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[jsinterp] Beef up and add tests
In preparation for #4822, extend jsinterp by a lot. (We may even have to/want to write a proper interpreter with actual parsing)
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95
test/test_jsinterp.py
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95
test/test_jsinterp.py
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#!/usr/bin/env python
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from __future__ import unicode_literals
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# Allow direct execution
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import os
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import sys
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import unittest
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sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
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from youtube_dl.jsinterp import JSInterpreter
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class TestJSInterpreter(unittest.TestCase):
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def test_basic(self):
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jsi = JSInterpreter('function x(){;}')
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self.assertEqual(jsi.call_function('x'), None)
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jsi = JSInterpreter('function x3(){return 42;}')
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self.assertEqual(jsi.call_function('x3'), 42)
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def test_calc(self):
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jsi = JSInterpreter('function x4(a){return 2*a+1;}')
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self.assertEqual(jsi.call_function('x4', 3), 7)
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def test_empty_return(self):
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jsi = JSInterpreter('function f(){return; y()}')
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self.assertEqual(jsi.call_function('f'), None)
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def test_morespace(self):
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jsi = JSInterpreter('function x (a) { return 2 * a + 1 ; }')
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self.assertEqual(jsi.call_function('x', 3), 7)
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jsi = JSInterpreter('function f () { x = 2 ; return x; }')
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self.assertEqual(jsi.call_function('f'), 2)
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def test_strange_chars(self):
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jsi = JSInterpreter('function $_xY1 ($_axY1) { var $_axY2 = $_axY1 + 1; return $_axY2; }')
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self.assertEqual(jsi.call_function('$_xY1', 20), 21)
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def test_operators(self):
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jsi = JSInterpreter('function f(){return 1 << 5;}')
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self.assertEqual(jsi.call_function('f'), 32)
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jsi = JSInterpreter('function f(){return 19 & 21;}')
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self.assertEqual(jsi.call_function('f'), 17)
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jsi = JSInterpreter('function f(){return 11 >> 2;}')
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self.assertEqual(jsi.call_function('f'), 2)
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def test_array_access(self):
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jsi = JSInterpreter('function f(){var x = [1,2,3]; x[0] = 4; x[0] = 5; x[2] = 7; return x;}')
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self.assertEqual(jsi.call_function('f'), [5, 2, 7])
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def test_parens(self):
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jsi = JSInterpreter('function f(){return (1) + (2) * ((( (( (((((3)))))) )) ));}')
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self.assertEqual(jsi.call_function('f'), 7)
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jsi = JSInterpreter('function f(){return (1 + 2) * 3;}')
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self.assertEqual(jsi.call_function('f'), 9)
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def test_assignments(self):
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jsi = JSInterpreter('function f(){var x = 20; x = 30 + 1; return x;}')
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self.assertEqual(jsi.call_function('f'), 31)
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jsi = JSInterpreter('function f(){var x = 20; x += 30 + 1; return x;}')
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self.assertEqual(jsi.call_function('f'), 51)
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jsi = JSInterpreter('function f(){var x = 20; x -= 30 + 1; return x;}')
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self.assertEqual(jsi.call_function('f'), -11)
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def test_comments(self):
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jsi = JSInterpreter('''
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function x() {
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var x = /* 1 + */ 2;
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var y = /* 30
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* 40 */ 50;
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return x + y;
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}
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''')
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self.assertEqual(jsi.call_function('x'), 52)
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def test_precedence(self):
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jsi = JSInterpreter('''
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function x() {
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var a = [10, 20, 30, 40, 50];
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var b = 6;
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a[0]=a[b%a.length];
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return a;
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}''')
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self.assertEqual(jsi.call_function('x'), [20, 20, 30, 40, 50])
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if __name__ == '__main__':
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unittest.main()
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@ -1,59 +1,122 @@
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from __future__ import unicode_literals
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import json
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import operator
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import re
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from .utils import (
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ExtractorError,
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)
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_OPERATORS = [
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('|', operator.or_),
