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- import collections
- import contextlib
- import itertools
- import json
- import math
- import operator
- import re
- from .utils import (
- NO_DEFAULT,
- ExtractorError,
- function_with_repr,
- js_to_json,
- remove_quotes,
- truncate_string,
- unified_timestamp,
- write_string,
- )
- def _js_bit_op(op):
- def zeroise(x):
- if x in (None, JS_Undefined):
- return 0
- with contextlib.suppress(TypeError):
- if math.isnan(x): # NB: NaN cannot be checked by membership
- return 0
- return x
- def wrapped(a, b):
- return op(zeroise(a), zeroise(b)) & 0xffffffff
- return wrapped
- def _js_arith_op(op):
- def wrapped(a, b):
- if JS_Undefined in (a, b):
- return float('nan')
- return op(a or 0, b or 0)
- return wrapped
- def _js_div(a, b):
- if JS_Undefined in (a, b) or not (a or b):
- return float('nan')
- return (a or 0) / b if b else float('inf')
- def _js_mod(a, b):
- if JS_Undefined in (a, b) or not b:
- return float('nan')
- return (a or 0) % b
- def _js_exp(a, b):
- if not b:
- return 1 # even 0 ** 0 !!
- elif JS_Undefined in (a, b):
- return float('nan')
- return (a or 0) ** b
- def _js_eq_op(op):
- def wrapped(a, b):
- if {a, b} <= {None, JS_Undefined}:
- return op(a, a)
- return op(a, b)
- return wrapped
- def _js_comp_op(op):
- def wrapped(a, b):
- if JS_Undefined in (a, b):
- return False
- if isinstance(a, str) or isinstance(b, str):
- return op(str(a or 0), str(b or 0))
- return op(a or 0, b or 0)
- return wrapped
- def _js_ternary(cndn, if_true=True, if_false=False):
- """Simulate JS's ternary operator (cndn?if_true:if_false)"""
- if cndn in (False, None, 0, '', JS_Undefined):
- return if_false
- with contextlib.suppress(TypeError):
- if math.isnan(cndn): # NB: NaN cannot be checked by membership
- return if_false
- return if_true
- # Ref: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Operator_Precedence
- _OPERATORS = { # None => Defined in JSInterpreter._operator
- '?': None,
- '??': None,
- '||': None,
- '&&': None,
- '|': _js_bit_op(operator.or_),
- '^': _js_bit_op(operator.xor),
- '&': _js_bit_op(operator.and_),
- '===': operator.is_,
- '!==': operator.is_not,
- '==': _js_eq_op(operator.eq),
- '!=': _js_eq_op(operator.ne),
- '<=': _js_comp_op(operator.le),
- '>=': _js_comp_op(operator.ge),
- '<': _js_comp_op(operator.lt),
- '>': _js_comp_op(operator.gt),
- '>>': _js_bit_op(operator.rshift),
- '<<': _js_bit_op(operator.lshift),
- '+': _js_arith_op(operator.add),
- '-': _js_arith_op(operator.sub),
- '*': _js_arith_op(operator.mul),
- '%': _js_mod,
- '/': _js_div,
- '**': _js_exp,
- }
- _COMP_OPERATORS = {'===', '!==', '==', '!=', '<=', '>=', '<', '>'}
- _NAME_RE = r'[a-zA-Z_$][\w$]*'
- _MATCHING_PARENS = dict(zip(*zip('()', '{}', '[]')))
- _QUOTES = '\'"/'
- class JS_Undefined:
- pass
- class JS_Break(ExtractorError):
- def __init__(self):
- ExtractorError.__init__(self, 'Invalid break')
- class JS_Continue(ExtractorError):
- def __init__(self):
- ExtractorError.__init__(self, 'Invalid continue')
- class JS_Throw(ExtractorError):
- def __init__(self, e):
- self.error = e
- ExtractorError.__init__(self, f'Uncaught exception {e}')
- class LocalNameSpace(collections.ChainMap):
- def __setitem__(self, key, value):
- for scope in self.maps:
- if key in scope:
- scope[key] = value
- return
- self.maps[0][key] = value
- def __delitem__(self, key):
- raise NotImplementedError('Deleting is not supported')
- class Debugger:
- import sys
- ENABLED = False and 'pytest' in sys.modules
