import copy
from typing import Any, Dict, List, Optional, Union
from ldclient.versioned_data_kind import FEATURES
from ldclient.rwlock import ReadWriteLock
from ldclient.impl.integrations.test_data.test_data_source import _TestDataSource
TRUE_VARIATION_INDEX = 0
FALSE_VARIATION_INDEX = 1
def _variation_for_boolean(variation):
if variation:
return TRUE_VARIATION_INDEX
else:
return FALSE_VARIATION_INDEX
[docs]class TestData():
"""A mechanism for providing dynamically updatable feature flag state in a
simplified form to an SDK client in test scenarios.
Unlike ``Files``, this mechanism does not use any external resources. It provides only
the data that the application has put into it using the ``update`` method.
::
td = TestData.data_source()
td.update(td.flag('flag-key-1').variation_for_all_users(True))
client = LDClient(config=Config('SDK_KEY', update_processor_class = td))
# flags can be updated at any time:
td.update(td.flag('flag-key-1'). \\
variation_for_user('some-user-key', True). \\
fallthrough_variation(False))
The above example uses a simple boolean flag, but more complex configurations are possible using
the methods of the ``FlagBuilder`` that is returned by ``flag``. ``FlagBuilder``
supports many of the ways a flag can be configured on the LaunchDarkly dashboard, but does not
currently support 1. rule operators other than "in" and "not in", or 2. percentage rollouts.
If the same `TestData` instance is used to configure multiple `LDClient` instances,
any changes made to the data will propagate to all of the `LDClient` instances.
"""
# Prevent pytest from treating this as a test class
__test__ = False
[docs] def __init__(self):
self._flag_builders = {}
self._current_flags = {}
self._lock = ReadWriteLock()
self._instances = []
def __call__(self, config, store, ready):
data_source = _TestDataSource(store, self, ready)
try:
self._lock.lock()
self._instances.append(data_source)
finally:
self._lock.unlock()
return data_source
[docs] @staticmethod
def data_source() -> 'TestData':
"""Creates a new instance of the test data source.
:return: a new configurable test data source
"""
return TestData()
[docs] def flag(self, key: str) -> 'FlagBuilder':
"""Creates or copies a ``FlagBuilder`` for building a test flag configuration.
If this flag key has already been defined in this ``TestData`` instance, then the builder
starts with the same configuration that was last provided for this flag.
Otherwise, it starts with a new default configuration in which the flag has ``True`` and
``False`` variations, is ``True`` for all users when targeting is turned on and
``False`` otherwise, and currently has targeting turned on. You can change any of those
properties, and provide more complex behavior, using the ``FlagBuilder`` methods.
Once you have set the desired configuration, pass the builder to ``update``.
:param str key: the flag key
:return: the flag configuration builder object
"""
try:
self._lock.rlock()
if key in self._flag_builders and self._flag_builders[key]:
return self._flag_builders[key]._copy()
else:
return FlagBuilder(key).boolean_flag()
finally:
self._lock.runlock()
[docs] def update(self, flag_builder: 'FlagBuilder') -> 'TestData':
"""Updates the test data with the specified flag configuration.
This has the same effect as if a flag were added or modified on the LaunchDarkly dashboard.
It immediately propagates the flag change to any ``LDClient`` instance(s) that you have
already configured to use this ``TestData``. If no ``LDClient`` has been started yet,
it simply adds this flag to the test data which will be provided to any ``LDClient`` that
you subsequently configure.
Any subsequent changes to this ``FlagBuilder`` instance do not affect the test data,
unless you call ``update`` again.
:param flag_builder: a flag configuration builder
:return: self (the TestData object)
"""
try:
self._lock.lock()
old_version = 0
if flag_builder._key in self._current_flags:
old_flag = self._current_flags[flag_builder._key]
if old_flag:
old_version = old_flag['version']
new_flag = flag_builder._build(old_version + 1)
self._current_flags[flag_builder._key] = new_flag
self._flag_builders[flag_builder._key] = flag_builder._copy()
finally:
self._lock.unlock()
for instance in self._instances:
instance.upsert(new_flag)
return self
def _make_init_data(self) -> dict:
return { FEATURES: copy.copy(self._current_flags) }
def _closed_instance(self, instance):
try:
self._lock.lock()
self._instances.remove(instance)
finally:
self._lock.unlock()
[docs]class FlagBuilder():
"""A builder for feature flag configurations to be used with :class:`ldclient.integrations.test_data.TestData`.
