mirror of
https://github.com/SickGear/SickGear.git
synced 2024-11-27 23:23:38 +00:00
e56303798c
Initial SickGear for Python 3.
753 lines
26 KiB
Python
753 lines
26 KiB
Python
from .code import Code
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from .simplex import MakeError
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from .opcodes import *
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from .operations import *
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from .trans_utils import *
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SPECIAL_IDENTIFIERS = {'true', 'false', 'this'}
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class ByteCodeGenerator:
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def __init__(self, exe):
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self.exe = exe
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self.declared_continue_labels = {}
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self.declared_break_labels = {}
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self.implicit_breaks = []
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self.implicit_continues = []
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self.declared_vars = []
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self.function_declaration_tape = []
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self.states = []
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def record_state(self):
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self.states.append(
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(self.declared_continue_labels, self.declared_break_labels,
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self.implicit_breaks, self.implicit_continues, self.declared_vars,
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self.function_declaration_tape))
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self.declared_continue_labels, self.declared_break_labels, \
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self.implicit_breaks, self.implicit_continues, \
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self.declared_vars, self.function_declaration_tape = {}, {}, [], [], [], []
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def restore_state(self):
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self.declared_continue_labels, self.declared_break_labels, \
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self.implicit_breaks, self.implicit_continues, \
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self.declared_vars, self.function_declaration_tape = self.states.pop()
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def ArrayExpression(self, elements, **kwargs):
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for e in elements:
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if e is None:
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self.emit('LOAD_NONE')
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else:
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self.emit(e)
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self.emit('LOAD_ARRAY', len(elements))
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def AssignmentExpression(self, operator, left, right, **kwargs):
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operator = operator[:-1]
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if left['type'] == 'MemberExpression':
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self.emit(left['object'])
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if left['computed']:
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self.emit(left['property'])
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self.emit(right)
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if operator:
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self.emit('STORE_MEMBER_OP', operator)
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else:
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self.emit('STORE_MEMBER')
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else:
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self.emit(right)
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if operator:
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self.emit('STORE_MEMBER_DOT_OP', left['property']['name'],
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operator)
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else:
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self.emit('STORE_MEMBER_DOT', left['property']['name'])
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elif left['type'] == 'Identifier':
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if left['name'] in SPECIAL_IDENTIFIERS:
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raise MakeError('SyntaxError',
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'Invalid left-hand side in assignment')
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self.emit(right)
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if operator:
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self.emit('STORE_OP', left['name'], operator)
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else:
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self.emit('STORE', left['name'])
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else:
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raise MakeError('SyntaxError',
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'Invalid left-hand side in assignment')
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def BinaryExpression(self, operator, left, right, **kwargs):
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self.emit(left)
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self.emit(right)
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self.emit('BINARY_OP', operator)
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def BlockStatement(self, body, **kwargs):
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self._emit_statement_list(body)
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def BreakStatement(self, label, **kwargs):
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if label is None:
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self.emit('JUMP', self.implicit_breaks[-1])
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else:
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label = label.get('name')
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if label not in self.declared_break_labels:
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raise MakeError('SyntaxError',
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'Undefined label \'%s\'' % label)
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else:
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self.emit('JUMP', self.declared_break_labels[label])
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def CallExpression(self, callee, arguments, **kwargs):
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if callee['type'] == 'MemberExpression':
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self.emit(callee['object'])
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if callee['computed']:
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self.emit(callee['property'])
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if arguments:
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for e in arguments:
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self.emit(e)
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self.emit('LOAD_N_TUPLE', len(arguments))
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self.emit('CALL_METHOD')
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else:
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self.emit('CALL_METHOD_NO_ARGS')
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else:
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prop_name = to_key(callee['property'])
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if arguments:
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for e in arguments:
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self.emit(e)
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self.emit('LOAD_N_TUPLE', len(arguments))
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self.emit('CALL_METHOD_DOT', prop_name)
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else:
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self.emit('CALL_METHOD_DOT_NO_ARGS', prop_name)
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else:
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self.emit(callee)
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if arguments:
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for e in arguments:
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self.emit(e)
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self.emit('LOAD_N_TUPLE', len(arguments))
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self.emit('CALL')
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else:
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self.emit('CALL_NO_ARGS')
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def ClassBody(self, body, **kwargs):
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raise NotImplementedError('Not available in ECMA 5.1')
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def ClassDeclaration(self, id, superClass, body, **kwargs):
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raise NotImplementedError('Not available in ECMA 5.1')
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def ClassExpression(self, id, superClass, body, **kwargs):
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raise NotImplementedError('Classes not available in ECMA 5.1')
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def ConditionalExpression(self, test, consequent, alternate, **kwargs):
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alt = self.exe.get_new_label()
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end = self.exe.get_new_label()
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# ?