- @staticmethod
- def write(*args, level=100):
- write_string(f'[debug] JS: {" " * (100 - level)}'
- f'{" ".join(truncate_string(str(x), 50, 50) for x in args)}\n')
- @classmethod
- def wrap_interpreter(cls, f):
- def interpret_statement(self, stmt, local_vars, allow_recursion, *args, **kwargs):
- if cls.ENABLED and stmt.strip():
- cls.write(stmt, level=allow_recursion)
- try:
- ret, should_ret = f(self, stmt, local_vars, allow_recursion, *args, **kwargs)
- except Exception as e:
- if cls.ENABLED:
- if isinstance(e, ExtractorError):
- e = e.orig_msg
- cls.write('=> Raises:', e, '<-|', stmt, level=allow_recursion)
- raise
- if cls.ENABLED and stmt.strip():
- if should_ret or repr(ret) != stmt:
- cls.write(['->', '=>'][should_ret], repr(ret), '<-|', stmt, level=allow_recursion)
- return ret, should_ret
- return interpret_statement
- class JSInterpreter:
- __named_object_counter = 0
- _RE_FLAGS = {
- # special knowledge: Python's re flags are bitmask values, current max 128
- # invent new bitmask values well above that for literal parsing
- # TODO: new pattern class to execute matches with these flags
- 'd': 1024, # Generate indices for substring matches
- 'g': 2048, # Global search
- 'i': re.I, # Case-insensitive search
- 'm': re.M, # Multi-line search
- 's': re.S, # Allows . to match newline characters
- 'u': re.U, # Treat a pattern as a sequence of unicode code points
- 'y': 4096, # Perform a "sticky" search that matches starting at the current position in the target string
- }
- def __init__(self, code, objects=None):
- self.code, self._functions = code, {}
- self._objects = {} if objects is None else objects
- class Exception(ExtractorError): # noqa: A001
- def __init__(self, msg, expr=None, *args, **kwargs):
- if expr is not None:
- msg = f'{msg.rstrip()} in: {truncate_string(expr, 50, 50)}'
- super().__init__(msg, *args, **kwargs)
- def _named_object(self, namespace, obj):
- self.__named_object_counter += 1
- name = f'__yt_dlp_jsinterp_obj{self.__named_object_counter}'
- if callable(obj) and not isinstance(obj, function_with_repr):
- obj = function_with_repr(obj, f'F<{self.__named_object_counter}>')
- namespace[name] = obj
- return name
- @classmethod
- def _regex_flags(cls, expr):
- flags = 0
- if not expr:
- return flags, expr
- for idx, ch in enumerate(expr): # noqa: B007
- if ch not in cls._RE_FLAGS:
- break
- flags |= cls._RE_FLAGS[ch]
- return flags, expr[idx + 1:]
- @staticmethod
- def _separate(expr, delim=',', max_split=None):
- OP_CHARS = '+-*/%&|^=<>!,;{}:['
- if not expr:
- return
- counters = {k: 0 for k in _MATCHING_PARENS.values()}
- start, splits, pos, delim_len = 0, 0, 0, len(delim) - 1
- in_quote, escaping, after_op, in_regex_char_group = None, False, True, False
- for idx, char in enumerate(expr):
- if not in_quote and char in _MATCHING_PARENS:
- counters[_MATCHING_PARENS[char]] += 1
- elif not in_quote and char in counters:
- # Something's wrong if we get negative, but ignore it anyway
- if counters[char]:
- counters[char] -= 1
- elif not escaping:
- if char in _QUOTES and in_quote in (char, None):
- if in_quote or after_op or char != '/':
- in_quote = None if in_quote and not in_regex_char_group else char
- elif in_quote == '/' and char in '[]':
- in_regex_char_group = char == '['
- escaping = not escaping and in_quote and char == '\\'
- in_unary_op = (not in_quote and not in_regex_char_group
- and after_op not in (True, False) and char in '-+')
- after_op = char if (not in_quote and char in OP_CHARS) else (char.isspace() and after_op)
