from __future__ import with_statement import binascii import datetime import pytest import redis import time from redis._compat import (unichr, u, b, ascii_letters, iteritems, iterkeys, itervalues) from redis.client import parse_info from redis import exceptions from .conftest import skip_if_server_version_lt @pytest.fixture() def slowlog(request, r): current_config = r.config_get() old_slower_than_value = current_config['slowlog-log-slower-than'] old_max_legnth_value = current_config['slowlog-max-len'] def cleanup(): r.config_set('slowlog-log-slower-than', old_slower_than_value) r.config_set('slowlog-max-len', old_max_legnth_value) request.addfinalizer(cleanup) r.config_set('slowlog-log-slower-than', 0) r.config_set('slowlog-max-len', 128) def redis_server_time(client): seconds, milliseconds = client.time() timestamp = float('%s.%s' % (seconds, milliseconds)) return datetime.datetime.fromtimestamp(timestamp) # RESPONSE CALLBACKS class TestResponseCallbacks(object): "Tests for the response callback system" def test_response_callbacks(self, r): assert r.response_callbacks == redis.Redis.RESPONSE_CALLBACKS assert id(r.response_callbacks) != id(redis.Redis.RESPONSE_CALLBACKS) r.set_response_callback('GET', lambda x: 'static') r['a'] = 'foo' assert r['a'] == 'static' class TestRedisCommands(object): def test_command_on_invalid_key_type(self, r): r.lpush('a', '1') with pytest.raises(redis.ResponseError): r['a'] # SERVER INFORMATION def test_client_list(self, r): clients = r.client_list() assert isinstance(clients[0], dict) assert 'addr' in clients[0] @skip_if_server_version_lt('2.6.9') def test_client_getname(self, r): assert r.client_getname() is None @skip_if_server_version_lt('2.6.9') def test_client_setname(self, r): assert r.client_setname('redis_py_test') assert r.client_getname() == 'redis_py_test' def test_config_get(self, r): data = r.config_get() assert 'maxmemory' in data assert data['maxmemory'].isdigit() def test_config_resetstat(self, r): r.ping() prior_commands_processed = int(r.info()['total_commands_processed']) assert prior_commands_processed >= 1 r.config_resetstat() reset_commands_processed = int(r.info()['total_commands_processed']) assert reset_commands_processed < prior_commands_processed def test_config_set(self, r): data = r.config_get() rdbname = data['dbfilename'] try: assert r.config_set('dbfilename', 'redis_py_test.rdb') assert r.config_get()['dbfilename'] == 'redis_py_test.rdb' finally: assert r.config_set('dbfilename', rdbname) def test_dbsize(self, r): r['a'] = 'foo' r['b'] = 'bar' assert r.dbsize() == 2 def test_echo(self, r): assert r.echo('foo bar') == b('foo bar') def test_info(self, r): r['a'] = 'foo' r['b'] = 'bar' info = r.info() assert isinstance(info, dict) assert info['db9']['keys'] == 2 def test_lastsave(self, r): assert isinstance(r.lastsave(), datetime.datetime) def test_object(self, r): r['a'] = 'foo' assert isinstance(r.object('refcount', 'a'), int) assert isinstance(r.object('idletime', 'a'), int) assert r.object('encoding', 'a') in (b('raw'), b('embstr')) assert r.object('idletime', 'invalid-key') is None def test_ping(self, r): assert r.ping() def test_slowlog_get(self, r, slowlog): assert r.slowlog_reset() unicode_string = unichr(3456) + u('abcd') + unichr(3421) r.get(unicode_string) slowlog = r.slowlog_get() assert isinstance(slowlog, list) commands = [log['command'] for log in slowlog] get_command = b(' ').join((b('GET'), unicode_string.encode('utf-8'))) assert get_command in commands assert b('SLOWLOG RESET') in commands # the order should be ['GET ', 'SLOWLOG RESET'], # but if other clients are executing commands at the same time, there # could be commands, before, between, or after, so just check that # the two we care about are in the appropriate order. assert commands.index(get_command) < commands.index(b('SLOWLOG RESET')) # make sure other attributes are typed correctly assert isinstance(slowlog[0]['start_time'], int) assert isinstance(slowlog[0]['duration'], int) def test_slowlog_get_limit(self, r, slowlog): assert r.slowlog_reset() r.get('foo') r.get('bar') slowlog = r.slowlog_get(1) assert isinstance(slowlog, list) commands = [log['command'] for log in slowlog] assert b('GET foo') not in commands assert b('GET bar') in commands def test_slowlog_length(self, r, slowlog): r.get('foo') assert isinstance(r.slowlog_len(), int) @skip_if_server_version_lt('2.6.0') def test_time(self, r): t = r.time() assert len(t) == 2 assert isinstance(t[0], int) assert isinstance(t[1], int) # BASIC KEY COMMANDS def test_append(self, r): assert r.append('a', 'a1') == 2 assert r['a'] == b('a1') assert r.append('a', 'a2') == 4 assert r['a'] == b('a1a2') @skip_if_server_version_lt('2.6.0') def test_bitcount(self, r): r.setbit('a', 5, True) assert r.bitcount('a') == 1 r.setbit('a', 6, True) assert r.bitcount('a') == 2 r.setbit('a', 5, False) assert r.bitcount('a') == 1 r.setbit('a', 9, True) r.setbit('a', 17, True) r.setbit('a', 25, True) r.setbit('a', 33, True) assert r.bitcount('a') == 5 assert r.bitcount('a', 0, -1) == 5 assert r.bitcount('a', 2, 3) == 2 assert r.bitcount('a', 2, -1) == 3 assert r.bitcount('a', -2, -1) == 2 assert r.bitcount('a', 1, 1) == 1 @skip_if_server_version_lt('2.6.0') def test_bitop_not_empty_string(self, r): r['a'] = '' r.bitop('not', 'r', 'a') assert r.get('r') is None @skip_if_server_version_lt('2.6.0') def test_bitop_not(self, r): test_str = b('\xAA\x00\xFF\x55') correct = ~0xAA00FF55 & 0xFFFFFFFF r['a'] = test_str r.bitop('not', 'r', 'a') assert int(binascii.hexlify(r['r']), 16) == correct @skip_if_server_version_lt('2.6.0') def test_bitop_not_in_place(self, r): test_str = b('\xAA\x00\xFF\x55') correct = ~0xAA00FF55 & 0xFFFFFFFF r['a'] = test_str r.bitop('not', 'a', 'a') assert int(binascii.hexlify(r['a']), 16) == correct @skip_if_server_version_lt('2.6.0') def test_bitop_single_string(self, r): test_str = b('\x01\x02\xFF') r['a'] = test_str r.bitop('and', 'res1', 'a') r.bitop('or', 'res2', 'a') r.bitop('xor', 'res3', 'a') assert r['res1'] == test_str assert r['res2'] == test_str assert r['res3'] == test_str @skip_if_server_version_lt('2.6.0') def test_bitop_string_operands(self, r): r['a'] = b('\x01\x02\xFF\xFF') r['b'] = b('\x01\x02\xFF') r.bitop('and', 'res1', 'a', 'b') r.bitop('or', 'res2', 'a', 'b') r.bitop('xor', 'res3', 'a', 'b') assert int(binascii.hexlify(r['res1']), 16) == 0x0102FF00 assert int(binascii.hexlify(r['res2']), 16) == 0x0102FFFF assert int(binascii.hexlify(r['res3']), 16) == 0x000000FF @skip_if_server_version_lt('2.8.7') def test_bitpos(self, r): key = 'key:bitpos' r.set(key, b('\xff\xf0\x00')) assert r.bitpos(key, 0) == 12 assert r.bitpos(key, 0, 2, -1) == 16 assert r.bitpos(key, 0, -2, -1) == 12 r.set(key, b('\x00\xff\xf0')) assert r.bitpos(key, 1, 0) == 8 assert r.bitpos(key, 1, 1) == 8 r.set(key, b('\x00\x00\x00')) assert r.bitpos(key, 1) == -1 @skip_if_server_version_lt('2.8.7') def test_bitpos_wrong_arguments(self, r): key = 'key:bitpos:wrong:args' r.set(key, b('\xff\xf0\x00')) with pytest.raises(exceptions.RedisError): r.bitpos(key, 0, end=1) == 12 with pytest.raises(exceptions.RedisError): r.bitpos(key, 7) == 12 def test_decr(self, r): assert r.decr('a') == -1 assert r['a'] == b('-1') assert r.decr('a') == -2 assert r['a'] == b('-2') assert r.decr('a', amount=5) == -7 assert r['a'] == b('-7') def test_delete(self, r): assert r.delete('a') == 0 r['a'] = 'foo' assert r.delete('a') == 1 def test_delete_with_multiple_keys(self, r): r['a'] = 'foo' r['b'] = 'bar' assert r.delete('a', 'b') == 2 assert r.get('a') is None assert r.get('b') is None def test_delitem(self, r): r['a'] = 'foo' del r['a'] assert r.get('a') is None @skip_if_server_version_lt('2.6.0') def test_dump_and_restore(self, r): r['a'] = 'foo' dumped = r.dump('a') del r['a'] r.restore('a', 0, dumped) assert r['a'] == b('foo') def test_exists(self, r): assert not r.exists('a') r['a'] = 'foo' assert r.exists('a') def test_exists_contains(self, r): assert 'a' not in r r['a'] = 'foo' assert 'a' in r def test_expire(self, r): assert not r.expire('a', 10) r['a'] = 'foo' assert r.expire('a', 10) assert 0 < r.ttl('a') <= 10 assert r.persist('a') assert not r.ttl('a') def test_expireat_datetime(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) r['a'] = 'foo' assert r.expireat('a', expire_at) assert 0 < r.ttl('a') <= 61 def test_expireat_no_key(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) assert not r.expireat('a', expire_at) def test_expireat_unixtime(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) r['a'] = 'foo' expire_at_seconds = int(time.mktime(expire_at.timetuple())) assert r.expireat('a', expire_at_seconds) assert 0 < r.ttl('a') <= 61 def test_get_and_set(self, r): # get and set can't be tested independently of each other assert r.get('a') is None byte_string = b('value') integer = 5 unicode_string = unichr(3456) + u('abcd') + unichr(3421) assert r.set('byte_string', byte_string) assert r.set('integer', 5) assert r.set('unicode_string', unicode_string) assert r.get('byte_string') == byte_string assert r.get('integer') == b(str(integer)) assert r.get('unicode_string').decode('utf-8') == unicode_string def test_getitem_and_setitem(self, r): r['a'] = 'bar' assert r['a'] == b('bar') def test_getitem_raises_keyerror_for_missing_key(self, r): with pytest.raises(KeyError): r['a'] def test_get_set_bit(self, r): # no value assert not r.getbit('a', 5) # set bit 5 assert not r.setbit('a', 5, True) assert r.getbit('a', 5) # unset bit 4 assert not r.setbit('a', 4, False) assert not r.getbit('a', 4) # set bit 4 assert not r.setbit('a', 4, True) assert r.getbit('a', 4) # set bit 5 again assert r.setbit('a', 5, True) assert r.getbit('a', 5) def test_getrange(self, r): r['a'] = 'foo' assert r.getrange('a', 0, 0) == b('f') assert r.getrange('a', 0, 2) == b('foo') assert r.getrange('a', 3, 4) == b('') def test_getset(self, r): assert r.getset('a', 'foo') is None assert r.getset('a', 'bar') == b('foo') assert r.get('a') == b('bar') def test_incr(self, r): assert r.incr('a') == 1 assert r['a'] == b('1') assert r.incr('a') == 2 assert r['a'] == b('2') assert r.incr('a', amount=5) == 7 assert r['a'] == b('7') def test_incrby(self, r): assert r.incrby('a') == 1 assert r.incrby('a', 4) == 5 assert r['a'] == b('5') @skip_if_server_version_lt('2.6.0') def test_incrbyfloat(self, r): assert r.incrbyfloat('a') == 1.0 assert r['a'] == b('1') assert r.incrbyfloat('a', 1.1) == 