def test_helper_functions(self): r_mem = RealMemory() assert r_mem.get_address_tuple((0, 0)) == (0, 0) assert r_mem.get_address_tuple(0) == (0, 0) assert r_mem.get_address_tuple(203) == (12, 11) assert r_mem.get_address_tuple((12, 11)) == (12, 11) assert r_mem.get_address_int((0, 0)) == 0 assert r_mem.get_address_int(0) == 0 assert r_mem.get_address_int(203) == 203 assert r_mem.get_address_int((12, 11)) == 203
def __init__(self, cell_handler=None): u""" Inicializuoja mašinos objektą. """ self.real_memory = RealMemory(cell_handler) self.processor = Processor(self.real_memory) self.virtual_memory_data = None self.virtual_memory_code = None
def test_cell_access(self): r_mem = RealMemory() assert r_mem[356] == '00000000' r_mem[12, 11] = u'ačiū' assert r_mem[203] == ' a\xc4\x8di\xc5\xab' # 12 * 16 + 11 == 203 word = '01234567' r_mem.put_data((0, 0), word * 16) r_mem.put_data((1, 0), word * 5 + 'aaa') r_mem.put_data((1, 15), word) try: r_mem.put_data((1, 16), word) except ValueError, e: assert unicode(e) == u'Duomenys netelpa į bloką.'
def test_creating_virtual_memory(self): r_mem = RealMemory() code = [ 'namo:LR1 00a', 'LR2 00a\n', 'CMP ', u'JE «namo» \n'.encode('utf-8'), ] data = [ '[a]:labas\n\n\n\n', ] vmcode, vmdata = r_mem.create_virtual_memory(code, 1, data, 1) assert vmcode[0] == 'LR1 00a ' assert r_mem.get_data((16, 0), 8 * 16) == ( 'LR1 00a ' 'LR2 00a ' 'CMP ' 'JE 000 ' + '00000000' * 12) assert vmdata[10] == 'labas ' assert r_mem.get_data((17, 0), 8 * 16) == ( '00000000' * 10 + 'labas ' + '00000000' * 5)
class RealMachine(object): u""" Realią mašiną simuliuojantis objektas. """ def __init__(self, cell_handler=None): u""" Inicializuoja mašinos objektą. """ self.real_memory = RealMemory(cell_handler) self.processor = Processor(self.real_memory) self.virtual_memory_data = None self.virtual_memory_code = None def passHandler(self, cell_handler): self.real_memory.SetHandler(cell_handler) def load_virtual_machine( self, file, stdin_handler=None, stdout_handler=None): u""" Pakrauna virtualią mašiną. """ code = [] code_size = None data = [] data_size = None if isinstance(file, str) or isinstance(file, unicode): with open(file) as fp: code_segment = False data_segment = False for line in fp: if not code_segment and not data_segment and \ line == 'CODE\n': code_segment = True continue elif code_segment and not data_segment and \ line == 'ENDCODE\n': code_segment = False continue elif not code_segment and not data_segment and \ line.startswith('DATA '): data_segment = True data_size = int(line[4:]) continue elif not code_segment and data_segment and \ line == 'ENDDATA\n': data_segment = False continue if code_segment: code.append(line) if data_segment: data.append(line) code_size = int(ceil(float(len(code)) / BLOCK_SIZE)) self.virtual_memory_code, self.virtual_memory_data = \ self.real_memory.create_virtual_memory( code, code_size, data, data_size, stdin_handler, stdout_handler) self.pager = self.virtual_memory_code.pager self.processor.PLR = self.virtual_memory_code.pager.PLR self.processor.PLBR = self.virtual_memory_code.pager.PLBR self.processor.set_virtual_memory( self.virtual_memory_code, self.virtual_memory_data, self.pager) self.processor.IC = 0 # TODO: Atidaryti išorinius failus. else: # Šitas if iš esmės skirtas tam, jei kartais butų visgi # nuspręsta pasinaudoti „#!/usr/bin/pyemu“ funkcionalumu. raise Exception('Not implemented!')