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self.emit(test)
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self.emit('JUMP_IF_FALSE', alt)
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# first val
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self.emit(consequent)
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self.emit('JUMP', end)
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# second val
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self.emit('LABEL', alt)
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self.emit(alternate)
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# end of ?: statement
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self.emit('LABEL', end)
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def ContinueStatement(self, label, **kwargs):
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if label is None:
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self.emit('JUMP', self.implicit_continues[-1])
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else:
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label = label.get('name')
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if label not in self.declared_continue_labels:
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raise MakeError('SyntaxError',
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'Undefined label \'%s\'' % label)
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else:
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self.emit('JUMP', self.declared_continue_labels[label])
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def DebuggerStatement(self, **kwargs):
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self.EmptyStatement(**kwargs)
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def DoWhileStatement(self, body, test, **kwargs):
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continue_label = self.exe.get_new_label()
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break_label = self.exe.get_new_label()
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initial_do = self.exe.get_new_label()
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self.emit('JUMP', initial_do)
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self.emit('LABEL', continue_label)
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self.emit(test)
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self.emit('JUMP_IF_FALSE', break_label)
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self.emit('LABEL', initial_do)
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# translate the body, remember to add and afterwards remove implicit break/continue labels
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self.implicit_continues.append(continue_label)
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self.implicit_breaks.append(break_label)
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self.emit(body)
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self.implicit_continues.pop()
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self.implicit_breaks.pop()
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self.emit('JUMP', continue_label) # loop back
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self.emit('LABEL', break_label)
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def EmptyStatement(self, **kwargs):
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# do nothing
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pass
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def ExpressionStatement(self, expression, **kwargs):
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# change the final stack value
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# pop the previous value and execute expression
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self.emit('POP')
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self.emit(expression)
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def ForStatement(self, init, test, update, body, **kwargs):
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continue_label = self.exe.get_new_label()
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break_label = self.exe.get_new_label()
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first_start = self.exe.get_new_label()
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if init is not None:
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self.emit(init)
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if init['type'] != 'VariableDeclaration':
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self.emit('POP')
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# skip first update and go straight to test
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self.emit('JUMP', first_start)
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self.emit('LABEL', continue_label)
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if update:
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self.emit(update)
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self.emit('POP')
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self.emit('LABEL', first_start)
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if test:
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self.emit(test)
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self.emit('JUMP_IF_FALSE', break_label)
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# translate the body, remember to add and afterwards to remove implicit break/continue labels
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self.implicit_continues.append(continue_label)
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self.implicit_breaks.append(break_label)
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self.emit(body)
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self.implicit_continues.pop()
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self.implicit_breaks.pop()
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self.emit('JUMP', continue_label) # loop back
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self.emit('LABEL', break_label)
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def ForInStatement(self, left, right, body, **kwargs):
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# prepare the needed labels
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body_start_label = self.exe.get_new_label()
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continue_label = self.exe.get_new_label()
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break_label = self.exe.get_new_label()
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# prepare the name
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if left['type'] == 'VariableDeclaration':
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if len(left['declarations']) != 1:
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raise MakeError(
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'SyntaxError',
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' Invalid left-hand side in for-in loop: Must have a single binding.'
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)
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self.emit(left)
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name = left['declarations'][0]['id']['name']
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elif left['type'] == 'Identifier':
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name = left['name']
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else:
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raise MakeError('SyntaxError',
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'Invalid left-hand side in for-loop')
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# prepare the iterable
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self.emit(right)
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# emit ForIn Opcode
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self.emit('FOR_IN', name, body_start_label, continue_label,
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break_label)
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# a special continue position
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self.emit('LABEL', continue_label)
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self.emit('NOP')
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self.emit('LABEL', body_start_label)
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self.implicit_continues.append(continue_label)
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self.implicit_breaks.append(break_label)
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self.emit('LOAD_UNDEFINED')
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self.emit(body)
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self.implicit_continues.pop()
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self.implicit_breaks.pop()
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self.emit('NOP')
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self.emit('LABEL', break_label)
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self.emit('NOP')
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def FunctionDeclaration(self, id, params, defaults, body, **kwargs):
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if defaults:
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raise NotImplementedError('Defaults not available in ECMA 5.1')
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# compile function
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self.record_state(
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) # cleans translator state and appends it to the stack so that it can be later restored
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function_start = self.exe.get_new_label()
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function_declarations = self.exe.get_new_label()
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declarations_done = self.exe.get_new_label(
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) # put jump to this place at the and of function tape!