2.1 assert float(r['a']) == float(2.1) def test_keys(self, r): assert r.keys() == [] keys_with_underscores = set([b('test_a'), b('test_b')]) keys = keys_with_underscores.union(set([b('testc')])) for key in keys: r[key] = 1 assert set(r.keys(pattern='test_*')) == keys_with_underscores assert set(r.keys(pattern='test*')) == keys def test_mget(self, r): assert r.mget(['a', 'b']) == [None, None] r['a'] = '1' r['b'] = '2' r['c'] = '3' assert r.mget('a', 'other', 'b', 'c') == [b('1'), None, b('2'), b('3')] def test_mset(self, r): d = {'a': b('1'), 'b': b('2'), 'c': b('3')} assert r.mset(d) for k, v in iteritems(d): assert r[k] == v def test_mset_kwargs(self, r): d = {'a': b('1'), 'b': b('2'), 'c': b('3')} assert r.mset(**d) for k, v in iteritems(d): assert r[k] == v def test_msetnx(self, r): d = {'a': b('1'), 'b': b('2'), 'c': b('3')} assert r.msetnx(d) d2 = {'a': b('x'), 'd': b('4')} assert not r.msetnx(d2) for k, v in iteritems(d): assert r[k] == v assert r.get('d') is None def test_msetnx_kwargs(self, r): d = {'a': b('1'), 'b': b('2'), 'c': b('3')} assert r.msetnx(**d) d2 = {'a': b('x'), 'd': b('4')} assert not r.msetnx(**d2) for k, v in iteritems(d): assert r[k] == v assert r.get('d') is None @skip_if_server_version_lt('2.6.0') def test_pexpire(self, r): assert not r.pexpire('a', 60000) r['a'] = 'foo' assert r.pexpire('a', 60000) assert 0 < r.pttl('a') <= 60000 assert r.persist('a') assert r.pttl('a') is None @skip_if_server_version_lt('2.6.0') def test_pexpireat_datetime(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) r['a'] = 'foo' assert r.pexpireat('a', expire_at) assert 0 < r.pttl('a') <= 61000 @skip_if_server_version_lt('2.6.0') def test_pexpireat_no_key(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) assert not r.pexpireat('a', expire_at) @skip_if_server_version_lt('2.6.0') def test_pexpireat_unixtime(self, r): expire_at = redis_server_time(r) + datetime.timedelta(minutes=1) r['a'] = 'foo' expire_at_seconds = int(time.mktime(expire_at.timetuple())) * 1000 assert r.pexpireat('a', expire_at_seconds) assert 0 < r.pttl('a') <= 61000 @skip_if_server_version_lt('2.6.0') def test_psetex(self, r): assert r.psetex('a', 1000, 'value') assert r['a'] == b('value') assert 0 < r.pttl('a') <= 1000 @skip_if_server_version_lt('2.6.0') def test_psetex_timedelta(self, r): expire_at = datetime.timedelta(milliseconds=1000) assert r.psetex('a', expire_at, 'value') assert r['a'] == b('value') assert 0 < r.pttl('a') <= 1000 def test_randomkey(self, r): assert r.randomkey() is None for key in ('a', 'b', 'c'): r[key] = 1 assert r.randomkey() in (b('a'), b('b'), b('c')) def test_rename(self, r): r['a'] = '1' assert r.rename('a', 'b') assert r.get('a') is None assert r['b'] == b('1') def test_renamenx(self, r): r['a'] = '1' r['b'] = '2' assert not r.renamenx('a', 'b') assert r['a'] == b('1') assert r['b'] == b('2') @skip_if_server_version_lt('2.6.0') def test_set_nx(self, r): assert r.set('a', '1', nx=True) assert not r.set('a', '2', nx=True) assert r['a'] == b('1') @skip_if_server_version_lt('2.6.0') def test_set_xx(self, r): assert not r.set('a', '1', xx=True) assert r.get('a') is None r['a'] = 'bar' assert r.set('a', '2', xx=True) assert r.get('a') == b('2') @skip_if_server_version_lt('2.6.0') def test_set_px(self, r): assert r.set('a', '1', px=10000) assert r['a'] == b('1') assert 0 < r.pttl('a') <= 10000 assert 0 < r.ttl('a') <= 10 @skip_if_server_version_lt('2.6.0') def test_set_px_timedelta(self, r): expire_at = datetime.timedelta(milliseconds=1000) assert r.set('a', '1', px=expire_at) assert 0 < r.pttl('a') <= 1000 assert 0 < r.ttl('a') <= 1 @skip_if_server_version_lt('2.6.0') def test_set_ex(self, r): assert r.set('a', '1', ex=10) assert 0 < r.ttl('a') <= 10 @skip_if_server_version_lt('2.6.0') def test_set_ex_timedelta(self, r): expire_at = datetime.timedelta(seconds=60) assert r.set('a', '1', ex=expire_at) assert 0 < r.ttl('a') <= 60 @skip_if_server_version_lt('2.6.0') def test_set_multipleoptions(self, r): r['a'] = 'val' assert r.set('a', '1', xx=True, px=10000) assert 0 < r.ttl('a') <= 10 def test_setex(self, r): assert r.setex('a', '1', 60) assert r['a'] == b('1') assert 0 < r.ttl('a') <= 60 def test_setnx(self, r): assert r.setnx('a', '1') assert r['a'] == b('1') assert not r.setnx('a', '2') assert r['a'] == b('1') def test_setrange(self, r): assert r.setrange('a', 5, 'foo') == 8 assert r['a'] == b('\0\0\0\0\0foo') r['a'] = 'abcdefghijh' assert r.setrange('a', 6, '12345') == 11 assert r['a'] == b('abcdef12345') def test_strlen(self, r): r['a'] = 'foo' assert r.strlen('a') == 3 def test_substr(self, r): r['a'] = '0123456789' assert r.substr('a', 0) == b('0123456789') assert r.substr('a', 2) == b('23456789') assert r.substr('a', 3, 5) == b('345') assert r.substr('a', 3, -2) == b('345678') def test_type(self, r): assert r.type('a') == b('none') r['a'] = '1' assert r.type('a') == b('string') del r['a'] r.lpush('a', '1') assert r.type('a') == b('list') del r['a'] r.sadd('a', '1') assert r.type('a') == b('set') del r['a'] r.zadd('a', **{'1': 1}) assert r.type('a') == b('zset') # LIST COMMANDS def test_blpop(self, r): r.rpush('a', '1', '2') r.rpush('b', '3', '4') assert r.blpop(['b', 'a'], timeout=1) == (b('b'), b('3')) assert