def print_section(self, start, amount): """ Print a section of the cache. :param int start: start address to print from. :param int amount: amount of lines to print. """ line_len = len(str(self.size // self.block_size - 1)) use_len = max([len(str(line.use)) for line in self.lines]) tag_len = int( log((self.mapping_policy * self.memory_size) // self.size, 2)) address_len = int(log(self.memory_size, 2)) if start < 0 or (start + amount) > (self.size // self.block_size): raise IndexError print("\n" + " " * line_len + " " * use_len + " U M V T" + " " * tag_len + "<DATA @ ADDRESS>") for i in range(start, start + amount): print("%s : %s %s %s %s <%s @ %s>" % (util.dec_str( i, line_len), util.dec_str(self.lines[i].use, use_len), util.bin_str(self.lines[i].modified, 1), util.bin_str(self.lines[i].valid, 1), util.bin_str(self.lines[i].tag, tag_len), " ".join( [util.hex_str(j, 2) for j in self.lines[i].data]), util.bin_str(self.get_physical_address(i), address_len))) print()
def print_section(self, start, amount): """Print a section of the cache. :param int start: start address to print from :param int amount: amount of lines to print """ line_len = len(str(self._size // self._block_size - 1)) use_len = max([len(str(i.use)) for i in self._lines]) tag_len = int(log(self._mapping_pol * self._mem_size // self._size, 2)) address_len = int(log(self._mem_size, 2)) if start < 0 or (start + amount) > (self._size // self._block_size): raise IndexError print("\n" + " " * line_len + " " * use_len + " U M V T" + " " * tag_len + "<DATA @ ADDRESS>") for i in range(start, start + amount): print( util.dec_str(i, line_len) + ": " + util.dec_str(self._lines[i].use, use_len) + " " + util.bin_str(self._lines[i].modified, 1) + " " + util.bin_str(self._lines[i].valid, 1) + " " + util.bin_str(self._lines[i].tag, tag_len) + " <" + " ".join([util.hex_str(i, 2) for i in self._lines[i].data]) + " @ " + util.bin_str(self.get_physical_address(i), address_len) + ">") print()
def print_section(self, start, amount): """Print a section of the cache. :param int start: start address to print from :param int amount: amount of lines to print """ line_len = len(str(self._size // self._block_size - 1)) use_len = max([len(str(i.use)) for i in self._lines]) tag_len = int(log(self._mapping_pol * self._mem_size // self._size, 2)) address_len = int(log(self._mem_size, 2)) if start < 0 or (start + amount) > (self._size // self._block_size): raise IndexError print("\n" + " " * line_len + " " * use_len + " U M V T" + " " * tag_len + "<DATA @ ADDRESS>") for i in range(start, start + amount): print(util.dec_str(i, line_len) + ": " + util.dec_str(self._lines[i].use, use_len) + " " + util.bin_str(self._lines[i].modified, 1) + " " + util.bin_str(self._lines[i].valid, 1) + " " + util.bin_str(self._lines[i].tag, tag_len) + " <" + " ".join([util.hex_str(i, 2) for i in self._lines[i].data]) + " @ " + util.bin_str(self.get_physical_address(i), address_len) + ">") print()
def write(self, address, byte): """Write a byte to cache.""" written = self.cache.write(address, byte) if written: self.hits += 1 else: self.misses += 1 if self.write_policy == Cache.WRITE_THROUGH: # Write block to memory block = self.memory.get_block(address) block[self.cache.get_offset(address)] = byte self.memory.set_block(address, block) print() print("Byte 0x%s (%s) written to block %s @ %s in main memory\n" % (util.hex_str(byte, 2), byte, self.memory.get_block(address), util.bin_str(address, self.memory_size))) elif self.write_policy == Cache.WRITE_BACK: if not written: # Write block to cache block = self.memory.get_block(address) victim = self.cache.load(address, block) written = self.cache.write(address, byte) print() print("Byte 0x%s (%s) written @ %s in cache\n" % (util.hex_str( byte, 2), byte, util.bin_str(address, self.memory_size)))
command = None while (command != "quit"): operation = input("> ") operation = operation.split() try: command = operation[0] params = operation[1:] if command == "read" and len(params) == 1: address = int(params[0], 0) byte = read(address, memory, cache) print("\nByte 0x" + util.hex_str(byte, 2) + " read from " + util.bin_str(address, args.MEMORY) + "\n") elif command == "write" and len(params) == 2: address = int(params[0], 0) byte = int(params[1], 0) write(address, byte, memory, cache) print("\nByte 0x" + util.hex_str(byte, 2) + " written to " + util.bin_str(address, args.MEMORY) + "\n") elif command == "randread" and len(params) == 1: amount = int(params[0], 0) for i in range(amount): address = random.randint(0, mem_size - 1)
command = None while (command != "quit"): operation = input("> ") operation = operation.split() try: command = operation[0] params = operation[1:] if command == "read" and len(params) == 1: address = int(params[0]) byte = read(address, memory, cache) print("\nByte 0x" + util.hex_str(byte, 2) + " read from " + util.bin_str(address, args.MEMORY) + "\n") elif command == "write" and len(params) == 2: address = int(params[0]) byte = int(params[1]) write(address, byte, memory, cache) print("\nByte 0x" + util.hex_str(byte, 2) + " written to " + util.bin_str(address, args.MEMORY) + "\n") elif command == "randread" and len(params) == 1: amount = int(params[0]) for i in range(amount): address = random.randint(0, mem_size - 1)
def run(self): command = None self.print_details() while command != 'quit': operation = input("Enter a command > ") operation = operation.split() try: command = operation[0] params = operation[1:] if command == 'write' and len(params) == 2: address = int(params[0]) byte = params[1] # Make sure byte is a digit if byte.isdigit(): byte = int(params[1]) self.write(address, byte) elif command == 'read' and len(params) == 1: address = int(params[0]) byte = self.read(address) print("\nByte 0x%s (%s) read from %s in cache\n" % (util.hex_str(byte, 2), byte, util.bin_str(address, self.memory_size))) elif command == "randread" and len(params) == 1: amount = int(params[0]) for i in range(amount): address = random.randint(0, self.memory.get_size() - 1) self.read(address) print("\n%s bytes read from memory\n" % amount) elif command == "randwrite" and len(params) == 1: amount = int(params[0]) for i in range(amount): address = random.randint(0, self.memory.get_size() - 1) byte = util.rand_byte() self.write(address, byte) elif command == "printcache" and len(params) == 2: start = int(params[0]) amount = int(params[1]) self.cache.print_section(start, amount) elif command == "printmem" and len(params) == 2: start = int(params[0]) amount = int(params[1]) self.memory.print_section(start, amount) elif command == "stats" and len(params) == 0: ratio = (self.hits / ( (self.hits + self.misses) if self.misses else 1)) * 100 print("\nHits: {0} | Misses: {1}".format( self.hits, self.misses)) print("Hit/Miss Ratio: {0:.2f}%".format(ratio) + "\n") elif command == 'help': self.print_details() elif command != 'quit': print(INVALID_RESPONSE) except IndexError: print(OUT_OF_BOUNDS_ERROR) except: print(INCORRECT_SYNTAX_ERROR)