- if char != delim[pos] or any(counters.values()) or in_quote or in_unary_op:
- pos = 0
- continue
- elif pos != delim_len:
- pos += 1
- continue
- yield expr[start: idx - delim_len]
- start, pos = idx + 1, 0
- splits += 1
- if max_split and splits >= max_split:
- break
- yield expr[start:]
- @classmethod
- def _separate_at_paren(cls, expr, delim=None):
- if delim is None:
- delim = expr and _MATCHING_PARENS[expr[0]]
- separated = list(cls._separate(expr, delim, 1))
- if len(separated) < 2:
- raise cls.Exception(f'No terminating paren {delim}', expr)
- return separated[0][1:].strip(), separated[1].strip()
- def _operator(self, op, left_val, right_expr, expr, local_vars, allow_recursion):
- if op in ('||', '&&'):
- if (op == '&&') ^ _js_ternary(left_val):
- return left_val # short circuiting
- elif op == '??':
- if left_val not in (None, JS_Undefined):
- return left_val
- elif op == '?':
- right_expr = _js_ternary(left_val, *self._separate(right_expr, ':', 1))
- right_val = self.interpret_expression(right_expr, local_vars, allow_recursion)
- if not _OPERATORS.get(op):
- return right_val
- try:
- return _OPERATORS[op](left_val, right_val)
- except Exception as e:
- raise self.Exception(f'Failed to evaluate {left_val!r} {op} {right_val!r}', expr, cause=e)
- def _index(self, obj, idx, allow_undefined=False):
- if idx == 'length':
- return len(obj)
- try:
- return obj[int(idx)] if isinstance(obj, list) else obj[idx]
- except Exception as e:
- if allow_undefined:
- return JS_Undefined
- raise self.Exception(f'Cannot get index {idx}', repr(obj), cause=e)
- def _dump(self, obj, namespace):
- try:
- return json.dumps(obj)
- except TypeError:
- return self._named_object(namespace, obj)
- @Debugger.wrap_interpreter
- def interpret_statement(self, stmt, local_vars, allow_recursion=100):
- if allow_recursion < 0:
- raise self.Exception('Recursion limit reached')
- allow_recursion -= 1
- should_return = False
- sub_statements = list(self._separate(stmt, ';')) or ['']
- expr = stmt = sub_statements.pop().strip()
- for sub_stmt in sub_statements:
- ret, should_return = self.interpret_statement(sub_stmt, local_vars, allow_recursion)
- if should_return:
- return ret, should_return
- m = re.match(r'(?P<var>(?:var|const|let)\s)|return(?:\s+|(?=["\'])|$)|(?P<throw>throw\s+)', stmt)
- if m:
- expr = stmt[len(m.group(0)):].strip()
- if m.group('throw'):
- raise JS_Throw(self.interpret_expression(expr, local_vars, allow_recursion))
- should_return = not m.group('var')
- if not expr:
- return None, should_return
- if expr[0] in _QUOTES:
- inner, outer = self._separate(expr, expr[0], 1)
- if expr[0] == '/':
- flags, outer = self._regex_flags(outer)
- # We don't support regex methods yet, so no point compiling it
- inner = f'{inner}/{flags}'
- # Avoid https://github.com/python/cpython/issues/74534
- # inner = re.compile(inner[1:].replace('[[', r'[\['), flags=flags)
- else:
- inner = json.loads(js_to_json(f'{inner}{expr[0]}', strict=True))
- if not outer:
- return inner, should_return
- expr = self._named_object(local_vars, inner) + outer
- if expr.startswith('new '):
- obj = expr[4:]
- if obj.startswith('Date('):
- left, right = self._separate_at_paren(obj[4:])
- date = unified_timestamp(
- self.interpret_expression(left, local_vars, allow_recursion), False)
- if date is None:
- raise self.Exception(f'Failed to parse date {left!r}', expr)
- expr = self._dump(int(date * 1000), local_vars) + right
- else:
- raise self.Exception(f'Unsupported object {obj}', expr)
- if expr.startswith('void '):
- left = self.interpret_expression(expr[5:], local_vars, allow_recursion)
- return None, should_return
- if expr.startswith('{'):
- inner, outer = self._separate_at_paren(expr)
- # try for object expression (Map)
- sub_expressions = [list(self._separate(sub_expr.strip(), ':', 1)) for sub_expr in self._separate(inner)]
- if all(len(sub_expr) == 2 for sub_expr in sub_expressions):
- def dict_item(key, val):
- val = self.interpret_expression(val, local_vars, allow_recursion)
- if re.match(_NAME_RE, key):
- return key, val
- return self.interpret_expression(key, local_vars, allow_recursion), val
- return dict(dict_item(k, v) for k, v in sub_expressions), should_return
- inner, should_abort = self.interpret_statement(inner, local_vars, allow_recursion)
- if not outer or should_abort:
- return inner, should_abort or should_return
- else:
- expr = self._dump(inner, local_vars) + outer
- if expr.startswith('('):
- inner, outer = self._separate_at_paren(expr)
- inner, should_abort = self.interpret_statement(inner, local_vars, allow_recursion)
- if not outer or should_abort:
- return inner, should_abort or should_return
- else:
- expr = self._dump(inner, local_vars) + outer
- if expr.startswith('['):
- inner, outer = self._separate_at_paren(expr)
- name = self._named_object(local_vars, [
- self.interpret_expression(item, local_vars, allow_recursion)
- for item in self._separate(inner)])
- expr = name + outer
- m = re.match(r'''(?x)
- (?P<try>try)\s*\{|
- (?P<if>if)\s*\(|
- (?P<switch>switch)\s*\(|
- (?P<for>for)\s*\(
- ''', expr)
- md = m.groupdict() if m else {}
- if md.get('if'):
- cndn, expr = self._separate_at_paren(expr[m.end() - 1:])
- if_expr, expr = self._separate_at_paren(expr.lstrip())
- # TODO: "else if" is not handled
- else_expr = None
- m = re.match(r'else\s*{', expr)
- if m:
- else_expr, expr = self._separate_at_paren(expr[m.end() - 1:])
- cndn = _js_ternary(self.interpret_expression(cndn, local_vars, allow_recursion))
- ret, should_abort = self.interpret_statement(
- if_expr if cndn else else_expr, local_vars, allow_recursion)
- if should_abort:
- return ret, True
- if md.get('try'):
- try_expr, expr = self._separate_at_paren(expr[m.end() - 1:])
- err = None
- try:
- ret, should_abort = self.interpret_statement(try_expr, local_vars, allow_recursion)
- if should_abort:
- return ret, True
- except Exception as e:
- # XXX: This works for now, but makes debugging future issues very hard
- err = e
- pending = (None, False)
- m = re.match(fr'catch\s*(?P<err>\(\s*{_NAME_RE}\s*\))?\{{', expr)
- if m:
- sub_expr, expr = self._separate_at_paren(expr[m.end() - 1:])
- if err:
- catch_vars = {}
- if m.group('err'):
- catch_vars[m.group('err')] = err.error if isinstance(err, JS_Throw) else err
- catch_vars = local_vars.new_child(catch_vars)
- err, pending = None, self.interpret_statement(sub_expr, catch_vars, allow_recursion)
- m = re.match(r'finally\s*\{', expr)
- if m:
- sub_expr, expr = self._separate_at_paren(expr[m.end() - 1:])
- ret, should_abort = self.interpret_statement(sub_expr, local_vars, allow_recursion)
- if should_abort:
- return ret, True
- ret, should_abort = pending
- if should_abort:
- return ret, True
- if err:
- raise err
- elif md.get('for'):
- constructor, remaining = self._separate_at_paren(expr[m.end() - 1:])
- if remaining.startswith('{'):
- body, expr = self._separate_at_paren(remaining)
- else:
- switch_m = re.match(r'switch\s*\(', remaining) # FIXME: ?
