From: Christian Heller Date: Sun, 15 Oct 2017 22:05:35 +0000 (+0200) Subject: Share parsing code between client and server. X-Git-Url: https://plomlompom.com/repos/%7B%7B%20web_path%20%7D%7D/edit?a=commitdiff_plain;h=956b2469d5537f1d0863e5a2811d37fa5220b0f9;p=plomrogue2-experiments Share parsing code between client and server. --- diff --git a/client.py b/client.py index f356442..c9958be 100755 --- a/client.py +++ b/client.py @@ -3,125 +3,7 @@ import urwid import plom_socket_io import socket import threading -from functools import partial -import unittest - - -class ArgumentError(Exception): - pass - - -class ParseError(Exception): - pass - - -class Parser: - - def __init__(self, game): - self.game = game - - def tokenize(self, msg): - """Parse msg string into tokens. - - Separates by ' ' and '\n', but allows whitespace in tokens quoted by - '"', and allows escaping within quoted tokens by a prefixed backslash. - """ - tokens = [] - token = '' - quoted = False - escaped = False - for c in msg: - if quoted: - if escaped: - token += c - escaped = False - elif c == '\\': - escaped = True - elif c == '"': - quoted = False - else: - token += c - elif c == '"': - quoted = True - elif c in {' ', '\n'}: - if len(token) > 0: - tokens += [token] - token = '' - else: - token += c - if len(token) > 0: - tokens += [token] - return tokens - - def parse(self, msg): - """Parse msg as call to self.game method, return method with arguments. - - Respects method signatures defined in methods' .argtypes attributes. - """ - tokens = self.tokenize(msg) - if len(tokens) == 0: - return None - method_candidate = 'cmd_' + tokens[0] - if not hasattr(self.game, method_candidate): - return None - method = getattr(self.game, method_candidate) - if len(tokens) == 1: - if not hasattr(method, 'argtypes'): - return method - else: - raise ParseError('Command expects argument(s).') - args_candidates = tokens[1:] - if not hasattr(method, 'argtypes'): - raise ParseError('Command expects no argument(s).') - args, kwargs = self.argsparse(method.argtypes, args_candidates) - return partial(method, *args, **kwargs) - - def parse_yx_tuple(self, yx_string): - """Parse yx_string as yx_tuple:nonneg argtype, return result.""" - - def get_axis_position_from_argument(axis, token): - if len(token) < 3 or token[:2] != axis + ':' or \ - not token[2:].isdigit(): - raise ParseError('Non-int arg for ' + axis + ' position.') - n = int(token[2:]) - if n < 1: - raise ParseError('Arg for ' + axis + ' position < 1.') - return n - - tokens = yx_string.split(',') - if len(tokens) != 2: - raise ParseError('Wrong number of yx-tuple arguments.') - y = get_axis_position_from_argument('Y', tokens[0]) - x = get_axis_position_from_argument('X', tokens[1]) - return (y, x) - - def argsparse(self, signature, args_tokens): - """Parse into / return args_tokens as args/kwargs defined by signature. - - Expects signature to be a ' '-delimited sequence of any of the strings - 'int:nonneg', 'yx_tuple:nonneg', 'string', defining the respective - argument types. - """ - tmpl_tokens = signature.split() - if len(tmpl_tokens) != len(args_tokens): - raise ParseError('Number of arguments (' + str(len(args_tokens)) + - ') not expected number (' + str(len(tmpl_tokens)) - + ').') - args = [] - for i in range(len(tmpl_tokens)): - tmpl = tmpl_tokens[i] - arg = args_tokens[i] - if tmpl == 'int:nonneg': - if not arg.isdigit(): - raise ParseError('Argument must be non-negative integer.') - args += [int(arg)] - elif tmpl == 'yx_tuple:nonneg': - args += [self.parse_yx_tuple(arg)] - elif tmpl == 'string': - args += [arg] - else: - raise ParseError('Unknown argument type.') - return args, {} +from parser import ArgError, Parser class Game: @@ -175,10 +57,10 @@ class Game: """Reset self.terrain_map from terrain_map.""" lines = terrain_map.split('\n') if len(lines) != self.map_size[0]: - raise ArgumentError('wrong map height') + raise ArgError('wrong map height') for line in lines: if len(line) != self.map_size[1]: - raise ArgumentError('wrong map width') + raise ArgError('wrong map