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('^', operator.xor),
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('&', operator.and_),
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('>>', operator.rshift),
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('<<', operator.lshift),
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('-', operator.sub),
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('+', operator.add),
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('%', operator.mod),
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('/', operator.div),
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('*', operator.mul),
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]
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_ASSIGN_OPERATORS = [(op + '=', opfunc) for op, opfunc in _OPERATORS]
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_ASSIGN_OPERATORS.append(('=', lambda cur, right: right))
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_NAME_RE = r'[a-zA-Z_$][a-zA-Z_$0-9]*'
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class JSInterpreter(object):
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def __init__(self, code):
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self.code = code
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def __init__(self, code, objects=None):
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if objects is None:
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objects = {}
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self.code = self._remove_comments(code)
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self._functions = {}
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self._objects = {}
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self._objects = objects
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def interpret_statement(self, stmt, local_vars, allow_recursion=20):
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def _remove_comments(self, code):
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return re.sub(r'(?s)/\*.*?\*/', '', code)
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def interpret_statement(self, stmt, local_vars, allow_recursion=100):
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if allow_recursion < 0:
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raise ExtractorError('Recursion limit reached')
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if stmt.startswith('var '):
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stmt = stmt[len('var '):]
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ass_m = re.match(r'^(?P<out>[a-z]+)(?:\[(?P<index>[^\]]+)\])?' +
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r'=(?P<expr>.*)$', stmt)
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if ass_m:
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if ass_m.groupdict().get('index'):
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def assign(val):
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lvar = local_vars[ass_m.group('out')]
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idx = self.interpret_expression(
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ass_m.group('index'), local_vars, allow_recursion)
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assert isinstance(idx, int)
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lvar[idx] = val
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return val
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expr = ass_m.group('expr')
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should_abort = False
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stmt = stmt.lstrip()
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stmt_m = re.match(r'var\s', stmt)
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if stmt_m:
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expr = stmt[len(stmt_m.group(0)):]
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else:
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def assign(val):
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local_vars[ass_m.group('out')] = val
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return val
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expr = ass_m.group('expr')
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elif stmt.startswith('return '):
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assign = lambda v: v
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expr = stmt[len('return '):]
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return_m = re.match(r'return(?:\s+|$)', stmt)
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if return_m:
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expr = stmt[len(return_m.group(0)):]
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should_abort = True
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else:
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# Try interpreting it as an expression
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expr = stmt
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assign = lambda v: v
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v = self.interpret_expression(expr, local_vars, allow_recursion)
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return assign(v)
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return v, should_abort
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def interpret_expression(self, expr, local_vars, allow_recursion):
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expr = expr.strip()
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if expr == '': # Empty expression
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return None
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if expr.startswith('('):
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parens_count = 0
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for m in re.finditer(r'[()]', expr):
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if m.group(0) == '(':
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parens_count += 1
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else:
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parens_count -= 1
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if parens_count == 0:
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sub_expr = expr[1:m.start()]
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sub_result = self.interpret_expression(
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sub_expr, local_vars, allow_recursion)
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remaining_expr = expr[m.end():].strip()
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if not remaining_expr:
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return sub_result
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else:
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expr = json.dumps(sub_result) + remaining_expr
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break
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else:
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raise ExtractorError('Premature end of parens in %r' % expr)
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for op, opfunc in _ASSIGN_OPERATORS:
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m = re.match(r'''(?x)
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(?P<out>%s)(?:\[(?P<index>[^\]]+?)\])?
