_number())
elif self.current_char in LETTERS:
tokens.append(self.make_identifier())
elif self.current_char == '"':
tokens.append(self.make_string())
elif self.current_char == '+':
tokens.append(Token(TT_PLUS, pos_start=self.pos))
self.advance()
elif self.current_char == '-':
tokens.append(self.make_minus_or_arrow())
elif self.current_char == '*':
tokens.append(Token(TT_MUL, pos_start=self.pos))
self.advance()
elif self.current_char == '/':
tokens.append(Token(TT_DIV, pos_start=self.pos))
self.advance()
elif self.current_char == '^':
tokens.append(Token(TT_POW, pos_start=self.pos))
self.advance()
elif self.current_char == '(':
tokens.append(Token(TT_LPAREN, pos_start=self.pos))
self.advance()
elif self.current_char == ')':
tokens.append(Token(TT_RPAREN, pos_start=self.pos))
self.advance()
elif self.current_char == '[':
tokens.append(Token(TT_LSQUARE, pos_start=self.pos))
self.advance()
elif self.current_char == ']':
tokens.append(Token(TT_RSQUARE, pos_start=self.pos))
self.advance()
elif self.current_char == '!':
token, error = self.make_not_equals()
if error: return [], error
tokens.append(token)
elif self.current_char == '=':
tokens.append(self.make_equals())
elif self.current_char == '<':
tokens.append(self.make_less_than())
elif self.current_char == '>':
tokens.append(self.make_greater_than())
elif self.current_char == ',':
tokens.append(Token(TT_COMMA, pos_start=self.pos))
self.advance()
else:
pos_start = self.pos.copy()
char = self.current_char
self.advance()
return [], IllegalCharError(pos_start, self.pos, "'" + char + "'")
tokens.append(Token(TT_EOF, pos_start=self.pos))
return tokens, None
def make_number(self):
num_str = ''
dot_count = 0
pos_start = self.pos.copy()
while self.current_char != None and self.current_char in DIGITS + '.':
if self.current_char == '.':
if dot_count == 1: break
dot_count += 1
num_str += self.current_char
self.advance()
if dot_count == 0:
return Token(TT_INT, int(num_str), pos_start, self.pos)
else:
return Token(TT_FLOAT, float(num_str), pos_start, self.pos)
def make_string(self):
string = ''
pos_start = self.pos.copy()
escape_character = False
self.advance()
escape_characters = {
'n': '\n',
't': '\t'
}
while self.current_char != None and (self.current_char != '"' or escape_character):
if escape_character:
string += escape_characters.get(self.current_char, self.current_char)
else:
if self.current_char == '\\':
escape_character = True
else:
string += self.current_char
self.advance()
escape_character = False
self.advance()
return Token(TT_STRING, string, pos_start, self.pos)
def make_identifier(self):
id_str = ''
pos_start = self.pos.copy()
while self.current_char != None and self.current_char in LETTERS_DIGITS + '_':
id_str += self.current_char
self.advance()
tok_type = TT_KEYWORD if id_str in KEYWORDS else TT_IDENTIFIER
return Token(tok_type, id_str, pos_start, self.pos)
def make_minus_or_arrow(self):
tok_type = TT_MINUS
pos_start = self.pos.copy()
self.advance()
if self.current_char == '>':
self.advance()
tok_type = TT_ARROW
return Token(tok_type, pos_start=pos_start, pos_end=self.pos)
def make_not_equals(self):
pos_start = self.pos.copy()
self.advance()
if self.current_char == '=':
self.advance()
return Token(TT_NE, pos_start=pos_start, pos_end=self.pos), None
self.advance()
return None, ExpectedCharError(pos_start, self.pos, "'=' (after '!')")