width') self.terrain_map = terrain_map cmd_TERRAIN.argtypes = 'string' @@ -285,7 +167,7 @@ class PlomRogueClient: self.game.log('UNHANDLED INPUT: ' + msg) else: command() - except (ArgumentError, ParseError) as e: + except ArgError as e: self.game.log('ARGUMENT ERROR: ' + msg + '\n' + str(e)) self.widget_manager.update() del self.server_output[0] @@ -312,52 +194,6 @@ class PlomRogueClient: self.recv_loop_thread.join() -class TestParser(unittest.TestCase): - - def test_tokenizer(self): - p = Parser(Game()) - self.assertEqual(p.tokenize(''), []) - self.assertEqual(p.tokenize(' '), []) - self.assertEqual(p.tokenize('abc'), ['abc']) - self.assertEqual(p.tokenize('a b\nc "d"'), ['a', 'b', 'c', 'd']) - self.assertEqual(p.tokenize('a "b\nc d"'), ['a', 'b\nc d']) - self.assertEqual(p.tokenize('a"b"c'), ['abc']) - self.assertEqual(p.tokenize('a\\b'), ['a\\b']) - self.assertEqual(p.tokenize('"a\\b"'), ['ab']) - self.assertEqual(p.tokenize('a"b'), ['ab']) - self.assertEqual(p.tokenize('a"\\"b'), ['a"b']) - - def test_unhandled(self): - p = Parser(Game()) - self.assertEqual(p.parse(''), None) - self.assertEqual(p.parse(' '), None) - self.assertEqual(p.parse('x'), None) - - def test_argsparse(self): - p = Parser(Game()) - assertErr = partial(self.assertRaises, ParseError, p.argsparse) - assertErr('', ['foo']) - assertErr('string', []) - assertErr('string string', ['foo']) - self.assertEqual(p.argsparse('string', ('foo',)), - (['foo'], {})) - self.assertEqual(p.argsparse('string string', ('foo', 'bar')), - (['foo', 'bar'], {})) - assertErr('int:nonneg', ['']) - assertErr('int:nonneg', ['x']) - assertErr('int:nonneg', ['-1']) - assertErr('int:nonneg', ['0.1']) - self.assertEqual(p.argsparse('int:nonneg', ('0',)), - ([0], {})) - assertErr('yx_tuple:nonneg', ['x']) - assertErr('yx_tuple:nonneg', ['Y:0,X:1']) - assertErr('yx_tuple:nonneg', ['Y:1,X:0']) - assertErr('yx_tuple:nonneg', ['Y:1.1,X:1']) - assertErr('yx_tuple:nonneg', ['Y:1,X:1.1']) - self.assertEqual(p.argsparse('yx_tuple:nonneg', ('Y:1,X:2',)), - ([(1, 2)], {})) - - if __name__ == '__main__': game = Game() s = socket.create_connection(('127.0.0.1', 5000)) diff --git a/parser.py b/parser.py new file mode 100644 index 0000000..bc2e70b --- /dev/null +++ b/parser.py @@ -0,0 +1,181 @@ +import unittest +from functools import partial + + +class ArgError(Exception): + pass + + +class Parser: + + def __init__(self, game=None): + self.game = game + + def tokenize(self, msg): + """Parse msg string into tokens. + + Separates by ' ' and '\n', but allows whitespace in tokens quoted by + '"', and allows escaping within quoted tokens by a prefixed backslash. + """ + tokens = [] + token = '' + quoted = False + escaped = False + for c in msg: + if quoted: + if escaped: + token += c + escaped = False + elif c == '\\': + escaped = True + elif c == '"': + quoted = False + else: + token += c + elif c == '"': + quoted = True + elif c in {' ', '\n'}: + if len(token) > 0: + tokens += [token] + token = '' + else: + token += c + if len(token) > 0: + tokens += [token] + return tokens + + def parse(self, msg): + """Parse msg as call to self.game method, return method with arguments. + + Respects method signatures defined in methods' .argtypes attributes. + """ + tokens = self.tokenize(msg) + if len(tokens) == 0: + return None + method_candidate = 'cmd_' + tokens[0] + if not hasattr(self.game, method_candidate): + return None + method = getattr(self.game, method_candidate) + if len(tokens) == 1: + if not hasattr(method, 'argtypes'): + return method + else: + raise ArgError('Command expects argument(s).') + args_candidates = tokens[1:] + if not hasattr(method, 'argtypes'): + raise ArgError('Command expects no argument(s).') + args, kwargs = self.argsparse(method.argtypes, args_candidates) + return partial(method, *args, **kwargs) + + def parse_yx_tuple(self, yx_string): + """Parse yx_string as yx_tuple:nonneg argtype, return result.""" + + def get_axis_position_from_argument(axis, token): + if len(token) < 3 or token[:2] != axis + ':' or \ + not token[2:].isdigit(): + raise ArgError('Non-int