def fixmsg(*args, **kwargs) -> FixMessage:
"""
docstring
"""
returned = FixMessage(*args, **kwargs)
returned.codec = codec
return returned
def fixmsg(source: str) -> FixMessage:
"""
docstring
"""
msg = FixMessage(source)
msg.codec = codec
return msg
def fixmsg(source):
"""
Factory function that forces the codec to our given spec and avoid
passing codec to serialisation and parsing methods.
The codec defaults to a reasonable parser but without repeating groups.
An alternative method is to use the ``to_wire`` and ``from_wire`` methods
to serialise and parse messages and pass the codec explicitly.
"""
# python 2 and 3 compatibility
msg = FixMessage(source)
msg.codec = CODEC
return msg
def fixmsg(*args, **kwargs):
"""Factory function. This allows us to keep the dictionary __init__
arguments unchanged and force the codec to our given spec and avoid
passing codec to serialisation and parsing methods.
The codec defaults to a reasonable parser but without repeating groups.
An alternative method is to use the ``to_wire`` and ``from_wire`` methods
to serialise and parse messages and pass the codec explicitly.
"""
returned = FixMessage(*args, **kwargs)
returned.codec = codec
return returned
def test_from_buffer(self):
"""
Tests creating a fix message via the "from_buffer" static function
"""
buff = b"9=10\x0135=D\x0134=3\x0110=154\x01"
msg = FixMessage.from_buffer(buff, Codec())
assert {9, 35, 34, 10} == set(msg.keys())
assert b'10' == msg[9]
assert b'D' == msg[35]
assert b'3' == msg[34]
assert b'154' == msg[10]
def fixmsg(source):
msg = FixMessage(source)
msg.codec = CODEC
return msg
def test_change_spec(self, spec):
spec.tags.add_tag(10001, "MyTagName")
assert spec.tags.by_tag(10001).name == "MyTagName"
assert spec.tags.by_name("MyTagName").tag == 10001
tag54 = spec.tags.by_tag(54)
tag54.add_enum_value(name="SELLF", value="SF")
assert tag54.enum_by_value("SF") == "SELLF"
assert tag54.enum_by_name("SELLF") == "SF"
with pytest.raises(TypeError):
tag54.del_enum_value()
with pytest.raises(ValueError):
tag54.del_enum_value(name="SELLF", value="STF")
with pytest.raises(KeyError):
tag54.del_enum_value(name="SELLTOOF", value="SF")
with pytest.raises(KeyError):
tag54.del_enum_value(name="SELLTOOF")
with pytest.raises(KeyError):
tag54.del_enum_value(value="STF")
tag54.del_enum_value(value="SF")
with pytest.raises(KeyError):
tag54.enum_by_name(name="SELLF")
tag54.del_enum_value(name="BUY")
with pytest.raises(KeyError):
tag54.enum_by_value(value="1")
tag54.add_enum_value(name="BUY", value="1")
assert tag54.enum_by_value("1") == "BUY"
data = (b'8=FIX.4.2|9=196|35=D|49=A|56=B|34=12|52=20100318-03:21:11.364'
b'|262=A|268=2|279=0|269=0|278=BID|55=EUR/USD|270=1.37215'
b'|15=EUR|271=2500000|346=1|279=0|269=1|278=OFFER|55=EUR/USD'
b'|270=1.37224|15=EUR|271=2503200|346=1|10=171|')
before = FixMessage()
before.codec = Codec(spec=spec)
before.load_fix(data, separator='|')
composition = [(spec.tags.by_tag(i), False) for i in (279, 269, 278, 55, 270, 15, 271, 346)]
spec.msg_types['D'].add_group(spec.tags.by_tag(268), composition)
after = FixMessage()
after.codec = Codec(spec=spec, fragment_class=FixFragment)
after.load_fix(data, separator='|')
assert isinstance(before[268], (six.binary_type, six.text_type)) # 268 is not parsed as a repeating group
assert before[270] == '1.37224' # 268 is not parsed as a repeating group, so 270 takes the second value
assert isinstance(after[268], RepeatingGroup)
with pytest.raises(KeyError):
after[270]
assert list(after.find_all(270)) == [[268, 0, 270], [268, 1, 270]]
def test_tag_tests(self):
''' test tag-related tests'''
a = FixMessage()
a.load_fix(self.fixmessage)
assert a.tag_contains(7205, 'LSE')
assert a.tag_contains(7205, 'S')
assert not a.tag_contains(7205, 'F')
assert a.tag_icontains(7205, 'lSe')
assert a.tag_icontains(7205, 'e')
assert not a.tag_icontains(7205, 'F')
assert a.tag_exact(7205, b'LSE')
assert not a.tag_exact(7205, b'LSEE')
assert a.tag_iexact(7205, b'Lse')
assert not a.tag_iexact(7205, b'LSsE')
assert a.tag_in(7205, (b'LSE', b'CHIX'))
assert not a.tag_in(7205, (b'BATE', b'CHIX'))
assert a.tag_match_regex(7205, b'[A-Z]{3}')
assert not a.tag_match_regex(7205, b'[0-9]{3}')
assert not a.tag_exact(7807, b'[0-9]{3}')
assert not a.tag_contains(7807, b'[0-9]{3}')
assert not a.tag_match_regex(7807, b'[0-9]{3}')
def test_tag_inequalities(self):
a = FixMessage()
a.load_fix(self.fixmessage)
a[31] = 1
a[32] = 2
a[3333] = 'a'
a[34] = 'b'
assert a.tag_lt(31, a[32])
assert not a.tag_gt(31, a[32])
assert a.tag_le(31, a[32])
assert not a.tag_ge(31, a[32])
assert a.tag_le(31, a[31])
assert a.tag_ge(31, a[31])
assert a.tag_lt(3333, a[34])
assert not a.tag_gt(3333, a[34])
assert a.tag_le(3333, a[34])
assert not a.tag_ge(3333, a[34])
assert a.tag_le(3333, a[3333])
assert a.tag_ge(3333, a[3333])
assert not a.tag_ge(7807, None)
assert not a.tag_ge(3333, None)
assert not a.tag_le(7807, None)
assert not a.tag_le(3333, None)
assert not a.tag_lt(7807, None)
assert not a.tag_lt(3333, None)
assert not a.tag_gt(7807, None)
assert not a.tag_gt(3333, None)
def main(spec_filename):
"""
Illustration of the usage of FixMessage.