:see: :meth:`ldclient.integrations.test_data.TestData.flag()`
:see: :meth:`ldclient.integrations.test_data.TestData.update()`
"""
[docs] def __init__(self, key: str):
""":param str key: The name of the flag
"""
self._key = key
self._on = True
self._variations = [] # type: List[Any]
self._off_variation = None # type: Optional[int]
self._fallthrough_variation = None # type: Optional[int]
self._targets = {} # type: Dict[int, List[str]]
self._rules = [] # type: List[FlagRuleBuilder]
# Note that _copy is private by convention, because we don't want developers to
# consider it part of the public API, but it is still called from TestData.
def _copy(self) -> 'FlagBuilder':
"""Creates a deep copy of the flag builder. Subsequent updates to the
original ``FlagBuilder`` object will not update the copy and vise versa.
:return: a copy of the flag builder object
"""
to = FlagBuilder(self._key)
to._on = self._on
to._variations = copy.copy(self._variations)
to._off_variation = self._off_variation
to._fallthrough_variation = self._fallthrough_variation
to._targets = copy.copy(self._targets)
to._rules = copy.copy(self._rules)
return to
[docs] def on(self, on: bool) -> 'FlagBuilder':
"""Sets targeting to be on or off for this flag.
The effect of this depends on the rest of the flag configuration, just as it does on the
real LaunchDarkly dashboard. In the default configuration that you get from calling
:meth:`ldclient.integrations.test_data.TestData.flag()` with a new flag key,
the flag will return ``False`` whenever targeting is off, and ``True`` when
targeting is on.
:param on: ``True`` if targeting should be on
:return: the flag builder
"""
self._on = on
return self
[docs] def fallthrough_variation(self, variation: Union[bool, int]) -> 'FlagBuilder':
"""Specifies the fallthrough variation. The fallthrough is the value
that is returned if targeting is on and the user was not matched by a more specific
target or rule.
If the flag was previously configured with other variations and the variation
specified is a boolean, this also changes it to a boolean flag.
:param bool|int variation: ``True`` or ``False`` or the desired fallthrough variation index:
``0`` for the first, ``1`` for the second, etc.
:return: the flag builder
"""
if isinstance(variation, bool):
self.boolean_flag()._fallthrough_variation = _variation_for_boolean(variation)
return self
else:
self._fallthrough_variation = variation
return self
[docs] def off_variation(self, variation: Union[bool, int]) -> 'FlagBuilder' :
"""Specifies the fallthrough variation. This is the variation that is returned
whenever targeting is off.
If the flag was previously configured with other variations and the variation
specified is a boolean, this also changes it to a boolean flag.
:param bool|int variation: ``True`` or ``False`` or the desired off variation index:
``0`` for the first, ``1`` for the second, etc.
:return: the flag builder
"""
if isinstance(variation, bool):
self.boolean_flag()._off_variation = _variation_for_boolean(variation)
return self
else:
self._off_variation = variation
return self
[docs] def boolean_flag(self) -> 'FlagBuilder':
"""A shortcut for setting the flag to use the standard boolean configuration.
This is the default for all new flags created with
:meth:`ldclient.integrations.test_data.TestData.flag()`.
The flag will have two variations, ``True`` and ``False`` (in that order);
it will return ``False`` whenever targeting is off, and ``True`` when targeting is on
if no other settings specify otherwise.
:return: the flag builder
"""
if self._is_boolean_flag():
return self
else:
return (self.variations(True, False)
.fallthrough_variation(TRUE_VARIATION_INDEX)
.off_variation(FALSE_VARIATION_INDEX))
def _is_boolean_flag(self):
return (len(self._variations) == 2
and self._variations[TRUE_VARIATION_INDEX] == True
and self._variations[FALSE_VARIATION_INDEX] == False)
[docs] def variations(self, *variations) -> 'FlagBuilder':
"""Changes the allowable variation values for the flag.
The value may be of any valid JSON type. For instance, a boolean flag
normally has ``True, False``; a string-valued flag might have
``'red', 'green'``; etc.