- if switch_m:
- switch_val, remaining = self._separate_at_paren(remaining[switch_m.end() - 1:])
- body, expr = self._separate_at_paren(remaining, '}')
- body = 'switch(%s){%s}' % (switch_val, body)
- else:
- body, expr = remaining, ''
- start, cndn, increment = self._separate(constructor, ';')
- self.interpret_expression(start, local_vars, allow_recursion)
- while True:
- if not _js_ternary(self.interpret_expression(cndn, local_vars, allow_recursion)):
- break
- try:
- ret, should_abort = self.interpret_statement(body, local_vars, allow_recursion)
- if should_abort:
- return ret, True
- except JS_Break:
- break
- except JS_Continue:
- pass
- self.interpret_expression(increment, local_vars, allow_recursion)
- elif md.get('switch'):
- switch_val, remaining = self._separate_at_paren(expr[m.end() - 1:])
- switch_val = self.interpret_expression(switch_val, local_vars, allow_recursion)
- body, expr = self._separate_at_paren(remaining, '}')
- items = body.replace('default:', 'case default:').split('case ')[1:]
- for default in (False, True):
- matched = False
- for item in items:
- case, stmt = (i.strip() for i in self._separate(item, ':', 1))
- if default:
- matched = matched or case == 'default'
- elif not matched:
- matched = (case != 'default'
- and switch_val == self.interpret_expression(case, local_vars, allow_recursion))
- if not matched:
- continue
- try:
- ret, should_abort = self.interpret_statement(stmt, local_vars, allow_recursion)
- if should_abort:
- return ret
- except JS_Break:
- break
- if matched:
- break
- if md:
- ret, should_abort = self.interpret_statement(expr, local_vars, allow_recursion)
- return ret, should_abort or should_return
- # Comma separated statements
- sub_expressions = list(self._separate(expr))
- if len(sub_expressions) > 1:
- for sub_expr in sub_expressions:
- ret, should_abort = self.interpret_statement(sub_expr, local_vars, allow_recursion)
- if should_abort:
- return ret, True
- return ret, False
- for m in re.finditer(rf'''(?x)
- (?P<pre_sign>\+\+|--)(?P<var1>{_NAME_RE})|
- (?P<var2>{_NAME_RE})(?P<post_sign>\+\+|--)''', expr):
- var = m.group('var1') or m.group('var2')
- start, end = m.span()
- sign = m.group('pre_sign') or m.group('post_sign')
- ret = local_vars[var]
- local_vars[var] += 1 if sign[0] == '+' else -1
- if m.group('pre_sign'):
- ret = local_vars[var]
- expr = expr[:start] + self._dump(ret, local_vars) + expr[end:]
- if not expr:
- return None, should_return
- m = re.match(fr'''(?x)
- (?P<assign>
- (?P<out>{_NAME_RE})(?:\[(?P<index>[^\]]+?)\])?\s*
- (?P<op>{"|".join(map(re.escape, set(_OPERATORS) - _COMP_OPERATORS))})?