r.blpop(['b', 'a'], timeout=1) == (b('b'), b('4')) assert r.blpop(['b', 'a'], timeout=1) == (b('a'), b('1')) assert r.blpop(['b', 'a'], timeout=1) == (b('a'), b('2')) assert r.blpop(['b', 'a'], timeout=1) is None r.rpush('c', '1') assert r.blpop('c', timeout=1) == (b('c'), b('1')) def test_brpop(self, r): r.rpush('a', '1', '2') r.rpush('b', '3', '4') assert r.brpop(['b', 'a'], timeout=1) == (b('b'), b('4')) assert r.brpop(['b', 'a'], timeout=1) == (b('b'), b('3')) assert r.brpop(['b', 'a'], timeout=1) == (b('a'), b('2')) assert r.brpop(['b', 'a'], timeout=1) == (b('a'), b('1')) assert r.brpop(['b', 'a'], timeout=1) is None r.rpush('c', '1') assert r.brpop('c', timeout=1) == (b('c'), b('1')) def test_brpoplpush(self, r): r.rpush('a', '1', '2') r.rpush('b', '3', '4') assert r.brpoplpush('a', 'b') == b('2') assert r.brpoplpush('a', 'b') == b('1') assert r.brpoplpush('a', 'b', timeout=1) is None assert r.lrange('a', 0, -1) == [] assert r.lrange('b', 0, -1) == [b('1'), b('2'), b('3'), b('4')] def test_brpoplpush_empty_string(self, r): r.rpush('a', '') assert r.brpoplpush('a', 'b') == b('') def test_lindex(self, r): r.rpush('a', '1', '2', '3') assert r.lindex('a', '0') == b('1') assert r.lindex('a', '1') == b('2') assert r.lindex('a', '2') == b('3') def test_linsert(self, r): r.rpush('a', '1', '2', '3') assert r.linsert('a', 'after', '2', '2.5') == 4 assert r.lrange('a', 0, -1) == [b('1'), b('2'), b('2.5'), b('3')] assert r.linsert('a', 'before', '2', '1.5') == 5 assert r.lrange('a', 0, -1) == \ [b('1'), b('1.5'), b('2'), b('2.5'), b('3')] def test_llen(self, r): r.rpush('a', '1', '2', '3') assert r.llen('a') == 3 def test_lpop(self, r): r.rpush('a', '1', '2', '3') assert r.lpop('a') == b('1') assert r.lpop('a') == b('2') assert r.lpop('a') == b('3') assert r.lpop('a') is None def test_lpush(self, r): assert r.lpush('a', '1') == 1 assert r.lpush('a', '2') == 2 assert r.lpush('a', '3', '4') == 4 assert r.lrange('a', 0, -1) == [b('4'), b('3'), b('2'), b('1')] def test_lpushx(self, r): assert r.lpushx('a', '1') == 0 assert r.lrange('a', 0, -1) == [] r.rpush('a', '1', '2', '3') assert r.lpushx('a', '4') == 4 assert r.lrange('a', 0, -1) == [b('4'), b('1'), b('2'), b('3')] def test_lrange(self, r): r.rpush('a', '1', '2', '3', '4', '5') assert r.lrange('a', 0, 2) == [b('1'), b('2'), b('3')] assert r.lrange('a', 2, 10) == [b('3'), b('4'), b('5')] assert r.lrange('a', 0, -1) == [b('1'), b('2'), b('3'), b('4'), b('5')] def test_lrem(self, r): r.rpush('a', '1', '1', '1', '1') assert r.lrem('a', '1', 1) == 1 assert r.lrange('a', 0, -1) == [b('1'), b('1'), b('1')] assert r.lrem('a', '1') == 3 assert r.lrange('a', 0, -1) == [] def test_lset(self, r): r.rpush('a', '1', '2', '3') assert r.lrange('a', 0, -1) == [b('1'), b('2'), b('3')] assert r.lset('a', 1, '4') assert r.lrange('a', 0, 2) == [b('1'), b('4'), b('3')] def test_ltrim(self, r): r.rpush('a', '1', '2', '3') assert r.ltrim('a', 0, 1) assert r.lrange('a', 0, -1) == [b('1'), b('2')] def test_rpop(self, r): r.rpush('a', '1', '2', '3') assert r.rpop('a') == b('3') assert r.rpop('a') == b('2') assert r.rpop('a') == b('1') assert r.rpop('a') is None def test_rpoplpush(self, r): r.rpush('a', 'a1', 'a2', 'a3') r.rpush('b', 'b1', 'b2', 'b3') assert r.rpoplpush('a', 'b') == b('a3') assert r.lrange('a', 0, -1) == [b('a1'), b('a2')] assert r.lrange('b', 0, -1) == [b('a3'), b('b1'), b('b2'), b('b3')] def test_rpush(self, r): assert r.rpush('a', '1') == 1 assert r.rpush('a', '2') == 2 assert r.rpush('a', '3', '4') == 4 assert r.lrange('a', 0, -1) == [b('1'), b('2'), b('3'), b('4')] def test_rpushx(self, r): assert r.rpushx('a', 'b') == 0 assert r.lrange('a', 0, -1) == [] r.rpush('a', '1', '2', '3') assert r.rpushx('a', '4') == 4 assert r.lrange('a', 0, -1) == [b('1'), b('2'), b('3'), b('4')] # SCAN COMMANDS @skip_if_server_version_lt('2.8.0') def test_scan(self, r): r.set('a', 1) r.set('b', 2) r.set('c', 3) cursor, keys = r.scan() assert cursor == 0 assert set(keys) == set([b('a'), b('b'), b('c')]) _, keys = r.scan(match='a') assert set(keys) == set([b('a')]) @skip_if_server_version_lt('2.8.0') def test_scan_iter(self, r): r.set('a', 1) r.set('b', 2) r.set('c', 3) keys = list(r.scan_iter()) assert set(keys) == set([b('a'), b('b'), b('c')]) keys = list(r.scan_iter(match='a')) assert set(keys) == set([b('a')]) @skip_if_server_version_lt('2.8.0') def test_sscan(self, r): r.sadd('a', 1, 2, 3) cursor, members = r.sscan('a') assert cursor == 0 assert set(members) == set([b('1'), b('2'), b('3')]) _, members = r.sscan('a', match=b('1')) assert set(members) == set([b('1')]) @skip_if_server_version_lt('2.8.0') def test_sscan_iter(self, r): r.sadd('a', 1, 2, 3) members = list(r.sscan_iter('a')) assert set(members) == set([b('1'), b('2'), b('3')]) members = list(r.sscan_iter('a', match=b('1'))) assert set(members) == set([b('1')]) @skip_if_server_version_lt('2.8.0') def test_hscan(self, r): r.hmset('a', {'a': 1, 'b': 2, 'c': 3}) cursor, dic = r.hscan('a') assert cursor == 0 assert dic == {b('a'): b('1'), b('b'): b('2'), b('c'): b('3')} _, dic = r.hscan('a', match='a') assert dic == {b('a'): b('1')} @skip_if_server_version_lt('2.8.0') def test_hscan_iter(self, r): r.hmset('a', {'a': 