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function_end = self.exe.get_new_label()
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# skip the function if encountered externally
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self.emit('JUMP', function_end)
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self.emit('LABEL', function_start)
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# call is made with empty stack so load undefined to fill it
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self.emit('LOAD_UNDEFINED')
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# declare all functions
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self.emit('JUMP', function_declarations)
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self.emit('LABEL', declarations_done)
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self.function_declaration_tape.append(LABEL(function_declarations))
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self.emit(body)
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self.ReturnStatement(None)
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self.function_declaration_tape.append(JUMP(declarations_done))
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self.exe.tape.extend(self.function_declaration_tape)
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self.emit('LABEL', function_end)
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declared_vars = self.declared_vars
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self.restore_state()
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# create function object and append to stack
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name = id.get('name')
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assert name is not None
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self.declared_vars.append(name)
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self.function_declaration_tape.append(
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LOAD_FUNCTION(function_start, tuple(p['name'] for p in params),
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name, True, tuple(declared_vars)))
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self.function_declaration_tape.append(STORE(name))
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self.function_declaration_tape.append(POP())
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def FunctionExpression(self, id, params, defaults, body, **kwargs):
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if defaults:
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raise NotImplementedError('Defaults not available in ECMA 5.1')
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# compile function
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self.record_state(
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) # cleans translator state and appends it to the stack so that it can be later restored
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function_start = self.exe.get_new_label()
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function_declarations = self.exe.get_new_label()
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declarations_done = self.exe.get_new_label(
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) # put jump to this place at the and of function tape!
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function_end = self.exe.get_new_label()
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# skip the function if encountered externally
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self.emit('JUMP', function_end)
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self.emit('LABEL', function_start)
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# call is made with empty stack so load undefined to fill it
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self.emit('LOAD_UNDEFINED')
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# declare all functions
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self.emit('JUMP', function_declarations)
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self.emit('LABEL', declarations_done)
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self.function_declaration_tape.append(LABEL(function_declarations))
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self.emit(body)
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self.ReturnStatement(None)
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self.function_declaration_tape.append(JUMP(declarations_done))
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self.exe.tape.extend(self.function_declaration_tape)
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self.emit('LABEL', function_end)
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declared_vars = self.declared_vars
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self.restore_state()
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# create function object and append to stack
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name = id.get('name') if id else None
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self.emit('LOAD_FUNCTION', function_start,
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tuple(p['name'] for p in params), name, False,
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tuple(declared_vars))
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def Identifier(self, name, **kwargs):
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if name == 'true':
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self.emit('LOAD_BOOLEAN', 1)
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elif name == 'false':
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self.emit('LOAD_BOOLEAN', 0)
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elif name == 'undefined':
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self.emit('LOAD_UNDEFINED')
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else:
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self.emit('LOAD', name)
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def IfStatement(self, test, consequent, alternate, **kwargs):
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alt = self.exe.get_new_label()
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end = self.exe.get_new_label()
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# if
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self.emit(test)
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self.emit('JUMP_IF_FALSE', alt)
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# consequent
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self.emit(consequent)
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self.emit('JUMP', end)
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# alternate
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self.emit('LABEL', alt)
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if alternate is not None:
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self.emit(alternate)
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# end of if statement
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self.emit('LABEL', end)
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def LabeledStatement(self, label, body, **kwargs):
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label = label['name']
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if body['type'] in ('WhileStatement', 'DoWhileStatement',
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'ForStatement', 'ForInStatement'):
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# Continue label available... Simply take labels defined by the loop.