def make_equals(self):
tok_type = TT_EQ
pos_start = self.pos.copy()
self.advance()
if self.current_char == '=':
self.advance()
tok_type = TT_EE
return Token(tok_type, pos_start=pos_start, pos_end=self.pos)
def make_less_than(self):
tok_type = TT_LT
pos_start = self.pos.copy()
self.advance()
if self.current_char == '=':
self.advance()
tok_type = TT_LTE
return Token(tok_type, pos_start=pos_start, pos_end=self.pos)
def make_greater_than(self):
tok_type = TT_GT
pos_start = self.pos.copy()
self.advance()
if self.current_char == '=':
self.advance()
tok_type = TT_GTE
return Token(tok_type, pos_start=pos_start, pos_end=self.pos)
def skip_comment(self):
self.advance()
while self.current_char != "\n":
self.advance()
self.advance()
return None
#######################################
# NODES
#######################################
class NumberNode:
def __init__(self, tok):
self.tok = tok
self.pos_start = self.tok.pos_start
self.pos_end = self.tok.pos_end
def __repr__(self):
return f'{self.tok}'
class StringNode:
def __init__(self, tok):
self.tok = tok
self.pos_start = self.tok.pos_start
self.pos_end = self.tok.pos_end
def __repr__(self):
return f'{self.tok}'
class ListNode:
def __init__(self, element_nodes, pos_start, pos_end):
self.element_nodes = element_nodes
self.pos_start = pos_start
self.pos_end = pos_end
class VarAccessNode:
def __init__(self, var_name_tok):
self.var_name_tok = var_name_tok
self.pos_start = self.var_name_tok.pos_start
self.pos_end = self.var_name_tok.pos_end
class VarAssignNode:
def __init__(self, var_name_tok, value_node):
self.var_name_tok = var_name_tok
self.value_node = value_node
self.pos_start = self.var_name_tok.pos_start
self.pos_end = self.value_node.pos_end
class BinOpNode:
def __init__(self, left_node, op_tok, right_node):
self.left_node = left_node
self.op_tok = op_tok
self.right_node = right_node
self.pos_start = self.left_node.pos_start
self.pos_end = self.right_node.pos_end
def __repr__(self):
return f'({self.left_node}, {self.op_tok}, {self.right_node})'
class UnaryOpNode:
def __init__(self, op_tok, node):
self.op_tok = op_tok
self.node = node
self.pos_start = self.op_tok.pos_start
self.pos_end = node.pos_end
def __repr__(self):
return f'({self.op_tok}, {self.node})'
class IfNode:
def __init__(self, cases, else_case):
self.cases = cases
self.else_case = else_case
self.pos_start = self.cases[0][0].pos_start
self.pos_end = (self.else_case or self.cases[len(self.cases) - 1])[0].pos_end
class ForNode:
def __init__(self, var_name_tok, start_value_node, end_value_node, step_value_node, body_node, should_return_null):
self.var_name_tok = var_name_tok
self.start_value_node = start_value_node
self.end_value_node = end_value_node
self.step_value_node = step_value_node
self.body_node = body_node
self.should_return_null = should_return_null
self.pos_start = self.var_name_tok.pos_start
self.pos_end = self.body_node.pos_end
class WhileNode:
def __init__(self, condition_node, body_node, should_return_null):
self.condition_node = condition_node
self.body_node = body_node
self.should_return_null = should_return_null
self.pos_start = self.condition_node.pos_start
self.pos_end = self.body_node.pos_end
class FuncDefNode:
def __init__(self, var_name_tok, arg_name_toks, body_node, should_auto_return):
self.var_name_tok = var_name_tok
self.arg_name_toks = arg_name_toks
self.body_node = body_node
self.should_auto_return = should_auto_return
if self.var_name_tok:
self.pos_start = self.var_name_tok.pos_start
elif len(self.arg_name_toks) > 0:
self.pos_start = self.arg_name_toks[0].pos_start
else:
self.pos_start = self.body_node.pos_start
self.pos_end = self.body_node.pos_end
class CallNode:
def __init__(self, node_to_call, arg_nodes):
self.node_to_call = node_to_call
self.arg_nodes = arg_nodes
self.pos_start = self.node_to_call.pos_start
if len(self.arg_nodes) > 0:
self.pos_end = self.arg_nodes[len(self.arg_nodes) - 1].pos_end