:param spec_filename: a specification file from Quickfix.org
:type spec_filename: ``str``
"""
spec = FixSpec(spec_filename)
codec = Codec(
spec=spec, # The codec will use the given spec to find repeating groups
fragment_class=FixFragment
) # the codec will produce FixFragment objects inside repeating groups
# (default is dict). This is required for the find_all() and anywhere()
# methods to work. It would fail with AttributeError otherwise.
def fixmsg(*args, **kwargs):
"""Factory function. This allows us to keep the dictionary __init__
arguments unchanged and force the codec to our given spec and avoid
passing codec to serialisation and parsing methods.
The codec defaults to a reasonable parser but without repeating groups.
An alternative method is to use the ``to_wire`` and ``from_wire`` methods
to serialise and parse messages and pass the codec explicitly.
"""
returned = FixMessage(*args, **kwargs)
returned.codec = codec
return returned
########################
# Vanilla tag/value
#########################
data = (b'8=FIX.4.2|9=97|35=6|49=ABC|56=CAB|34=14|52=20100204-09:18:42|'
b'23=115685|28=N|55=BLAH|54=2|44=2200.75|27=S|25=H|10=248|')
msg = fixmsg().load_fix(data, separator='|')
# The message object is a dictionary, with integer keys
# and string values. No validation is performed.
# The spec contains the information, however so it can be retrieved.
print("Message Type {} ({})".format(msg[35], spec.msg_types[msg[35]].name))
print("Price {} (note type: {}, spec defined type {})".format(
msg[44], type(msg[44]),
spec.tags.by_tag(44).type))
check_tags = (55, 44)
for element, required in spec.msg_types[msg[35]].composition:
if isinstance(element, FixTag) and element.tag in check_tags:
if required:
print("{} is required on this message type".format(
element.name))
else:
print("{} is not required on this message type".format(
element.name))
print("Spec also allows looking up enums: {} is {}".format(
msg[54],
spec.tags.by_tag(54).enum_by_value(msg[54])))
# Although the values are stored as string there are rich operators provided that
# allow to somewhat abstract the types
print("exact comparison with decimal: ",
msg.tag_exact(44, decimal.Decimal("2200.75")))
print("exact comparing with int: ", msg.tag_exact(54, 2))
print("lower than with float:", msg.tag_lt(44, 2500.0))
print("greater than with float:", msg.tag_gt(23, 110000.1))
print("contains, case sensitive and insensitive",
msg.tag_contains(55, "MI"), msg.tag_icontains(55, "blah"))
# Tags manipulation is as for a dictionary
msg[56] = "ABC.1" # There is no enforcement of what tags are used for, so changing 56 is no worry for the lib
msg.update({55: 'ABC123.1', 28: 'M'})
# note regex matching
print("tag 56 changed", msg.tag_match_regex(56, r"..M\.N"))
print("Tag 55 and 28 changed to {} and {}".format(msg[55], msg[28]))
# There are additional tools for updating the messages' content though
none_or_one = randint(0, 1) or None
msg.set_or_delete(27, none_or_one)
msg.apply({25: None, 26: 2})
if none_or_one is None:
print("Got None, the tag is deleted")
assert 27 not in msg
else:
print("Got None, the tag is maintained")
assert msg[27] == 1
assert 25 not in msg
assert msg.tag_exact(26, '2')