**Example:** A single variation
::
td.flag('new-flag').variations(True)
**Example:** Multiple variations
::
td.flag('new-flag').variations('red', 'green', 'blue')
:param variations: the the desired variations
:return: the flag builder
"""
self._variations = list(variations)
return self
[docs] def variation_for_all_users(self, variation: Union[bool, int]) -> 'FlagBuilder':
"""Sets the flag to always return the specified variation for all users.
The variation is specified, Targeting is switched on, and any existing targets or rules are removed.
The fallthrough variation is set to the specified value. The off variation is left unchanged.
If the flag was previously configured with other variations and the variation specified is a boolean,
this also changes it to a boolean flag.
:param bool|int variation: ``True`` or ``False`` or the desired variation index to return:
``0`` for the first, ``1`` for the second, etc.
:return: the flag builder
"""
if isinstance(variation, bool):
return self.boolean_flag().variation_for_all_users(_variation_for_boolean(variation))
else:
return self.clear_rules().clear_targets().on(True).fallthrough_variation(variation)
[docs] def value_for_all_users(self, value: Any) -> 'FlagBuilder':
"""
Sets the flag to always return the specified variation value for all users.
The value may be of any JSON type. This method changes the flag to have only
a single variation, which is this value, and to return the same variation
regardless of whether targeting is on or off. Any existing targets or rules
are removed.
:param value the desired value to be returned for all users
:return the flag builder
"""
return self.variations(value).variation_for_all_users(0)
[docs] def variation_for_user(self, user_key: str, variation: Union[bool, int]) -> 'FlagBuilder':
"""Sets the flag to return the specified variation for a specific user key when targeting
is on.
This has no effect when targeting is turned off for the flag.
If the flag was previously configured with other variations and the variation specified is a boolean,
this also changes it to a boolean flag.
:param user_key: a user key
:param bool|int variation: ``True`` or ``False`` or the desired variation index to return:
``0`` for the first, ``1`` for the second, etc.
:return: the flag builder
"""
if isinstance(variation, bool):
# `variation` is True/False value
return self.boolean_flag().variation_for_user(user_key, _variation_for_boolean(variation))
else:
# `variation` specifies the index of the variation to set
targets = self._targets
for idx, var in enumerate(self._variations):
if (idx == variation):
# If there is no set at the current variation, set it to be empty
target_for_variation = [] # type: List[str]
if idx in targets:
target_for_variation = targets[idx]
# If user is not in the current variation set, add them
if user_key not in target_for_variation:
target_for_variation.append(user_key)
self._targets[idx] = target_for_variation
else:
# Remove user from the other variation set if necessary
if idx in targets:
target_for_variation = targets[idx]
if user_key in target_for_variation:
user_key_idx = target_for_variation.index(user_key)
del target_for_variation[user_key_idx]
self._targets[idx] = target_for_variation
return self
def _add_rule(self, flag_rule_builder: 'FlagRuleBuilder'):
self._rules.append(flag_rule_builder)
[docs] def if_match(self, attribute: str, *values) -> 'FlagRuleBuilder':
"""Starts defining a flag rule, using the "is one of" operator.
**Example:** create a rule that returns ``True`` if the name is "Patsy" or "Edina"
::
td.flag("flag") \\
.if_match('name', 'Patsy', 'Edina') \\
.then_return(True)
:param attribute: the user attribute to match against
:param values: values to compare to
:return: the flag rule builder
"""
flag_rule_builder = FlagRuleBuilder(self)
return flag_rule_builder.and_match(attribute, *values)
[docs] def if_not_match(self, attribute: str, *values) -> 'FlagRuleBuilder':
"""Starts defining a flag rule, using the "is not one of" operator.
**Example:** create a rule that returns ``True`` if the name is neither "Saffron" nor "Bubble"
::
td.flag("flag") \\
.if_not_match('name', 'Saffron', 'Bubble') \\
.then_return(True)
:param attribute: the user attribute to match against
:param values: values to compare to
:return: the flag rule builder
"""
flag_rule_builder = FlagRuleBuilder(self)
return flag_rule_builder.and_not_match(attribute, values)
[docs] def clear_rules(self) -> 'FlagBuilder':
"""Removes any existing rules from the flag.
This undoes the effect of methods like
:meth:`ldclient.integrations.test_data.FlagBuilder.if_match()`
:return: the same flag builder
"""
self._rules = []
return self
[docs] def clear_targets(self) -> 'FlagBuilder':
"""Removes any existing targets from the flag.