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\s*%s
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(?P<expr>.*)$''' % (_NAME_RE, re.escape(op)), expr)
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if not m:
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continue
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right_val = self.interpret_expression(
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m.group('expr'), local_vars, allow_recursion - 1)
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if m.groupdict().get('index'):
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lvar = local_vars[m.group('out')]
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idx = self.interpret_expression(
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m.group('index'), local_vars, allow_recursion)
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assert isinstance(idx, int)
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cur = lvar[idx]
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val = opfunc(cur, right_val)
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lvar[idx] = val
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return val
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else:
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cur = local_vars.get(m.group('out'))
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val = opfunc(cur, right_val)
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local_vars[m.group('out')] = val
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return val
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if expr.isdigit():
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return int(expr)
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if expr.isalpha():
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return local_vars[expr]
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var_m = re.match(
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r'(?!if|return|true|false)(?P<name>%s)$' % _NAME_RE,
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expr)
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if var_m:
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return local_vars[var_m.group('name')]
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try:
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return json.loads(expr)
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pass
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m = re.match(
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r'^(?P<var>[$a-zA-Z0-9_]+)\.(?P<member>[^(]+)(?:\(+(?P<args>[^()]*)\))?$',
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r'(?P<var>%s)\.(?P<member>[^(]+)(?:\(+(?P<args>[^()]*)\))?$' % _NAME_RE,
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expr)
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if m:
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variable = m.group('var')
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return obj[member](argvals)
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m = re.match(
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r'^(?P<in>[a-z]+)\[(?P<idx>.+)\]$', expr)
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r'(?P<in>%s)\[(?P<idx>.+)\]$' % _NAME_RE, expr)
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if m:
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val = local_vars[m.group('in')]
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idx = self.interpret_expression(
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m.group('idx'), local_vars, allow_recursion - 1)
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return val[idx]
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m = re.match(r'^(?P<a>.+?)(?P<op>[%])(?P<b>.+?)$', expr)
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if m:
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a = self.interpret_expression(
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m.group('a'), local_vars, allow_recursion)
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b = self.interpret_expression(
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m.group('b'), local_vars, allow_recursion)
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return a % b
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for op, opfunc in _OPERATORS:
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m = re.match(r'(?P<x>.+?)%s(?P<y>.+)' % re.escape(op), expr)
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if not m:
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continue
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x, abort = self.interpret_statement(
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m.group('x'), local_vars, allow_recursion - 1)
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if abort:
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raise ExtractorError(
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'Premature left-side return of %s in %r' % (op, expr))
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y, abort = self.interpret_statement(
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m.group('y'), local_vars, allow_recursion - 1)
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if abort:
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raise ExtractorError(
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'Premature right-side return of %s in %r' % (op, expr))
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return opfunc(x, y)
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m = re.match(
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r'^(?P<func>[a-zA-Z$]+)\((?P<args>[a-z0-9,]+)\)$', expr)
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r'^(?P<func>%s)\((?P<args>[a-zA-Z0-9_$,]+)\)$' % _NAME_RE, expr)
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if m:
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fname = m.group('func')
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argvals = tuple([
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@ -139,6 +210,7 @@ def interpret_expression(self, expr, local_vars, allow_recursion):
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if fname not in self._functions:
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self._functions[fname] = self.extract_function(fname)
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return self._functions[fname](argvals)
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raise ExtractorError('Unsupported JS expression %r' % expr)
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def extract_object(self, objname):
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def extract_function(self, funcname):
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func_m = re.search(
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(r'(?:function %s|[{;]%s\s*=\s*function)' % (
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re.escape(funcname), re.escape(funcname))) +
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r'\((?P<args>[a-z,]+)\){(?P<code>[^}]+)}',
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r'''(?x)
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(?:function\s+%s|[{;]%s\s*=\s*function)\s*
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\((?P<args>[^)]*)\)\s*
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\{(?P<code>[^}]+)\}''' % (
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re.escape(funcname), re.escape(funcname)),
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self.code)
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if func_m is None:
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raise ExtractorError('Could not find JS function %r' % funcname)
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return self.build_function(argnames, func_m.group('code'))
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def call_function(self, funcname, *args):
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f = self.extract_function(funcname)
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return f(args)
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def build_function(self, argnames, code):
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def resf(args):
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local_vars = dict(zip(argnames, args))
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for stmt in code.split(';'):
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res = self.interpret_statement(stmt, local_vars)
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res, abort = self.interpret_statement(stmt, local_vars)
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if abort:
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break
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return res
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return resf
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