- =(?!=)(?P<expr>.*)$
- )|(?P<return>
- (?!if|return|true|false|null|undefined|NaN)(?P<name>{_NAME_RE})$
- )|(?P<indexing>
- (?P<in>{_NAME_RE})\[(?P<idx>.+)\]$
- )|(?P<attribute>
- (?P<var>{_NAME_RE})(?:(?P<nullish>\?)?\.(?P<member>[^(]+)|\[(?P<member2>[^\]]+)\])\s*
- )|(?P<function>
- (?P<fname>{_NAME_RE})\((?P<args>.*)\)$
- )''', expr)
- if m and m.group('assign'):
- left_val = local_vars.get(m.group('out'))
- if not m.group('index'):
- local_vars[m.group('out')] = self._operator(
- m.group('op'), left_val, m.group('expr'), expr, local_vars, allow_recursion)
- return local_vars[m.group('out')], should_return
- elif left_val in (None, JS_Undefined):
- raise self.Exception(f'Cannot index undefined variable {m.group("out")}', expr)
- idx = self.interpret_expression(m.group('index'), local_vars, allow_recursion)
- if not isinstance(idx, (int, float)):
- raise self.Exception(f'List index {idx} must be integer', expr)
- idx = int(idx)
- left_val[idx] = self._operator(
- m.group('op'), self._index(left_val, idx), m.group('expr'), expr, local_vars, allow_recursion)
- return left_val[idx], should_return
- elif expr.isdigit():
- return int(expr), should_return
- elif expr == 'break':
- raise JS_Break
- elif expr == 'continue':
- raise JS_Continue
- elif expr == 'undefined':
- return JS_Undefined, should_return
- elif expr == 'NaN':
- return float('NaN'), should_return
- elif m and m.group('return'):
- return local_vars.get(m.group('name'), JS_Undefined), should_return
- with contextlib.suppress(ValueError):
- return json.loads(js_to_json(expr, strict=True)), should_return
- if m and m.group('indexing'):
- val = local_vars[m.group('in')]
- idx = self.interpret_expression(m.group('idx'), local_vars, allow_recursion)
- return self._index(val, idx), should_return
- for op in _OPERATORS:
- separated = list(self._separate(expr, op))
- right_expr = separated.pop()
- while True:
- if op in '?<>*-' and len(separated) > 1 and not separated[-1].strip():
- separated.pop()
- elif not (separated and op == '?' and right_expr.startswith('.')):
- break
- right_expr = f'{op}{right_expr}'
- if op != '-':
- right_expr = f'{separated.pop()}{op}{right_expr}'
- if not separated:
- continue
- left_val = self.interpret_expression(op.join(separated), local_vars, allow_recursion)
- return self._operator(op, left_val, right_expr, expr, local_vars, allow_recursion), should_return
- if m and m.group('attribute'):
- variable, member, nullish = m.group('var', 'member', 'nullish')
- if not member:
- member = self.interpret_expression(m.group('member2'), local_vars, allow_recursion)
- arg_str = expr[m.end():]
- if arg_str.startswith('('):
- arg_str, remaining = self._separate_at_paren(arg_str)
- else:
- arg_str, remaining = None, arg_str
- def assertion(cndn, msg):
- """ assert, but without risk of getting optimized out """
- if not cndn:
- raise self.Exception(f'{member} {msg}', expr)
- def eval_method():
- nonlocal member
- if (variable, member) == ('console', 'debug'):
- if Debugger.ENABLED:
- Debugger.write(self.interpret_expression(f'[{arg_str}]', local_vars, allow_recursion))
- return
- types = {
- 'String': str,
- 'Math': float,
- 'Array': list,
- }
- obj = local_vars.get(variable, types.get(variable, NO_DEFAULT))
- if obj is NO_DEFAULT:
- if variable not in self._objects:
- try:
- self._objects[variable] = self.extract_object(variable)
- except self.Exception:
- if not nullish:
- raise
- obj = self._objects.get(variable, JS_Undefined)
- if nullish and obj is JS_Undefined:
- return JS_Undefined
- # Member access
- if arg_str is None:
- return self._index(obj, member, nullish)
- # Function call
- argvals = [
- self.interpret_expression(v, local_vars, allow_recursion)
- for v in self._separate(arg_str)]
- # Fixup prototype call
- if isinstance(obj, type) and member.startswith('prototype.'):
- new_member, _, func_prototype = member.partition('.')[2].partition('.')