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# It is important that they request continue label first
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self.declared_continue_labels[label] = self.exe._label_count + 1
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self.declared_break_labels[label] = self.exe._label_count + 2
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self.emit(body)
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del self.declared_break_labels[label]
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del self.declared_continue_labels[label]
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else:
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# only break label available
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lbl = self.exe.get_new_label()
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self.declared_break_labels[label] = lbl
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self.emit(body)
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self.emit('LABEL', lbl)
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del self.declared_break_labels[label]
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def Literal(self, value, **kwargs):
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if value is None:
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self.emit('LOAD_NULL')
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elif isinstance(value, bool):
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self.emit('LOAD_BOOLEAN', int(value))
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elif isinstance(value, basestring):
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self.emit('LOAD_STRING', unicode(value))
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elif isinstance(value, (float, int, long)):
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self.emit('LOAD_NUMBER', float(value))
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elif isinstance(value, tuple):
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self.emit('LOAD_REGEXP', *value)
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else:
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raise RuntimeError('Unsupported literal')
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def LogicalExpression(self, left, right, operator, **kwargs):
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end = self.exe.get_new_label()
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if operator == '&&':
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# AND
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self.emit(left)
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self.emit('JUMP_IF_FALSE_WITHOUT_POP', end)
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self.emit('POP')
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self.emit(right)
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self.emit('LABEL', end)
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elif operator == '||':
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# OR
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self.emit(left)
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self.emit('JUMP_IF_TRUE_WITHOUT_POP', end)
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self.emit('POP')
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self.emit(right)
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self.emit('LABEL', end)
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else:
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raise RuntimeError("Unknown logical expression: %s" % operator)
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def MemberExpression(self, computed, object, property, **kwargs):
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if computed:
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self.emit(object)
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self.emit(property)
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self.emit('LOAD_MEMBER')
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else:
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self.emit(object)
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self.emit('LOAD_MEMBER_DOT', property['name'])
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def NewExpression(self, callee, arguments, **kwargs):
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self.emit(callee)
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if arguments:
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n = len(arguments)
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for e in arguments:
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self.emit(e)
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self.emit('LOAD_N_TUPLE', n)
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self.emit('NEW')
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else:
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self.emit('NEW_NO_ARGS')
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def ObjectExpression(self, properties, **kwargs):
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data = []