########################
# copying messages
#########################
# Because messages maintain a reference to the codec and the spec
# a deepcopy() of messages is extremely inefficient. It is a lot faster
# to serialise-deserialise to copy a message, which is what copy() does.
# Alternatively do a shallow copy through dict constructor.
new_msg = msg.copy()
assert new_msg is not msg
msg.set_len_and_chksum()
# Note that this reverts the type of values that were set manually
assert new_msg[26] != msg[26]
print("tag 26 before {}, after {}".format(type(msg[26]),
type(new_msg[26])))
assert all(new_msg.tag_exact(t, msg[t]) for t in msg)
msg = fixmsg().load_fix(data, separator='|')
# if no types have changed, the copy() method returns a message that is identical
# to the original one
new_msg = copy(msg)
assert new_msg == msg
# note you can also use the method copy()
new_msg = msg.copy()
assert new_msg == msg
assert new_msg is not msg
# and codec is not copied
assert new_msg.codec is msg.codec
# note that msg equality is not true when using dict constructor
new_msg = FixMessage(msg)
assert new_msg != msg
# That's because codec, time, recipient and direction are not preserved
# when using this technique, only tags are
assert dict(new_msg) == dict(msg)
########################
# Repeating Groups
#########################
# Repeating groups are indexed by count tag (268 below)
# and stored as a list of FixMessages (technically FixFragments, but close enough)
data = (b'8=FIX.4.2|9=196|35=X|49=A|56=B|34=12|52=20100318-03:21:11.364'
b'|262=A|268=2|279=0|269=0|278=BID|55=EUR/USD|270=1.37215'
b'|15=EUR|271=2500000|346=1|279=0|269=1|278=OFFER|55=EUR/USD'
b'|270=1.37224|15=EUR|271=2503200|346=1|10=171|')
msg = fixmsg().load_fix(data, separator='|')
print("Message Type {} ({})".format(msg[35], spec.msg_types[msg[35]].name))
print("Repeating group {} looks like {}".format(
spec.tags.by_tag(268).name, msg[268]))
print("Accessing repeating groups at depth: tag 278 "
"in the second member of the group is '{}'".format(msg[268][1][278]))
# finding out if a tag is present can be done at depth
print(
"Utility functions like anywhere() allow you to find out "
"if a tag is present at depth, or find the path to it: {} is present : {}; "
"it can be found at the following paths {}".format(
278, msg.anywhere(278), list(msg.find_all(278))))
########################
# Customise the spec
#########################
# Sometimes it may be desirable to tweak the spec a bit, especially add a custom tag
# or a custom repeating group.
# Create tag
spec.tags.add_tag(10001, "MyTagName")
assert spec.tags.by_tag(10001).name == "MyTagName"
assert spec.tags.by_name("MyTagName").tag == 10001
# Change enum values
spec.tags.by_tag(54).add_enum_value(name="SELLFAST", value="SF")
assert spec.tags.by_tag(54).enum_by_value("SF") == "SELLFAST"
# Add repeating Group
# let's add repeating group 268 to msg type 'D'
# for illustration purposes, we'll create the group from scratch
data = (b'8=FIX.4.2|9=196|35=D|49=A|56=B|34=12|52=20100318-03:21:11.364'
b'|262=A|268=2|279=0|269=0|278=BID|55=EUR/USD|270=1.37215'
b'|15=EUR|271=2500000|346=1|279=0|269=1|278=OFFER|55=EUR/USD'
b'|270=1.37224|15=EUR|271=2503200|346=1|10=171|')
before = FixMessage()
before.codec = Codec(spec=spec)
before.load_fix(data, separator='|')
# The composition is a iterable of pairs (FixTag, bool), with the bool indicating whether
# the tag is required or not (although it's not enforced in the codec at this time
composition = [(spec.tags.by_tag(i), False)
for i in (279, 269, 278, 55, 270, 15, 271, 346)]
# add_group takes a FixTag and the composition
spec.msg_types['D'].add_group(spec.tags.by_tag(268), composition)
after = FixMessage()
after.codec = Codec(spec=spec, fragment_class=FixFragment)
after.load_fix(data, separator='|')
assert isinstance(before[268],
(str, unicode)) # 268 is not parsed as a repeating group
assert before[
270] == '1.37224' # 268 is not parsed as a repeating group, so 271 takes the second value
assert isinstance(
after[268],
RepeatingGroup) # After the change, 268 becomes a repeating group
assert list(after.find_all(270)) == [[268, 0, 270],
[268, 1,
270]] # and both 270 can be found
def fixmsg(*args, **kwargs) -> FixMessage:
"""
docstring
"""
returned = FixMessage(*args, **kwargs)
returned.codec = codec
return returned
data = (
"8=FIX.4.2, 9=97, 35=6, 45=6, 49=ABC, 56=CAB, 34=14, 52=20201130-10:27:30"
"23=115685,28=N,55=BLAH,54=2,44=2200.75,27=S,25=H,10=248")
fixMsg = FixMessage().load_fix(data, separator=",")
message = fixmsg().load_fix(data, separator=",")
message.codec = codec
print("Message Type {} ({})".format(fixMsg[35],
spec.msg_types[fixMsg[35]].name))
check_tags = (55, 44, 27)
for element, required in spec.msg_types[fixMsg[35]].composition:
if isinstance(element, FixTag) and element.tag in check_tags:
if required:
print("{} is required on this message type".format(element.name))
else:
print("{} is not required on this message type".format(
element.name))
print("Spec also allows looking up enums: {} is {}".format(