1, 'b': 2, 'c': 3}) dic = dict(r.hscan_iter('a')) assert dic == {b('a'): b('1'), b('b'): b('2'), b('c'): b('3')} dic = dict(r.hscan_iter('a', match='a')) assert dic == {b('a'): b('1')} @skip_if_server_version_lt('2.8.0') def test_zscan(self, r): r.zadd('a', 'a', 1, 'b', 2, 'c', 3) cursor, pairs = r.zscan('a') assert cursor == 0 assert set(pairs) == set([(b('a'), 1), (b('b'), 2), (b('c'), 3)]) _, pairs = r.zscan('a', match='a') assert set(pairs) == set([(b('a'), 1)]) @skip_if_server_version_lt('2.8.0') def test_zscan_iter(self, r): r.zadd('a', 'a', 1, 'b', 2, 'c', 3) pairs = list(r.zscan_iter('a')) assert set(pairs) == set([(b('a'), 1), (b('b'), 2), (b('c'), 3)]) pairs = list(r.zscan_iter('a', match='a')) assert set(pairs) == set([(b('a'), 1)]) # SET COMMANDS def test_sadd(self, r): members = set([b('1'), b('2'), b('3')]) r.sadd('a', *members) assert r.smembers('a') == members def test_scard(self, r): r.sadd('a', '1', '2', '3') assert r.scard('a') == 3 def test_sdiff(self, r): r.sadd('a', '1', '2', '3') assert r.sdiff('a', 'b') == set([b('1'), b('2'), b('3')]) r.sadd('b', '2', '3') assert r.sdiff('a', 'b') == set([b('1')]) def test_sdiffstore(self, r): r.sadd('a', '1', '2', '3') assert r.sdiffstore('c', 'a', 'b') == 3 assert r.smembers('c') == set([b('1'), b('2'), b('3')]) r.sadd('b', '2', '3') assert r.sdiffstore('c', 'a', 'b') == 1 assert r.smembers('c') == set([b('1')]) def test_sinter(self, r): r.sadd('a', '1', '2', '3') assert r.sinter('a', 'b') == set() r.sadd('b', '2', '3') assert r.sinter('a', 'b') == set([b('2'), b('3')]) def test_sinterstore(self, r): r.sadd('a', '1', '2', '3') assert r.sinterstore('c', 'a', 'b') == 0 assert r.smembers('c') == set() r.sadd('b', '2', '3') assert r.sinterstore('c', 'a', 'b') == 2 assert r.smembers('c') == set([b('2'), b('3')]) def test_sismember(self, r): r.sadd('a', '1', '2', '3') assert r.sismember('a', '1') assert r.sismember('a', '2') assert r.sismember('a', '3') assert not r.sismember('a', '4') def test_smembers(self, r): r.sadd('a', '1', '2', '3') assert r.smembers('a') == set([b('1'), b('2'), b('3')]) def test_smove(self, r): r.sadd('a', 'a1', 'a2') r.sadd('b', 'b1', 'b2') assert r.smove('a', 'b', 'a1') assert r.smembers('a') == set([b('a2')]) assert r.smembers('b') == set([b('b1'), b('b2'), b('a1')]) def test_spop(self, r): s = [b('1'), b('2'), b('3')] r.sadd('a', *s) value = r.spop('a') assert value in s assert r.smembers('a') == set(s) - set([value]) def test_srandmember(self, r): s = [b('1'), b('2'), b('3')] r.sadd('a', *s) assert r.srandmember('a') in s @skip_if_server_version_lt('2.6.0') def test_srandmember_multi_value(self, r): s = [b('1'), b('2'), b('3')] r.sadd('a', *s) randoms = r.srandmember('a', number=2) assert len(randoms) == 2 assert set(randoms).intersection(s) == set(randoms) def test_srem(self, r): r.sadd('a', '1', '2', '3', '4') assert r.srem('a', '5') == 0 assert r.srem('a', '2', '4') == 2 assert r.smembers('a') == set([b('1'), b('3')]) def test_sunion(self, r): r.sadd('a', '1', '2') r.sadd('b', '2', '3') assert r.sunion('a', 'b') == set([b('1'), b('2'), b('3')]) def test_sunionstore(self, r): r.sadd('a', '1', '2') r.sadd('b', '2', '3') assert r.sunionstore('c', 'a', 'b') == 3 assert r.smembers('c') == set([b('1'), b('2'), b('3')]) # SORTED SET COMMANDS def test_zadd(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zrange('a', 0, -1) == [b('a1'), b('a2'), b('a3')] def test_zcard(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zcard('a') == 3 def test_zcount(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zcount('a', '-inf', '+inf') == 3 assert r.zcount('a', 1, 2) == 2 assert r.zcount('a', 10, 20) == 0 def test_zincrby(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zincrby('a', 'a2') == 3.0 assert r.zincrby('a', 'a3', amount=5) == 8.0 assert r.zscore('a', 'a2') == 3.0 assert r.zscore('a', 'a3') == 8.0 @skip_if_server_version_lt('2.8.9') def test_zlexcount(self, r): r.zadd('a', a=0, b=0, c=0, d=0, e=0, f=0, g=0) assert r.zlexcount('a', '-', '+') == 7 assert r.zlexcount('a', '[b', '[f') == 5 def test_zinterstore_sum(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zinterstore('d', ['a', 'b', 'c']) == 2 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a3'), 8), (b('a1'), 9)] def test_zinterstore_max(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zinterstore('d', ['a', 'b', 'c'], aggregate='MAX') == 2 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a3'), 5), (b('a1'), 6)] def test_zinterstore_min(self, r): r.zadd('a', a1=1, a2=2, a3=3) r.zadd('b', a1=2, a2=3, a3=5) r.zadd('c', a1=6, a3=5, a4=4) assert r.zinterstore('d', ['a', 'b', 'c'], aggregate='MIN') == 2 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a1'), 1), (b('a3'), 3)] def test_zinterstore_with_weight(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zinterstore('d', {'a': 1, 'b': 2, 'c': 3}) == 2 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a3'), 20), (b('a1'), 23)] def test_zrange(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zrange('a', 0, 1) == [b('a1'), b('a2')] assert r.zrange('a', 1, 2) == [b('a2'), b('a3')] # withscores assert r.zrange('a', 0, 1, withscores=True) == \ [(b('a1'), 1.0), (b('a2'), 2.0)] assert