2022-12-01 23:43:01 +01:00
40 changed files with 578 additions and 1146 deletions
--- a/src/cpl_query/base/default_lambda.py
+++ b/src/cpl_query/base/default_lambda.py
@ -0,0 +1,2 @@
 def default_lambda(x: object):
    return x
--- a/src/cpl_query/base/ordered_queryable.py
+++ b/src/cpl_query/base/ordered_queryable.py
@ -0,0 +1,34 @@
 from collections.abc import Callable
 from cpl_query.base.ordered_queryable_abc import OrderedQueryableABC
 from cpl_query.exceptions import ArgumentNoneException, ExceptionArgument
 from cpl_query.iterable.iterable import Iterable
 class OrderedQueryable(OrderedQueryableABC):
    r"""Implementation of :class: `cpl_query.extension.Iterable` `cpl_query.extension.OrderedIterableABC`
    """
    def __init__(self, _t: type, _values: Iterable = None, _func: Callable = None):
        OrderedQueryableABC.__init__(self, _t, _values, _func)
    def then_by(self: OrderedQueryableABC, _func: Callable) -> OrderedQueryableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedQueryable(self.type, sorted(self, key=lambda *args: [f(*args) for f in self._funcs]), _func)
    def then_by_descending(self: OrderedQueryableABC, _func: Callable) -> OrderedQueryableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedQueryable(self.type, sorted(self, key=lambda *args: [f(*args) for f in self._funcs], reverse=True), _func)
--- a/src/cpl_query/iterable/ordered_iterable_abc.py
+++ b/src/cpl_query/iterable/ordered_iterable_abc.py
@ -2,20 +2,20 @@ from abc import abstractmethod
 from collections.abc import Callable
 from typing import Iterable
-from cpl_query.iterable.iterable_abc import IterableABC
+from cpl_query.base.queryable_abc import QueryableABC
-class OrderedIterableABC(IterableABC):
+class OrderedQueryableABC(QueryableABC):
    @abstractmethod
-    def __init__(self, _t: type, _func: Callable = None, _values: Iterable = None):
+    def __init__(self, _t: type, _values: Iterable = None, _func: Callable = None):
-        IterableABC.__init__(self, _t, _values)
+        QueryableABC.__init__(self, _t, _values)
        self._funcs: list[Callable] = []
        if _func is not None:
            self._funcs.append(_func)
    @abstractmethod
-    def then_by(self, func: Callable) -> 'OrderedIterableABC':
+    def then_by(self, func: Callable) -> 'OrderedQueryableABC':
        r"""Sorts OrderedList in ascending order by function
        Parameter
@ -29,7 +29,7 @@ class OrderedIterableABC(IterableABC):
        pass
    @abstractmethod
-    def then_by_descending(self, func: Callable) -> 'OrderedIterableABC':
+    def then_by_descending(self, func: Callable) -> 'OrderedQueryableABC':
        r"""Sorts OrderedList in descending order by function
        Parameter
--- a/src/cpl_query/base/queryable_abc.py
+++ b/src/cpl_query/base/queryable_abc.py
@ -1,10 +1,19 @@
 from abc import abstractmethod, ABC
 from typing import Optional, Callable, Union
 from cpl_query._helper import is_number
 from cpl_query.base.sequence_abc import SequenceABC
 from cpl_query.exceptions import InvalidTypeException, ArgumentNoneException, ExceptionArgument, IndexOutOfRangeException
 class QueryableABC(ABC):
-    @abstractmethod
+def _default_lambda(x: object):
    return x
 class QueryableABC(SequenceABC):
    def __init__(self, t: type = None, values: list = None):
        SequenceABC.__init__(self, t, values)
    def all(self, _func: Callable = None) -> bool:
        r"""Checks if every element of list equals result found by function
@ -17,9 +26,11 @@ class QueryableABC(ABC):
        -------
            bool
        """
-        pass
+        if _func is None:
            _func = _default_lambda
        return self.count(_func) == self.count()
    @abstractmethod
    def any(self, _func: Callable = None) -> bool:
        r"""Checks if list contains result found by function
@ -32,9 +43,11 @@ class QueryableABC(ABC):
        -------
            bool
        """
-        pass
+        if _func is None:
            _func = _default_lambda
        return self.where(_func).count() > 0
    @abstractmethod
    def average(self, _func: Callable = None) -> Union[int, float, complex]:
        r"""Returns average value of list
@ -47,10 +60,12 @@ class QueryableABC(ABC):
        -------
            Union[int, float, complex]
        """
-        pass
+        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
-    @abstractmethod
+        return self.sum(_func) / self.count()
-    def contains(self, value: object) -> bool:
+
    def contains(self, _value: object) -> bool:
        r"""Checks if list contains value given by function
        Parameter
@ -62,9 +77,11 @@ class QueryableABC(ABC):
        -------
            bool
        """
-        pass
+        if _value is None:
            raise ArgumentNoneException(ExceptionArgument.value)
        return self.where(lambda x: x == _value).count() > 0
    @abstractmethod
    def count(self, _func: Callable = None) -> int:
        r"""Returns length of list or count of found elements
@ -77,9 +94,11 @@ class QueryableABC(ABC):
        -------
            int
        """
-        pass
+        if _func is None:
            return self.__len__()
        return self.where(_func).__len__()
    @abstractmethod
    def distinct(self, _func: Callable = None) -> 'QueryableABC':
        r"""Returns list without redundancies