else:
self.pos_end = self.node_to_call.pos_end
class ReturnNode:
def __init__(self,node_to_return,pos_start,pos_end):
self.node_to_return=node_to_return
self.pos_start=pos_start
self.pos_end=pos_end
class ContinueNode:
def __init__(self,pos_start,pos_end):
self.pos_start=pos_start
self.pos_end=pos_end
class BreakNode:
def __init__(self,pos_start,pos_end):
self.pos_start=pos_start
self.pos_end=pos_end
#######################################
# PARSE RESULT
#######################################
class ParseResult:
def __init__(self):
self.error = None
self.node = None
self.last_registered_advance_count = 0
self.advance_count = 0
self.to_reverse_count = 0
def register_advancement(self):
self.last_registered_advance_count = 1
self.advance_count += 1
def register(self, res):
self.last_registered_advance_count = res.advance_count
self.advance_count += res.advance_count
if res.error: self.error = res.error
return res.node
def try_register(self, res):
if res.error:
self.to_reverse_count = res.advance_count
return None
return self.register(res)
def success(self, node):
self.node = node
return self
def failure(self, error):
if not self.error or self.last_registered_advance_count == 0:
self.error = error
return self
#######################################
# PARSER
#######################################
class Parser:
def __init__(self, tokens):
self.tokens = tokens
self.tok_idx = -1
self.advance()
def advance(self, ):
self.tok_idx += 1
self.update_current_tok()
return self.current_tok
def reverse(self,amount=1):
self.tok_idx -= amount
self.update_current_tok()
return self.current_tok
def update_current_tok(self):
if self.tok_idx >= 0 and self.tok_idx < len(self.tokens):
self.current_tok = self.tokens[self.tok_idx]
def parse(self):
res = self.statements()
if not res.error and self.current_tok.type != TT_EOF:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected '+', '-', '*', '/', '^', '==', '!=', '<', '>', <=', '>=', 'AND' or 'OR'"
))
return res
###################################
def statements(self):
res = ParseResult()
statements = []
pos_start = self.current_tok.pos_start.copy()
while self.current_tok.type == TT_NEW_LINE:
res.register_advancement()
self.advance()
statement = res.register(self.statment())
if res.error: return res
statements.append(statement)
more_statements = True
while True:
newline_count = 0
while self.current_tok.type == TT_NEW_LINE:
res.register_advancement()
self.advance()
newline_count += 1
if newline_count == 0:
more_statements = False
if not more_statements: break
statement = res.try_register(self.statment())
if not statement:
self.reverse(res.to_reverse_count)
more_statements = False
continue
statements.append(statement)
return res.success(ListNode(
statements,
pos_start,
self.current_tok.pos_end.copy()
))
def statment(self):
res=ParseResult()
pos_start=self.current_tok.pos_start.copy()
if self.current_tok.matches(TT_KEYWORD,"return"):
res.register_advancement()
self.advance()
expr=res.try_register(self.expr())
if not expr:
self.reverse(res.to_reverse_count)
return res.success(ReturnNode(expr,pos_start,self.current_tok.pos_start.copy()))
if self.current_tok.matches(TT_KEYWORD,"continue"):
res.register_advancement()
self.advance()
return res.success(ContinueNode(pos_start,self.current_tok.pos_start.copy()))
if self.current_tok.matches(TT_KEYWORD,"break"):
res.register_advancement()
self.advance()
return res.success(BreakNode(pos_start,self.current_tok.pos_start.copy()))
expr=res.register(self.expr())
if res.error:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start,self.current_tok.pos_end,
"Expected 'return','continue','break','pikachu','if','for','while','pokeball',int,float,identifier,'+','-','(','[','NOT'"
))
return res.success(expr)
def expr(self):
res = ParseResult()
if self.current_tok.matches(TT_KEYWORD, 'pikachu'):
res.register_advancement()