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for prop in properties:
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self.emit(prop['value'])
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if prop['computed']:
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raise NotImplementedError(
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'ECMA 5.1 does not support computed object properties!')
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data.append((to_key(prop['key']), prop['kind'][0]))
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self.emit('LOAD_OBJECT', tuple(data))
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def Program(self, body, **kwargs):
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old_tape_len = len(self.exe.tape)
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self.emit('LOAD_UNDEFINED')
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self.emit(body)
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# add function tape !
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self.exe.tape = self.exe.tape[:old_tape_len] + self.function_declaration_tape + self.exe.tape[old_tape_len:]
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def Pyimport(self, imp, **kwargs):
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raise NotImplementedError(
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'Not available for bytecode interpreter yet, use the Js2Py translator.'
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)
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def Property(self, kind, key, computed, value, method, shorthand,
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**kwargs):
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raise NotImplementedError('Not available in ECMA 5.1')
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def RestElement(self, argument, **kwargs):
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raise NotImplementedError('Not available in ECMA 5.1')
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def ReturnStatement(self, argument, **kwargs):
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self.emit('POP') # pop result of expression statements
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if argument is None:
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self.emit('LOAD_UNDEFINED')
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else:
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self.emit(argument)
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self.emit('RETURN')
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def SequenceExpression(self, expressions, **kwargs):
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for e in expressions:
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self.emit(e)
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self.emit('POP')
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del self.exe.tape[-1]
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def SwitchCase(self, test, consequent, **kwargs):
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raise NotImplementedError('Already implemented in SwitchStatement')
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def SwitchStatement(self, discriminant, cases, **kwargs):
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self.emit(discriminant)
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labels = [self.exe.get_new_label() for case in cases]
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|
tests = [case['test'] for case in cases]
|
|
consequents = [case['consequent'] for case in cases]
|
|
end_of_switch = self.exe.get_new_label()
|
|
|
|
# translate test cases
|
|
for test, label in zip(tests, labels):
|
|
if test is not None:
|
|
self.emit(test)
|
|
self.emit('JUMP_IF_EQ', label)
|
|
else:
|
|
self.emit('POP')
|
|
self.emit('JUMP', label)
|
|
# this will be executed if none of the cases worked
|
|
self.emit('POP')
|
|
self.emit('JUMP', end_of_switch)
|
|
|
|
# translate consequents
|
|
self.implicit_breaks.append(end_of_switch)
|
|
for consequent, label in zip(consequents, labels):
|
|
self.emit('LABEL', label)
|
|
self._emit_statement_list(consequent)
|
|
self.implicit_breaks.pop()
|
|
|
|
self.emit('LABEL', end_of_switch)
|
|
|
|
def ThisExpression(self, **kwargs):
|
|
self.emit('LOAD_THIS')
|
|
|
|
def ThrowStatement(self, argument, **kwargs):
|
|
# throw with the empty stack
|
|
self.emit('POP')
|
|
self.emit(argument)
|
|
self.emit('THROW')
|
|
|
|
def TryStatement(self, block, handler, finalizer, **kwargs):
|
|
try_label = self.exe.get_new_label()
|
|
catch_label = self.exe.get_new_label()
|
|
finally_label = self.exe.get_new_label()
|
|
end_label = self.exe.get_new_label()
|
|
|
|
self.emit('JUMP', end_label)
|
|
|
|
# try block
|
|
self.emit('LABEL', try_label)
|
|
self.emit('LOAD_UNDEFINED')
|
|
self.emit(block)
|
|
self.emit(
|
|
'NOP'
|
|
) # needed to distinguish from break/continue vs some internal jumps
|
|
|
|
# catch block
|
|
self.emit('LABEL', catch_label)
|
|
self.emit('LOAD_UNDEFINED')
|
|
if handler:
|
|
self.emit(handler['body'])
|
|
self.emit('NOP')
|
|
|
|
# finally block
|
|
self.emit('LABEL', finally_label)
|
|