r.zrange('a', 1, 2, withscores=True) == \ [(b('a2'), 2.0), (b('a3'), 3.0)] # custom score function assert r.zrange('a', 0, 1, withscores=True, score_cast_func=int) == \ [(b('a1'), 1), (b('a2'), 2)] @skip_if_server_version_lt('2.8.9') def test_zrangebylex(self, r): r.zadd('a', a=0, b=0, c=0, d=0, e=0, f=0, g=0) assert r.zrangebylex('a', '-', '[c') == [b('a'), b('b'), b('c')] assert r.zrangebylex('a', '-', '(c') == [b('a'), b('b')] assert r.zrangebylex('a', '[aaa', '(g') == \ [b('b'), b('c'), b('d'), b('e'), b('f')] assert r.zrangebylex('a', '[f', '+') == [b('f'), b('g')] assert r.zrangebylex('a', '-', '+', start=3, num=2) == [b('d'), b('e')] @skip_if_server_version_lt('2.9.9') def test_zrevrangebylex(self, r): r.zadd('a', a=0, b=0, c=0, d=0, e=0, f=0, g=0) assert r.zrevrangebylex('a', '[c', '-') == [b('c'), b('b'), b('a')] assert r.zrevrangebylex('a', '(c', '-') == [b('b'), b('a')] assert r.zrevrangebylex('a', '(g', '[aaa') == \ [b('f'), b('e'), b('d'), b('c'), b('b')] assert r.zrevrangebylex('a', '+', '[f') == [b('g'), b('f')] assert r.zrevrangebylex('a', '+', '-', start=3, num=2) == \ [b('d'), b('c')] def test_zrangebyscore(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zrangebyscore('a', 2, 4) == [b('a2'), b('a3'), b('a4')] # slicing with start/num assert r.zrangebyscore('a', 2, 4, start=1, num=2) == \ [b('a3'), b('a4')] # withscores assert r.zrangebyscore('a', 2, 4, withscores=True) == \ [(b('a2'), 2.0), (b('a3'), 3.0), (b('a4'), 4.0)] # custom score function assert r.zrangebyscore('a', 2, 4, withscores=True, score_cast_func=int) == \ [(b('a2'), 2), (b('a3'), 3), (b('a4'), 4)] def test_zrank(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zrank('a', 'a1') == 0 assert r.zrank('a', 'a2') == 1 assert r.zrank('a', 'a6') is None def test_zrem(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zrem('a', 'a2') == 1 assert r.zrange('a', 0, -1) == [b('a1'), b('a3')] assert r.zrem('a', 'b') == 0 assert r.zrange('a', 0, -1) == [b('a1'), b('a3')] def test_zrem_multiple_keys(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zrem('a', 'a1', 'a2') == 2 assert r.zrange('a', 0, 5) == [b('a3')] @skip_if_server_version_lt('2.8.9') def test_zremrangebylex(self, r): r.zadd('a', a=0, b=0, c=0, d=0, e=0, f=0, g=0) assert r.zremrangebylex('a', '-', '[c') == 3 assert r.zrange('a', 0, -1) == [b('d'), b('e'), b('f'), b('g')] assert r.zremrangebylex('a', '[f', '+') == 2 assert r.zrange('a', 0, -1) == [b('d'), b('e')] assert r.zremrangebylex('a', '[h', '+') == 0 assert r.zrange('a', 0, -1) == [b('d'), b('e')] def test_zremrangebyrank(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zremrangebyrank('a', 1, 3) == 3 assert r.zrange('a', 0, 5) == [b('a1'), b('a5')] def test_zremrangebyscore(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zremrangebyscore('a', 2, 4) == 3 assert r.zrange('a', 0, -1) == [b('a1'), b('a5')] assert r.zremrangebyscore('a', 2, 4) == 0 assert r.zrange('a', 0, -1) == [b('a1'), b('a5')] def test_zrevrange(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zrevrange('a', 0, 1) == [b('a3'), b('a2')] assert r.zrevrange('a', 1, 2) == [b('a2'), b('a1')] # withscores assert r.zrevrange('a', 0, 1, withscores=True) == \ [(b('a3'), 3.0), (b('a2'), 2.0)] assert r.zrevrange('a', 1, 2, withscores=True) == \ [(b('a2'), 2.0), (b('a1'), 1.0)] # custom score function assert r.zrevrange('a', 0, 1, withscores=True, score_cast_func=int) == \ [(b('a3'), 3.0), (b('a2'), 2.0)] def test_zrevrangebyscore(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zrevrangebyscore('a', 4, 2) == [b('a4'), b('a3'), b('a2')] # slicing with start/num assert r.zrevrangebyscore('a', 4, 2, start=1, num=2) == \ [b('a3'), b('a2')] # withscores assert r.zrevrangebyscore('a', 4, 2, withscores=True) == \ [(b('a4'), 4.0), (b('a3'), 3.0), (b('a2'), 2.0)] # custom score function assert r.zrevrangebyscore('a', 4, 2, withscores=True, score_cast_func=int) == \ [(b('a4'), 4), (b('a3'), 3), (b('a2'), 2)] def test_zrevrank(self, r): r.zadd('a', a1=1, a2=2, a3=3, a4=4, a5=5) assert r.zrevrank('a', 'a1') == 4 assert r.zrevrank('a', 'a2') == 3 assert r.zrevrank('a', 'a6') is None def test_zscore(self, r): r.zadd('a', a1=1, a2=2, a3=3) assert r.zscore('a', 'a1') == 1.0 assert r.zscore('a', 'a2') == 2.0 assert r.zscore('a', 'a4') is None def test_zunionstore_sum(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zunionstore('d', ['a', 'b', 'c']) == 4 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a2'), 3), (b('a4'), 4), (b('a3'), 8), (b('a1'), 9)] def test_zunionstore_max(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zunionstore('d', ['a', 'b', 'c'], aggregate='MAX') == 4 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a2'), 2), (b('a4'), 4), (b('a3'), 5), (b('a1'), 6)] def test_zunionstore_min(self, r): r.zadd('a', a1=1, a2=2, a3=3) r.zadd('b', a1=2, a2=2, a3=4) r.zadd('c', a1=6, a3=5, a4=4) assert r.zunionstore('d', ['a', 'b', 'c'], aggregate='MIN') == 4 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a1'), 1), (b('a2'), 2), (b('a3'), 3), (b('a4'), 4)] def test_zunionstore_with_weight(self, r): r.zadd('a', a1=1, a2=1, a3=1) r.zadd('b', a1=2, a2=2, a3=2) r.zadd('c', a1=6, a3=5, a4=4) assert r.zunionstore('d', {'a': 1, 'b': 