This undoes the effect of methods like
:meth:`ldclient.integrations.test_data.FlagBuilder.variation_for_user()`
:return: the same flag builder
"""
self._targets = {}
return self
# Note that _build is private by convention, because we don't want developers to
# consider it part of the public API, but it is still called from TestData.
def _build(self, version: int) -> dict:
"""Creates a dictionary representation of the flag
:param version: the version number of the rule
:return: the dictionary representation of the flag
"""
base_flag_object = {
'key': self._key,
'version': version,
'on': self._on,
'variations': self._variations
}
base_flag_object['offVariation'] = self._off_variation
base_flag_object['fallthrough'] = {
'variation': self._fallthrough_variation
}
targets = []
for var_index, user_keys in self._targets.items():
targets.append({
'variation': var_index,
'values': user_keys
})
base_flag_object['targets'] = targets
rules = []
for idx, rule in enumerate(self._rules):
rules.append(rule._build(str(idx)))
base_flag_object['rules'] = rules
return base_flag_object
[docs]class FlagRuleBuilder():
"""
A builder for feature flag rules to be used with :class:`ldclient.integrations.test_data.FlagBuilder`.
In the LaunchDarkly model, a flag can have any number of rules, and a rule can have any number of
clauses. A clause is an individual test such as "name is 'X'". A rule matches a user if all of the
rule's clauses match the user.
To start defining a rule, use one of the flag builder's matching methods such as
:meth:`ldclient.integrations.test_data.FlagBuilder.if_match()`.
This defines the first clause for the rule. Optionally, you may add more
clauses with the rule builder's methods such as
:meth:`ldclient.integrations.test_data.FlagRuleBuilder.and_match()` or
:meth:`ldclient.integrations.test_data.FlagRuleBuilder.and_not_match()`.
Finally, call :meth:`ldclient.integrations.test_data.FlagRuleBuilder.then_return()`
to finish defining the rule.
"""
[docs] def __init__(self, flag_builder: FlagBuilder):
self._flag_builder = flag_builder
self._clauses = [] # type: List[dict]
self._variation = None # type: Optional[int]
[docs] def and_match(self, attribute: str, *values) -> 'FlagRuleBuilder':
"""Adds another clause, using the "is one of" operator.
**Example:** create a rule that returns ``True`` if the name is "Patsy" and the country is "gb"
::
td.flag('flag') \\
.if_match('name', 'Patsy') \\
.and_match('country', 'gb') \\
.then_return(True)
:param attribute: the user attribute to match against
:param values: values to compare to
:return: the flag rule builder
"""
self._clauses.append({
'attribute': attribute,
'op': 'in',
'values': list(values),
'negate': False
})
return self
[docs] def and_not_match(self, attribute: str, *values) -> 'FlagRuleBuilder':
"""Adds another clause, using the "is not one of" operator.
**Example:** create a rule that returns ``True`` if the name is "Patsy" and the country is not "gb"
::
td.flag('flag') \\
.if_match('name', 'Patsy') \\
.and_not_match('country', 'gb') \\
.then_return(True)
:param attribute: the user attribute to match against
:param values: values to compare to
:return: the flag rule builder
"""
self._clauses.append({
'attribute': attribute,
'op': 'in',
'values': list(values),
'negate': True
})
return self
[docs] def then_return(self, variation: Union[bool, int]) -> 'FlagBuilder':
"""Finishes defining the rule, specifying the result as either a boolean
or a variation index.
If the flag was previously configured with other variations and the variation specified is a boolean,
this also changes it to a boolean flag.
:param bool|int variation: ``True`` or ``False`` or the desired variation index:
``0`` for the first, ``1`` for the second, etc.
:return: the flag builder with this rule added
"""
if isinstance(variation, bool):
self._flag_builder.boolean_flag()
return self.then_return(_variation_for_boolean(variation))
else:
self._variation = variation
self._flag_builder._add_rule(self)
return self._flag_builder
# Note that _build is private by convention, because we don't want developers to
# consider it part of the public API, but it is still called from FlagBuilder.
def _build(self, id: str) -> dict:
"""Creates a dictionary representation of the rule
:param id: the rule id
:return: the dictionary representation of the rule
"""
return {
'id': 'rule' + id,
'variation': self._variation,
'clauses': self._clauses
}