- assertion(argvals, 'takes one or more arguments')
- assertion(isinstance(argvals[0], obj), f'needs binding to type {obj}')
- if func_prototype == 'call':
- obj, *argvals = argvals
- elif func_prototype == 'apply':
- assertion(len(argvals) == 2, 'takes two arguments')
- obj, argvals = argvals
- assertion(isinstance(argvals, list), 'second argument needs to be a list')
- else:
- raise self.Exception(f'Unsupported Function method {func_prototype}', expr)
- member = new_member
- if obj is str:
- if member == 'fromCharCode':
- assertion(argvals, 'takes one or more arguments')
- return ''.join(map(chr, argvals))
- raise self.Exception(f'Unsupported String method {member}', expr)
- elif obj is float:
- if member == 'pow':
- assertion(len(argvals) == 2, 'takes two arguments')
- return argvals[0] ** argvals[1]
- raise self.Exception(f'Unsupported Math method {member}', expr)
- if member == 'split':
- assertion(argvals, 'takes one or more arguments')
- assertion(len(argvals) == 1, 'with limit argument is not implemented')
- return obj.split(argvals[0]) if argvals[0] else list(obj)
- elif member == 'join':
- assertion(isinstance(obj, list), 'must be applied on a list')
- assertion(len(argvals) == 1, 'takes exactly one argument')
- return argvals[0].join(obj)
- elif member == 'reverse':
- assertion(not argvals, 'does not take any arguments')
- obj.reverse()
- return obj
- elif member == 'slice':
- assertion(isinstance(obj, (list, str)), 'must be applied on a list or string')
- assertion(len(argvals) <= 2, 'takes between 0 and 2 arguments')
- return obj[slice(*argvals, None)]
- elif member == 'splice':
- assertion(isinstance(obj, list), 'must be applied on a list')
- assertion(argvals, 'takes one or more arguments')
- index, how_many = map(int, ([*argvals, len(obj)])[:2])
- if index < 0:
- index += len(obj)
- add_items = argvals[2:]
- res = []
- for _ in range(index, min(index + how_many, len(obj))):
- res.append(obj.pop(index))
- for i, item in enumerate(add_items):
- obj.insert(index + i, item)
- return res
- elif member == 'unshift':
- assertion(isinstance(obj, list), 'must be applied on a list')
- assertion(argvals, 'takes one or more arguments')
- for item in reversed(argvals):
- obj.insert(0, item)
- return obj
- elif member == 'pop':
- assertion(isinstance(obj, list), 'must be applied on a list')
- assertion(not argvals, 'does not take any arguments')
- if not obj:
- return
- return obj.pop()
- elif member == 'push':
- assertion(argvals, 'takes one or more arguments')
- obj.extend(argvals)
- return obj
- elif member == 'forEach':
- assertion(argvals, 'takes one or more arguments')
- assertion(len(argvals) <= 2, 'takes at-most 2 arguments')
- f, this = ([*argvals, ''])[:2]
- return [f((item, idx, obj), {'this': this}, allow_recursion) for idx, item in enumerate(obj)]
- elif member == 'indexOf':
- assertion(argvals, 'takes one or more arguments')
- assertion(len(argvals) <= 2, 'takes at-most 2 arguments')
- idx, start = ([*argvals, 0])[:2]
- try:
- return obj.index(idx, start)
- except ValueError:
- return -1
- elif member == 'charCodeAt':
- assertion(isinstance(obj, str), 'must be applied on a string')
- assertion(len(argvals) == 1, 'takes exactly one argument')
- idx = argvals[0] if isinstance(argvals[0], int) else 0
- if idx >= len(obj):
- return None
- return ord(obj[idx])
- idx = int(member) if isinstance(obj, list) else member
- return obj[idx](argvals, allow_recursion=allow_recursion)
- if remaining:
- ret, should_abort = self.interpret_statement(
- self._named_object(local_vars, eval_method()) + remaining,
- local_vars, allow_recursion)
- return ret, should_return or should_abort