2, 'c': 3}) == 4 assert r.zrange('d', 0, -1, withscores=True) == \ [(b('a2'), 5), (b('a4'), 12), (b('a3'), 20), (b('a1'), 23)] # HYPERLOGLOG TESTS @skip_if_server_version_lt('2.8.9') def test_pfadd(self, r): members = set([b('1'), b('2'), b('3')]) assert r.pfadd('a', *members) == 1 assert r.pfadd('a', *members) == 0 assert r.pfcount('a') == len(members) @skip_if_server_version_lt('2.8.9') def test_pfcount(self, r): members = set([b('1'), b('2'), b('3')]) r.pfadd('a', *members) assert r.pfcount('a') == len(members) members_b = set([b('2'), b('3'), b('4')]) r.pfadd('b', *members_b) assert r.pfcount('b') == len(members_b) assert r.pfcount('a', 'b') == len(members_b.union(members)) @skip_if_server_version_lt('2.8.9') def test_pfmerge(self, r): mema = set([b('1'), b('2'), b('3')]) memb = set([b('2'), b('3'), b('4')]) memc = set([b('5'), b('6'), b('7')]) r.pfadd('a', *mema) r.pfadd('b', *memb) r.pfadd('c', *memc) r.pfmerge('d', 'c', 'a') assert r.pfcount('d') == 6 r.pfmerge('d', 'b') assert r.pfcount('d') == 7 # HASH COMMANDS def test_hget_and_hset(self, r): r.hmset('a', {'1': 1, '2': 2, '3': 3}) assert r.hget('a', '1') == b('1') assert r.hget('a', '2') == b('2') assert r.hget('a', '3') == b('3') # field was updated, redis returns 0 assert r.hset('a', '2', 5) == 0 assert r.hget('a', '2') == b('5') # field is new, redis returns 1 assert r.hset('a', '4', 4) == 1 assert r.hget('a', '4') == b('4') # key inside of hash that doesn't exist returns null value assert r.hget('a', 'b') is None def test_hdel(self, r): r.hmset('a', {'1': 1, '2': 2, '3': 3}) assert r.hdel('a', '2') == 1 assert r.hget('a', '2') is None assert r.hdel('a', '1', '3') == 2 assert r.hlen('a') == 0 def test_hexists(self, r): r.hmset('a', {'1': 1, '2': 2, '3': 3}) assert r.hexists('a', '1') assert not r.hexists('a', '4') def test_hgetall(self, r): h = {b('a1'): b('1'), b('a2'): b('2'), b('a3'): b('3')} r.hmset('a', h) assert r.hgetall('a') == h def test_hincrby(self, r): assert r.hincrby('a', '1') == 1 assert r.hincrby('a', '1', amount=2) == 3 assert r.hincrby('a', '1', amount=-2) == 1 @skip_if_server_version_lt('2.6.0') def test_hincrbyfloat(self, r): assert r.hincrbyfloat('a', '1') == 1.0 assert r.hincrbyfloat('a', '1') == 2.0 assert r.hincrbyfloat('a', '1', 1.2) == 3.2 def test_hkeys(self, r): h = {b('a1'): b('1'), b('a2'): b('2'), b('a3'): b('3')} r.hmset('a', h) local_keys = list(iterkeys(h)) remote_keys = r.hkeys('a') assert (sorted(local_keys) == sorted(remote_keys)) def test_hlen(self, r): r.hmset('a', {'1': 1, '2': 2, '3': 3}) assert r.hlen('a') == 3 def test_hmget(self, r): assert r.hmset('a', {'a': 1, 'b': 2, 'c': 3}) assert r.hmget('a', 'a', 'b', 'c') == [b('1'), b('2'), b('3')] def test_hmset(self, r): h = {b('a'): b('1'), b('b'): b('2'), b('c'): b('3')} assert r.hmset('a', h) assert r.hgetall('a') == h def test_hsetnx(self, r): # Initially set the hash field assert r.hsetnx('a', '1', 1) assert r.hget('a', '1') == b('1') assert not r.hsetnx('a', '1', 2) assert r.hget('a', '1') == b('1') def test_hvals(self, r): h = {b('a1'): b('1'), b('a2'): b('2'), b('a3'): b('3')} r.hmset('a', h) local_vals = list(itervalues(h)) remote_vals = r.hvals('a') assert sorted(local_vals) == sorted(remote_vals) # SORT def test_sort_basic(self, r): r.rpush('a', '3', '2', '1', '4') assert r.sort('a') == [b('1'), b('2'), b('3'), b('4')] def test_sort_limited(self, r): r.rpush('a', '3', '2', '1', '4') assert r.sort('a', start=1, num=2) == [b('2'), b('3')] def test_sort_by(self, r): r['score:1'] = 8 r['score:2'] = 3 r['score:3'] = 5 r.rpush('a', '3', '2', '1') assert r.sort('a', by='score:*') == [b('2'), b('3'), b('1')] def test_sort_get(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') assert r.sort('a', get='user:*') == [b('u1'), b('u2'), b('u3')] def test_sort_get_multi(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') assert r.sort('a', get=('user:*', '#')) == \ [b('u1'), b('1'), b('u2'), b('2'), b('u3'), b('3')] def test_sort_get_groups_two(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') assert r.sort('a', get=('user:*', '#'), groups=True) == \ [(b('u1'), b('1')), (b('u2'), b('2')), (b('u3'), b('3'))] def test_sort_groups_string_get(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') with pytest.raises(exceptions.DataError): r.sort('a', get='user:*', groups=True) def test_sort_groups_just_one_get(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') with pytest.raises(exceptions.DataError): r.sort('a', get=['user:*'], groups=True) def test_sort_groups_no_get(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r.rpush('a', '2', '3', '1') with pytest.raises(exceptions.DataError): r.sort('a', groups=True) def test_sort_groups_three_gets(self, r): r['user:1'] = 'u1' r['user:2'] = 'u2' r['user:3'] = 'u3' r['door:1'] = 'd1' r['door:2'] = 'd2' r['door:3'] = 'd3' r.rpush('a', '2', '3', '1') assert r.sort('a', get=('user:*', 'door:*', '#'), groups=True) == \ [ (b('u1'), b('d1'), b('1')), (b('u2'), b('d2'), b('2')), (b('u3'), b('d3'), b('3')) ] def test_sort_desc(self, r): r.rpush('a', '2', '3', '1') assert r.sort('a', desc=True) == [b('3'), b('2'), b('1')] def test_sort_alpha(self, r): r.rpush('a', 'e', 'c', 'b', 'd', 'a') assert