self.advance()
if self.current_tok.type != TT_IDENTIFIER:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected identifier"
))
var_name = self.current_tok
res.register_advancement()
self.advance()
if self.current_tok.type != TT_EQ:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected '='"
))
res.register_advancement()
self.advance()
expr = res.register(self.expr())
if res.error: return res
return res.success(VarAssignNode(var_name, expr))
node = res.register(self.bin_op(self.comp_expr, ((TT_KEYWORD, 'and'), (TT_KEYWORD, 'or'))))
if res.error:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected 'pikachu', 'if', 'for', 'while', 'pokeball', int, float, identifier, '+', '-', '(', '[' or 'NOT'"
))
return res.success(node)
def comp_expr(self):
res = ParseResult()
if self.current_tok.matches(TT_KEYWORD, 'not'):
op_tok = self.current_tok
res.register_advancement()
self.advance()
node = res.register(self.comp_expr())
if res.error: return res
return res.success(UnaryOpNode(op_tok, node))
node = res.register(self.bin_op(self.arith_expr, (TT_EE, TT_NE, TT_LT, TT_GT, TT_LTE, TT_GTE)))
if res.error:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected int, float, identifier, '+', '-', '(', '[', 'if', 'for', 'while', 'pokeball' or 'not'"
))
return res.success(node)
def arith_expr(self):
return self.bin_op(self.term, (TT_PLUS, TT_MINUS))
def term(self):
return self.bin_op(self.factor, (TT_MUL, TT_DIV))
def factor(self):
res = ParseResult()
tok = self.current_tok
if tok.type in (TT_PLUS, TT_MINUS):
res.register_advancement()
self.advance()
factor = res.register(self.factor())
if res.error: return res
return res.success(UnaryOpNode(tok, factor))
return self.power()
def power(self):
return self.bin_op(self.call, (TT_POW, ), self.factor)
def call(self):
res = ParseResult()
atom = res.register(self.atom())
if res.error: return res
if self.current_tok.type == TT_LPAREN:
res.register_advancement()
self.advance()
arg_nodes = []
if self.current_tok.type == TT_RPAREN:
res.register_advancement()
self.advance()
else:
arg_nodes.append(res.register(self.expr()))
if res.error:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected ')', 'pikachu', 'if', 'for', 'while', 'pokeball', int, float, identifier, '+', '-', '(', '[' or 'NOT'"
))
while self.current_tok.type == TT_COMMA:
res.register_advancement()
self.advance()
arg_nodes.append(res.register(self.expr()))
if res.error: return res
if self.current_tok.type != TT_RPAREN:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected ',' or ')'"
))
res.register_advancement()
self.advance()
return res.success(CallNode(atom, arg_nodes))
return res.success(atom)
def atom(self):
res = ParseResult()
tok = self.current_tok
if tok.type in (TT_INT, TT_FLOAT):
res.register_advancement()
self.advance()
return res.success(NumberNode(tok))
elif tok.type == TT_STRING:
res.register_advancement()
self.advance()
return res.success(StringNode(tok))
elif tok.type == TT_IDENTIFIER:
res.register_advancement()
self.advance()
return res.success(VarAccessNode(tok))
elif tok.type == TT_LPAREN:
res.register_advancement()
self.advance()
expr = res.register(self.expr())
if res.error: return res
if self.current_tok.type == TT_RPAREN:
res.register_advancement()
self.advance()
return res.success(expr)
else:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected ')'"
))
elif tok.type == TT_LSQUARE:
list_expr = res.register(self.list_expr())
if res.error: return res
return res.success(list_expr)
elif tok.matches(TT_KEYWORD, 'if'):
if_expr = res.register(self.if_expr())
if res.error: return res
return res.success(if_expr)
elif tok.matches(TT_KEYWORD, 'for'):
for_expr = res.register(self.for_expr())
if res.error: return res
return res.success(for_expr)
elif tok.matches(TT_KEYWORD, 'while'):
while_expr = res.register(self.while_expr())
if res.error: return res
return res.success(while_expr)