self.emit('LOAD_UNDEFINED')
|
|
if finalizer:
|
|
self.emit(finalizer)
|
|
self.emit('NOP')
|
|
|
|
self.emit('LABEL', end_label)
|
|
|
|
# give life to the code
|
|
self.emit('TRY_CATCH_FINALLY', try_label, catch_label,
|
|
handler['param']['name'] if handler else None, finally_label,
|
|
bool(finalizer), end_label)
|
|
|
|
def UnaryExpression(self, operator, argument, **kwargs):
|
|
if operator == 'typeof' and argument[
|
|
'type'] == 'Identifier': # todo fix typeof
|
|
self.emit('TYPEOF', argument['name'])
|
|
elif operator == 'delete':
|
|
if argument['type'] == 'MemberExpression':
|
|
self.emit(argument['object'])
|
|
if argument['property']['type'] == 'Identifier':
|
|
self.emit('LOAD_STRING',
|
|
unicode(argument['property']['name']))
|
|
else:
|
|
self.emit(argument['property'])
|
|
self.emit('DELETE_MEMBER')
|
|
elif argument['type'] == 'Identifier':
|
|
self.emit('DELETE', argument['name'])
|
|
else:
|
|
self.emit('LOAD_BOOLEAN', 1)
|
|
elif operator in UNARY_OPERATIONS:
|
|
self.emit(argument)
|
|
self.emit('UNARY_OP', operator)
|
|
else:
|
|
raise MakeError('SyntaxError',
|
|
'Unknown unary operator %s' % operator)
|
|
|
|
def UpdateExpression(self, operator, argument, prefix, **kwargs):
|
|
incr = int(operator == "++")
|
|
post = int(not prefix)
|
|
if argument['type'] == 'MemberExpression':
|
|
if argument['computed']:
|
|
self.emit(argument['object'])
|
|
self.emit(argument['property'])
|
|
self.emit('POSTFIX_MEMBER', post, incr)
|
|
else:
|
|
self.emit(argument['object'])
|
|
name = to_key(argument['property'])
|
|
self.emit('POSTFIX_MEMBER_DOT', post, incr, name)
|
|
elif argument['type'] == 'Identifier':
|
|
name = to_key(argument)
|
|
self.emit('POSTFIX', post, incr, name)
|
|
else:
|
|
raise MakeError('SyntaxError',
|
|
'Invalid left-hand side in assignment')
|
|
|
|
def VariableDeclaration(self, declarations, kind, **kwargs):
|
|
if kind != 'var':
|
|
raise NotImplementedError(
|
|
'Only var variable declaration is supported by ECMA 5.1')
|
|
for d in declarations:
|
|
self.emit(d)
|
|
|
|
def LexicalDeclaration(self, declarations, kind, **kwargs):
|
|
raise NotImplementedError('Not supported by ECMA 5.1')
|
|
|
|
def VariableDeclarator(self, id, init, **kwargs):
|
|
name = id['name']
|
|
if name in SPECIAL_IDENTIFIERS:
|
|
raise MakeError('Invalid left-hand side in assignment')
|
|
self.declared_vars.append(name)
|
|
if init is not None:
|
|
self.emit(init)
|
|
self.emit('STORE', name)
|
|
self.emit('POP')
|
|
|
|
def WhileStatement(self, test, body, **kwargs):
|
|
continue_label = self.exe.get_new_label()
|
|
break_label = self.exe.get_new_label()
|
|
|
|
self.emit('LABEL', continue_label)
|
|
self.emit(test)
|
|
self.emit('JUMP_IF_FALSE', break_label)
|
|
|
|
# translate the body, remember to add and afterwards remove implicit break/continue labels
|
|
|
|
self.implicit_continues.append(continue_label)
|
|
self.implicit_breaks.append(break_label)
|
|
self.emit(body)
|
|
self.implicit_continues.pop()
|
|
self.implicit_breaks.pop()
|
|
|
|
self.emit('JUMP', continue_label) # loop back
|
|
self.emit('LABEL', break_label)
|
|
|
|
def WithStatement(self, object, body, **kwargs):
|
|
beg_label = self.exe.get_new_label()
|
|
end_label = self.exe.get_new_label()
|
|
# scope
|
|
self.emit(object)
|
|
|
|
# now the body
|
|
self.emit('JUMP', end_label)
|
|
self.emit('LABEL', beg_label)
|
|
self.emit('LOAD_UNDEFINED')
|
|
self.emit(body)
|
|
self.emit('NOP')
|
|
self.emit('LABEL', end_label)
|
|
|
|
# with statement implementation
|
|
self.emit('WITH', beg_label, end_label)
|
|
|
|
def _emit_statement_list(self, statements):
|
|
for statement in statements:
|
|
self.emit(statement)
|
|
|
|
def emit(self, what, *args):
|
|
''' what can be either name of the op, or node, or a list of statements.'''
|
|
if isinstance(what, basestring):
|
|
return self.exe.emit(what, *args)
|
|
elif isinstance(what, list):
|
|
self._emit_statement_list(what)
|
|
else:
|
|
return getattr(self, what['type'])(**what)
|
|
|
|
|
|
import os, codecs
|
|
|
|
|
|
def path_as_local(path):
|
|
if os.path.isabs(path):
|
|
return path
|
|
# relative to cwd
|
|
return os.path.join(os.getcwd(), path)
|
|
|
|
|
|
def get_file_contents(path_or_file):
|
|
if hasattr(path_or_file, 'read'):
|
|
js = path_or_file.read()
|
|
else:
|
|
with codecs.open(path_as_local(path_or_file), "r", "utf-8") as f:
|
|
js = f.read()
|
|
return js
|
|
|
|
|
|
def main():
|
|
from space import Space
|
|
import fill_space
|
|
|
|
from pyjsparser import parse
|
|
import json
|
|
a = ByteCodeGenerator(Code())
|
|
|
|
s = Space()
|
|
fill_space.fill_space(s, a)
|
|
|
|
a.exe.space = s
|
|
s.exe = a.exe
|
|
con = get_file_contents('internals/esprima.js')
|
|
d = parse(con + (
|
|
''';JSON.stringify(exports.parse(%s), 4, 4)''' % json.dumps(con)))
|
|
# d = parse('''
|
|
# function x(n) {
|
|
# log(n)
|
|
# return x(n+1)
|
|
# }
|
|
# x(0)
|
|
# ''')
|
|
|
|
# var v = 333333;
|
|
# while (v) {
|
|
# v--
|
|
#
|
|
# }
|
|
a.emit(d)
|
|
print(a.declared_vars)
|
|
print(a.exe.tape)
|
|
print(len(a.exe.tape))
|
|
|
|
a.exe.compile()
|
|
|
|
def log(this, args):
|
|
print(args[0])
|
|
return 999
|
|
|
|
print(a.exe.run(a.exe.space.GlobalObj))
|
|
|
|
|
|
if __name__ == '__main__':
|
|
main()
|