r.sort('a', alpha=True) == \ [b('a'), b('b'), b('c'), b('d'), b('e')] def test_sort_store(self, r): r.rpush('a', '2', '3', '1') assert r.sort('a', store='sorted_values') == 3 assert r.lrange('sorted_values', 0, -1) == [b('1'), b('2'), b('3')] def test_sort_all_options(self, r): r['user:1:username'] = 'zeus' r['user:2:username'] = 'titan' r['user:3:username'] = 'hermes' r['user:4:username'] = 'hercules' r['user:5:username'] = 'apollo' r['user:6:username'] = 'athena' r['user:7:username'] = 'hades' r['user:8:username'] = 'dionysus' r['user:1:favorite_drink'] = 'yuengling' r['user:2:favorite_drink'] = 'rum' r['user:3:favorite_drink'] = 'vodka' r['user:4:favorite_drink'] = 'milk' r['user:5:favorite_drink'] = 'pinot noir' r['user:6:favorite_drink'] = 'water' r['user:7:favorite_drink'] = 'gin' r['user:8:favorite_drink'] = 'apple juice' r.rpush('gods', '5', '8', '3', '1', '2', '7', '6', '4') num = r.sort('gods', start=2, num=4, by='user:*:username', get='user:*:favorite_drink', desc=True, alpha=True, store='sorted') assert num == 4 assert r.lrange('sorted', 0, 10) == \ [b('vodka'), b('milk'), b('gin'), b('apple juice')] class TestStrictCommands(object): def test_strict_zadd(self, sr): sr.zadd('a', 1.0, 'a1', 2.0, 'a2', a3=3.0) assert sr.zrange('a', 0, -1, withscores=True) == \ [(b('a1'), 1.0), (b('a2'), 2.0), (b('a3'), 3.0)] def test_strict_lrem(self, sr): sr.rpush('a', 'a1', 'a2', 'a3', 'a1') sr.lrem('a', 0, 'a1') assert sr.lrange('a', 0, -1) == [b('a2'), b('a3')] def test_strict_setex(self, sr): assert sr.setex('a', 60, '1') assert sr['a'] == b('1') assert 0 < sr.ttl('a') <= 60 def test_strict_ttl(self, sr): assert not sr.expire('a', 10) sr['a'] = '1' assert sr.expire('a', 10) assert 0 < sr.ttl('a') <= 10 assert sr.persist('a') assert sr.ttl('a') == -1 @skip_if_server_version_lt('2.6.0') def test_strict_pttl(self, sr): assert not sr.pexpire('a', 10000) sr['a'] = '1' assert sr.pexpire('a', 10000) assert 0 < sr.pttl('a') <= 10000 assert sr.persist('a') assert sr.pttl('a') == -1 class TestBinarySave(object): def test_binary_get_set(self, r): assert r.set(' foo bar ', '123') assert r.get(' foo bar ') == b('123') assert r.set(' foo\r\nbar\r\n ', '456') assert r.get(' foo\r\nbar\r\n ') == b('456') assert r.set(' \r\n\t\x07\x13 ', '789') assert r.get(' \r\n\t\x07\x13 ') == b('789') assert sorted(r.keys('*')) == \ [b(' \r\n\t\x07\x13 '), b(' foo\r\nbar\r\n '), b(' foo bar ')] assert r.delete(' foo bar ') assert r.delete(' foo\r\nbar\r\n ') assert r.delete(' \r\n\t\x07\x13 ') def test_binary_lists(self, r): mapping = { b('foo bar'): [b('1'), b('2'), b('3')], b('foo\r\nbar\r\n'): [b('4'), b('5'), b('6')], b('foo\tbar\x07'): [b('7'), b('8'), b('9')], } # fill in lists for key, value in iteritems(mapping): r.rpush(key, *value) # check that KEYS returns all the keys as they are assert sorted(r.keys('*')) == sorted(list(iterkeys(mapping))) # check that it is possible to get list content by key name for key, value in iteritems(mapping): assert r.lrange(key, 0, -1) == value def test_22_info(self, r): """ Older Redis versions contained 'allocation_stats' in INFO that was the cause of a number of bugs when parsing. """ info = "allocation_stats:6=1,7=1,8=7141,9=180,10=92,11=116,12=5330," \ "13=123,14=3091,15=11048,16=225842,17=1784,18=814,19=12020," \ "20=2530,21=645,22=15113,23=8695,24=142860,25=318,26=3303," \ "27=20561,28=54042,29=37390,30=1884,31=18071,32=31367,33=160," \ "34=169,35=201,36=10155,37=1045,38=15078,39=22985,40=12523," \ "41=15588,42=265,43=1287,44=142,45=382,46=945,47=426,48=171," \ "49=56,50=516,51=43,52=41,53=46,54=54,55=75,56=647,57=332," \ "58=32,59=39,60=48,61=35,62=62,63=32,64=221,65=26,66=30," \ "67=36,68=41,69=44,70=26,71=144,72=169,73=24,74=37,75=25," \ "76=42,77=21,78=126,79=374,80=27,81=40,82=43,83=47,84=46," \ "85=114,86=34,87=37,88=7240,89=34,90=38,91=18,92=99,93=20," \ "94=18,95=17,96=15,97=22,98=18,99=69,100=17,101=22,102=15," \ "103=29,104=39,105=30,106=70,107=22,108=21,109=26,110=52," \ "111=45,112=33,113=67,114=41,115=44,116=48,117=53,118=54," \ "119=51,120=75,121=44,122=57,123=44,124=66,125=56,126=52," \ "127=81,128=108,129=70,130=50,131=51,132=53,133=45,134=62," \ "135=12,136=13,137=7,138=15,139=21,140=11,141=20,142=6,143=7," \ "144=11,145=6,146=16,147=19,148=1112,149=1,151=83,154=1," \ "155=1,156=1,157=1,160=1,161=1,162=2,166=1,169=1,170=1,171=2," \ "172=1,174=1,176=2,177=9,178=34,179=73,180=30,181=1,185=3," \ "187=1,188=1,189=1,192=1,196=1,198=1,200=1,201=1,204=1,205=1," \ "207=1,208=1,209=1,214=2,215=31,216=78,217=28,218=5,219=2," \ "220=1,222=1,225=1,227=1,234=1,242=1,250=1,252=1,253=1," \ ">=256=203" parsed = parse_info(info) assert 'allocation_stats' in parsed assert '6' in parsed['allocation_stats'] assert '>=256' in parsed['allocation_stats'] def test_large_responses(self, r): "The PythonParser has some special cases for return values > 1MB" # load up 5MB of data into a key data = ''.join([ascii_letters] * (5000000 // len(ascii_letters))) r['a'] = data assert r['a'] == b(data) def test_floating_point_encoding(self, r): """ High precision floating point values sent to the server should keep precision. """ timestamp = 1349673917.939762 r.zadd('a', 'a1', timestamp) assert r.zscore('a', 'a1') == timestamp