arg for ' + axis + ' position.') + n = int(token[2:]) + if n < 1: + raise ArgError('Arg for ' + axis + ' position < 1.') + return n + + tokens = yx_string.split(',') + if len(tokens) != 2: + raise ArgError('Wrong number of yx-tuple arguments.') + y = get_axis_position_from_argument('Y', tokens[0]) + x = get_axis_position_from_argument('X', tokens[1]) + return (y, x) + + def argsparse(self, signature, args_tokens): + """Parse into / return args_tokens as args/kwargs defined by signature. + + Expects signature to be a ' '-delimited sequence of any of the strings + 'int:nonneg', 'yx_tuple:nonneg', 'string', 'seq:int:nonneg', defining + the respective argument types. + """ + tmpl_tokens = signature.split() + if len(tmpl_tokens) != len(args_tokens): + raise ArgError('Number of arguments (' + str(len(args_tokens)) + + ') not expected number (' + str(len(tmpl_tokens)) + + ').') + args = [] + for i in range(len(tmpl_tokens)): + tmpl = tmpl_tokens[i] + arg = args_tokens[i] + if tmpl == 'int:nonneg': + if not arg.isdigit(): + raise ArgError('Argument must be non-negative integer.') + args += [int(arg)] + elif tmpl == 'yx_tuple:nonneg': + args += [self.parse_yx_tuple(arg)] + elif tmpl == 'string': + args += [arg] + elif tmpl == 'seq:int:nonneg': + sub_tokens = arg.split(',') + if len(sub_tokens) < 1: + raise ArgError('Argument must be non-empty sequence.') + seq = [] + for tok in sub_tokens: + if not tok.isdigit(): + raise ArgError('Argument sequence must only contain ' + 'non-negative integers.') + seq += [int(tok)] + args += [seq] + else: + raise ArgError('Unknown argument type.') + return args, {} + + +class TestParser(unittest.TestCase): + + def test_tokenizer(self): + p = Parser() + self.assertEqual(p.tokenize(''), []) + self.assertEqual(p.tokenize(' '), []) + self.assertEqual(p.tokenize('abc'), ['abc']) + self.assertEqual(p.tokenize('a b\nc "d"'), ['a', 'b', 'c', 'd']) + self.assertEqual(p.tokenize('a "b\nc d"'), ['a', 'b\nc d']) + self.assertEqual(p.tokenize('a"b"c'), ['abc']) + self.assertEqual(p.tokenize('a\\b'), ['a\\b']) + self.assertEqual(p.tokenize('"a\\b"'), ['ab']) + self.assertEqual(p.tokenize('a"b'), ['ab']) + self.assertEqual(p.tokenize('a"\\"b'), ['a"b']) + + def test_unhandled(self): + p = Parser() + self.assertEqual(p.parse(''), None) + self.assertEqual(p.parse(' '), None) + self.assertEqual(p.parse('x'), None) + + def test_argsparse(self): + from functools import partial + p = Parser() + assertErr = partial(self.assertRaises, ArgError, p.argsparse) + assertErr('', ['foo']) + assertErr('string', []) + assertErr('string string', ['foo']) + self.assertEqual(p.argsparse('string', ('foo',)), + (['foo'], {})) + self.assertEqual(p.argsparse('string string', ('foo', 'bar')), + (['foo', 'bar'], {})) + assertErr('int:nonneg', ['']) + assertErr('int:nonneg', ['x']) + assertErr('int:nonneg', ['-1']) + assertErr('int:nonneg', ['0.1']) + self.assertEqual(p.argsparse('int:nonneg', ('0',)), + ([0], {})) + assertErr('yx_tuple:nonneg', ['x']) + assertErr('yx_tuple:nonneg', ['Y:0,X:1']) + assertErr('yx_tuple:nonneg', ['Y:1,X:0']) + assertErr('yx_tuple:nonneg', ['Y:1.1,X:1']) + assertErr('yx_tuple:nonneg', ['Y:1,X:1.1']) + self.assertEqual(p.argsparse('yx_tuple:nonneg', ('Y:1,X:2',)), + ([(1, 2)], {})) + assertErr('seq:int:nonneg', ['']) + assertErr('seq:int:nonneg', [',']) + assertErr('seq:int:nonneg', ['a']) + assertErr('seq:int:nonneg', ['a,1']) + assertErr('seq:int:nonneg', [',1']) + assertErr('seq:int:nonneg', ['1,']) + self.assertEqual(p.argsparse('seq:int:nonneg', ('1,2,3',)), + ([[1, 2, 3]], {})) diff --git a/server.py b/server.py index 14df1f3..0ef44d8 100755 --- a/server.py +++ b/server.py @@ -3,6 +3,8 @@ import socketserver import threading import queue +from parser import ArgError, Parser + # Avoid "Address already in use" errors. socketserver.TCPServer.allow_reuse_address = True @@ -158,16 +160,13 @@ def fib(n): return fib(n-1) + fib(n-2) -class ArgumentError(Exception): - pass - - class CommandHandler: def __init__(self, queues_out): from multiprocessing import Pool self.queues_out = queues_out