elif tok.matches(TT_KEYWORD, 'pokeball'):
func_def = res.register(self.func_def())
if res.error: return res
return res.success(func_def)
return res.failure(InvalidSyntaxError(
tok.pos_start, tok.pos_end,
"Expected int, float, identifier, '+', '-', '(', '[', if', 'for', 'while', 'pokeball'"
))
def list_expr(self):
res = ParseResult()
element_nodes = []
pos_start = self.current_tok.pos_start.copy()
if self.current_tok.type != TT_LSQUARE:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected '['"
))
res.register_advancement()
self.advance()
if self.current_tok.type == TT_RSQUARE:
res.register_advancement()
self.advance()
else:
element_nodes.append(res.register(self.expr()))
if res.error:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected ']', 'pikachu', 'if', 'for', 'while', 'pokeball', int, float, identifier, '+', '-', '(', '[' or 'NOT'"
))
while self.current_tok.type == TT_COMMA:
res.register_advancement()
self.advance()
element_nodes.append(res.register(self.expr()))
if res.error: return res
if self.current_tok.type != TT_RSQUARE:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected ',' or ']'"
))
res.register_advancement()
self.advance()
return res.success(ListNode(
element_nodes,
pos_start,
self.current_tok.pos_end.copy()
))
def if_expr(self):
res = ParseResult()
all_cases=res.register(self.if_expr_cases('if'))
if res.error:return res
cases,else_case=all_cases
return res.success(IfNode(cases,else_case))
def if_expr_b(self):
return self.if_expr_cases('elif')
def if_expr_c(self):
res = ParseResult()
else_case = None
if self.current_tok.matches(TT_KEYWORD, 'else'):
res.register_advancement()
self.advance()
if self.current_tok.type == TT_NEW_LINE:
res.register_advancement()
self.advance()
statements = res.register(self.statements())
if res.error: return res
else_case = (statements, True)
if self.current_tok.matches(TT_KEYWORD, 'end'):
res.register_advancement()
self.advance()
else:
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
"Expected 'END'"
))
else:
expr = res.register(self.statment())
if res.error: return res
else_case = (expr, False)
return res.success(else_case)
def if_expr_b_or_c(self):
res = ParseResult()
cases,else_case=[],None
if self.current_tok.matches(TT_KEYWORD,'elif'):
all_cases=res.register(self.if_expr_b_or_c())
if res.error:return res
cases,else_case=all_cases
else:
else_case=res.register(self.if_expr_c())
if res.error:return res
return res.success((cases,else_case))
def if_expr_cases(self, case_keyword):
res = ParseResult()
cases = []
else_case = None
if not self.current_tok.matches(TT_KEYWORD, case_keyword):
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected '{case_keyword}'"
))
res.register_advancement()
self.advance()
condition = res.register(self.expr())
if res.error: return res
if not self.current_tok.matches(TT_KEYWORD, 'then'):
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected 'then'"
))
res.register_advancement()
self.advance()
if self.current_tok.type == TT_NEW_LINE:
res.register_advancement()
self.advance()
statements = res.register(self.statements())
if res.error: return res
cases.append((condition, statements, True))
if self.current_tok.matches(TT_KEYWORD, 'end'):
res.register_advancement()
self.advance()
else:
all_cases = res.register(self.if_expr_b_or_c())
if res.error: return res
new_cases, else_case = all_cases
cases.extend(new_cases)
else:
expr = res.register(self.statment())
if res.error: return res
cases.append((condition, expr, False))
all_cases = res.register(self.if_expr_b_or_c())
if res.error: return res
new_cases, else_case = all_cases
cases.extend(new_cases)
return res.success((cases, else_case))
def for_expr(self):
res = ParseResult()
if not self.current_tok.matches(TT_KEYWORD, 'for'):
return res.failure(InvalidSyntaxError(
self.current_tok.pos_start, self.current_tok.pos_end,
f"Expected 'for'"
))
res.register_advancement()