- else:
- return eval_method(), should_return
- elif m and m.group('function'):
- fname = m.group('fname')
- argvals = [self.interpret_expression(v, local_vars, allow_recursion)
- for v in self._separate(m.group('args'))]
- if fname in local_vars:
- return local_vars[fname](argvals, allow_recursion=allow_recursion), should_return
- elif fname not in self._functions:
- self._functions[fname] = self.extract_function(fname)
- return self._functions[fname](argvals, allow_recursion=allow_recursion), should_return
- raise self.Exception(
- f'Unsupported JS expression {truncate_string(expr, 20, 20) if expr != stmt else ""}', stmt)
- def interpret_expression(self, expr, local_vars, allow_recursion):
- ret, should_return = self.interpret_statement(expr, local_vars, allow_recursion)
- if should_return:
- raise self.Exception('Cannot return from an expression', expr)
- return ret
- def extract_object(self, objname):
- _FUNC_NAME_RE = r'''(?:[a-zA-Z$0-9]+|"[a-zA-Z$0-9]+"|'[a-zA-Z$0-9]+')'''
- obj = {}
- obj_m = re.search(
- r'''(?x)
- (?<!\.)%s\s*=\s*{\s*
- (?P<fields>(%s\s*:\s*function\s*\(.*?\)\s*{.*?}(?:,\s*)?)*)
- }\s*;
- ''' % (re.escape(objname), _FUNC_NAME_RE),
- self.code)
- if not obj_m:
- raise self.Exception(f'Could not find object {objname}')
- fields = obj_m.group('fields')
- # Currently, it only supports function definitions
- fields_m = re.finditer(
- r'''(?x)
- (?P<key>%s)\s*:\s*function\s*\((?P<args>(?:%s|,)*)\){(?P<code>[^}]+)}
- ''' % (_FUNC_NAME_RE, _NAME_RE),
- fields)
- for f in fields_m:
- argnames = f.group('args').split(',')
- name = remove_quotes(f.group('key'))
- obj[name] = function_with_repr(self.build_function(argnames, f.group('code')), f'F<{name}>')
- return obj
- def extract_function_code(self, funcname):
- """ @returns argnames, code """
- func_m = re.search(
- r'''(?xs)
- (?:
- function\s+%(name)s|
- [{;,]\s*%(name)s\s*=\s*function|
- (?:var|const|let)\s+%(name)s\s*=\s*function
- )\s*
- \((?P<args>[^)]*)\)\s*
- (?P<code>{.+})''' % {'name': re.escape(funcname)},
- self.code)
- if func_m is None:
- raise self.Exception(f'Could not find JS function "{funcname}"')
- code, _ = self._separate_at_paren(func_m.group('code'))
- return [x.strip() for x in func_m.group('args').split(',')], code
- def extract_function(self, funcname):
- return function_with_repr(
- self.extract_function_from_code(*self.extract_function_code(funcname)),
- f'F<{funcname}>')
- def extract_function_from_code(self, argnames, code, *global_stack):
- local_vars = {}
- while True:
- mobj = re.search(r'function\((?P<args>[^)]*)\)\s*{', code)
- if mobj is None:
- break
- start, body_start = mobj.span()
- body, remaining = self._separate_at_paren(code[body_start - 1:])
- name = self._named_object(local_vars, self.extract_function_from_code(
- [x.strip() for x in mobj.group('args').split(',')],
- body, local_vars, *global_stack))
- code = code[:start] + name + remaining
- return self.build_function(argnames, code, local_vars, *global_stack)
- def call_function(self, funcname, *args):
- return self.extract_function(funcname)(args)
- def build_function(self, argnames, code, *global_stack):
- global_stack = list(global_stack) or [{}]
- argnames = tuple(argnames)
- def resf(args, kwargs={}, allow_recursion=100):
- global_stack[0].update(itertools.zip_longest(argnames, args, fillvalue=None))
- global_stack[0].update(kwargs)
- var_stack = LocalNameSpace(*global_stack)
- ret, should_abort = self.interpret_statement(code.replace('\n', ' '), var_stack, allow_recursion - 1)
- if should_abort:
- return ret
- return resf
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