self.world = World() + self.parser = Parser(self) # self.pool and self.pool_result are currently only needed by the FIB # command and the demo of a parallelized game loop in cmd_inc_p. self.pool = Pool() @@ -226,25 +225,19 @@ class CommandHandler: self.send_all('THING TYPE:' + thing.type + ' ' + self.stringify_yx(thing.position)) - def cmd_fib(self, tokens, connection_id): + def cmd_FIB(self, numbers, connection_id): """Reply with n-th Fibonacci numbers, n taken from tokens[1:]. Numbers are calculated in parallel as far as possible, using fib(). A 'CALCULATING …' message is sent to caller before the result. """ - if len(tokens) < 2: - raise ArgumentError('FIB NEEDS AT LEAST ONE ARGUMENT') - numbers = [] - for token in tokens[1:]: - if token == '0' or not token.isdigit(): - raise ArgumentError('FIB ARGUMENTS MUST BE INTEGERS > 0') - numbers += [int(token)] self.send_to(connection_id, 'CALCULATING …') results = self.pool.map(fib, numbers) reply = ' '.join([str(r) for r in results]) self.send_to(connection_id, reply) + cmd_FIB.argtypes = 'seq:int:nonneg' - def cmd_inc_p(self, connection_id): + def cmd_INC_P(self, connection_id): """Increment world.turn, send game turn data to everyone. To simulate game processing waiting times, a one second delay between @@ -272,57 +265,43 @@ class CommandHandler: + self.stringify_yx(thing.position)) self.pool_result = self.pool.map_async(fib, (35, 35)) - def cmd_get_turn(self, connection_id): + def cmd_GET_TURN(self, connection_id): """Send world.turn to caller.""" self.send_to(connection_id, str(self.world.turn)) - def cmd_move(self, direction, connection_id): + def cmd_MOVE(self, direction, connection_id): """Set player task to 'move' with direction arg, finish player turn.""" if direction not in {'UP', 'DOWN', 'RIGHT', 'LEFT'}: - raise ArgumentError('MOVE ARGUMENT MUST BE ONE OF: ' - 'UP, DOWN, RIGHT, LEFT') + raise ArgError('Move argument must be one of: ' + 'UP, DOWN, RIGHT, LEFT') self.world.player.set_task('move', direction=direction) self.proceed_to_next_player_turn(connection_id) + cmd_MOVE.argtypes = 'string' - def cmd_wait(self, connection_id): + def cmd_WAIT(self, connection_id): """Set player task to 'wait', finish player turn.""" self.world.player.set_task('wait') self.proceed_to_next_player_turn(connection_id) - def cmd_echo(self, tokens, input_, connection_id): - """Send message in input_ beyond tokens[0] to caller.""" - msg = input_[len(tokens[0]) + 1:] + def cmd_ECHO(self, msg, connection_id): + """Send msg to caller.""" self.send_to(connection_id, msg) + cmd_ECHO.argtypes = 'string' - def cmd_all(self, tokens, input_): - """Send message in input_ beyond tokens[0] to all clients.""" - msg = input_[len(tokens[0]) + 1:] + def cmd_ALL(self, msg, connection_id): + """Send msg to all clients.""" self.send_all(msg) + cmd_ALL.argtypes = 'string' def handle_input(self, input_, connection_id): """Process input_ to command grammar, call command handler if found.""" - tokens = [token for token in input_.split(' ') if len(token) > 0] try: - if len(tokens) == 0: - self.send_to(connection_id, 'EMPTY COMMAND') - elif len(tokens) == 1 and tokens[0] == 'INC_P': - self.cmd_inc_p(connection_id) - elif len(tokens) == 1 and tokens[0] == 'GET_TURN': - self.cmd_get_turn(connection_id) - elif len(tokens) == 1 and tokens[0] == 'WAIT': - self.cmd_wait(connection_id) - elif len(tokens) == 2 and tokens[0] == 'MOVE': - self.cmd_move(tokens[1], connection_id) - elif len(tokens) >= 1 and tokens[0] == 'ECHO': - self.cmd_echo(tokens, input_, connection_id) - elif len(tokens) >= 1 and tokens[0] == 'ALL': - self.cmd_all(tokens, input_) - elif len(tokens) >= 1 and tokens[0] == 'FIB': - # TODO: Should this really block the whole loop? - self.cmd_fib(tokens, connection_id) + command = self.parser.parse(input_) + if command is None: + self.send_to(connection_id, 'UNHANDLED INPUT') else: - self.send_to(connection_id, 'UNKNOWN COMMAND') - except ArgumentError as e: + command(connection_id=connection_id) + except ArgError as e: self.send_to(connection_id, 'ARGUMENT ERROR: ' + str(e))