@ -92,39 +111,62 @@ class QueryableABC(ABC):
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _func is None:
            _func = _default_lambda
-    @abstractmethod
+        result = []
-    def element_at(self, index: int) -> any:
+        known_values = []
        for element in self:
            value = _func(element)
            if value in known_values:
                continue
            known_values.append(value)
            result.append(element)
        return type(self)(self._type, result)
    def element_at(self, _index: int) -> any:
        r"""Returns element at given index
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
-            Value at index: any
+            Value at _index: any
        """
-        pass
+        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
-    @abstractmethod
+        result = self[_index]
-    def element_at_or_default(self, index: int) -> Optional[any]:
+        if result is None:
            raise IndexOutOfRangeException
        return result
    def element_at_or_default(self, _index: int) -> Optional[any]:
        r"""Returns element at given index or None
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
-            Value at index: Optional[any]
+            Value at _index: Optional[any]
        """
-        pass
+        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        try:
            return self[_index]
        except IndexError:
            return None
    @abstractmethod
    def first(self) -> any:
        r"""Returns first element
@ -132,9 +174,11 @@ class QueryableABC(ABC):
        -------
            First element of list: any
        """
-        pass
+        if len(self) == 0:
            raise IndexOutOfRangeException()
        return self[0]
    @abstractmethod
    def first_or_default(self) -> any:
        r"""Returns first element or None
@ -142,9 +186,11 @@ class QueryableABC(ABC):
        -------
            First element of list: Optional[any]
        """
-        pass
+        if len(self) == 0:
            return None
        return self[0]
    @abstractmethod
    def for_each(self, _func: Callable = None):
        r"""Runs given function for each element of list
@ -153,9 +199,36 @@ class QueryableABC(ABC):
            func: :class: `Callable`
                function to call
        """
-        pass
+        if _func is not None:
            for element in self:
                _func(element)
        return self
    def group_by(self, _func: Callable = None) -> 'QueryableABC':
        r"""Groups by func
        Returns
        -------
            Grouped list[list[any]]: any
        """
        if _func is None:
            _func = _default_lambda
        groups = {}
        for v in self:
            value = _func(v)
            if v not in groups:
                groups[value] = []
            groups[value].append(v)
        v = []
        for g in groups.values():
            v.append(type(self)(None, g))
        x = type(self)(type(self), v)
        return x
    @abstractmethod
    def last(self) -> any:
        r"""Returns last element
@ -163,9 +236,11 @@ class QueryableABC(ABC):
        -------
            Last element of list: any
        """
-        pass
+        if len(self) == 0:
            raise IndexOutOfRangeException()
        return self[len(self) - 1]
    @abstractmethod
    def last_or_default(self) -> any:
        r"""Returns last element or None
@ -173,9 +248,11 @@ class QueryableABC(ABC):
        -------
            Last element of list: Optional[any]
        """
-        pass
+        if len(self) == 0:
            return None
        return self[len(self) - 1]
    @abstractmethod
    def max(self, _func: Callable = None) -> Union[int, float, complex]:
        r"""Returns the highest value
@ -188,19 +265,33 @@ class QueryableABC(ABC):
        -------
            Union[int, float, complex]
        """
-        pass
+        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
-    @abstractmethod
+        if _func is None:
-    def median(self) -> Union[int, float]:
+            _func = _default_lambda
        return _func(max(self, key=_func))
    def median(self, _func=None) -> Union[int, float]:
        r"""Return the median value of data elements
        Returns
        -------
            Union[int, float]
        """
-        pass
+        if _func is None:
            _func = _default_lambda
        result = self.order_by(_func).select(_func).to_list()
        length = len(result)
        i = int(length / 2)
        return (
            result[i]
            if length % 2 == 1
            else (float(result[i - 1]) + float(result[i])) / float(2)
        )
    @abstractmethod
    def min(self, _func: Callable = None) -> Union[int, float, complex]:
        r"""Returns the lowest value
@ -213,9 +304,14 @@ class QueryableABC(ABC):
        -------
            Union[int, float, complex]
        """
-        pass
+        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return _func(min(self, key=_func))
    @abstractmethod
    def order_by(self, _func: Callable = None) -> 'QueryableABC':
        r"""Sorts elements by function in ascending order
@ -228,9 +324,12 @@ class QueryableABC(ABC):
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _func is None:
            _func = _default_lambda
        from cpl_query.base.ordered_queryable import OrderedQueryable
        return OrderedQueryable(self.type, sorted(self, key=_func), _func)
    @abstractmethod
    def order_by_descending(self, _func: Callable = None) -> 'QueryableABC':
        r"""Sorts elements by function in descending order
@ -243,9 +342,12 @@ class QueryableABC(ABC):
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _func is None:
            _func = _default_lambda
        from cpl_query.base.ordered_queryable import OrderedQueryable
        return OrderedQueryable(self.type, sorted(self, key=_func, reverse=True), _func)
    @abstractmethod
    def reverse(self) -> 'QueryableABC':
        r"""Reverses list
@ -253,29 +355,31 @@ class QueryableABC(ABC):
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        return type(self)(self._type, list(reversed(self)))
-    @abstractmethod
+    def select(self, _func: Callable) -> 'QueryableABC':
    def select(self, _f: Callable) -> 'QueryableABC':
        r"""Formats each element of list to a given format
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _func is None:
            _func = _default_lambda
-    @abstractmethod
+        return type(self)(any, [_func(_o) for _o in self])
-    def select_many(self, _f: Callable) -> 'QueryableABC':
+
    def select_many(self, _func: Callable) -> 'QueryableABC':
        r"""Flattens resulting lists to one
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        # The line below is pain. I don't understand anything of it...
        # written on 09.11.2022 by Sven Heidemann
        return type(self)(any, [_a for _o in self for _a in _func(_o)])
    @abstractmethod
    def single(self) -> any:
        r"""Returns one single element of list
@ -288,9 +392,13 @@ class QueryableABC(ABC):
            ArgumentNoneException: when argument is None
            Exception: when argument is None or found more than one element
        """
-        pass
+        if len(self) > 1:
            raise Exception('Found more than one element')
        elif len(self) == 0:
            raise Exception('Found no element')
        return self[0]
    @abstractmethod
    def single_or_default(self) -> Optional[any]:
        r"""Returns one single element of list
@ -298,39 +406,48 @@ class QueryableABC(ABC):
        -------
            Found value: Optional[any]
        """
-        pass
+        if len(self) > 1:
            raise Exception('Index out of range')
        elif len(self) == 0:
            return None
-    @abstractmethod
+        return self[0]
-    def skip(self, index: int) -> 'QueryableABC':
+
    def skip(self, _index: int) -> 'QueryableABC':
        r"""Skips all elements from index
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
-    @abstractmethod
+        return type(self)(self.type, values=self[_index:])
-    def skip_last(self, index: int) -> 'QueryableABC':
+
    def skip_last(self, _index: int) -> 'QueryableABC':
        r"""Skips all elements after index
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        index = len(self) - _index
        return type(self)(self._type, self[:index])
    @abstractmethod
    def sum(self, _func: Callable = None) -> Union[int, float, complex]:
        r"""Sum of all values
@ -343,39 +460,54 @@ class QueryableABC(ABC):
        -------
            Union[int, float, complex]
        """
-        pass
+        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
-    @abstractmethod
+        if _func is None:
-    def take(self, index: int) -> 'QueryableABC':
+            _func = _default_lambda
        result = 0
        for x in self:
            result += _func(x)
        return result
    def take(self, _index: int) -> 'QueryableABC':
        r"""Takes all elements from index
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
-    @abstractmethod
+        return type(self)(self._type, self[:_index])
-    def take_last(self, index: int) -> 'QueryableABC':
+
    def take_last(self, _index: int) -> 'QueryableABC':
        r"""Takes all elements after index
        Parameter
        ---------
-            index: :class:`int`
+            _index: :class:`int`
                index
        Returns
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        index = len(self) - _index
        if index >= len(self) or index < 0:
            raise IndexOutOfRangeException()
        return type(self)(self._type, self[index:])
    @abstractmethod
    def where(self, _func: Callable = None) -> 'QueryableABC':
        r"""Select element by function
@ -388,4 +520,15 @@ class QueryableABC(ABC):
        -------
            :class: `cpl_query.base.queryable_abc.QueryableABC`
        """
-        pass
+        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        if _func is None:
            _func = _default_lambda
        result = []
        for element in self:
            if _func(element):
                result.append(element)
        return type(self)(self.type, result)
--- a/src/cpl_query/base/sequence_abc.py
+++ b/src/cpl_query/base/sequence_abc.py
@ -0,0 +1,86 @@
 from abc import ABC, abstractmethod
 from itertools import islice
 from cpl_query.base.sequence_values import SequenceValues
 class SequenceABC(ABC):
    @abstractmethod
    def __init__(self, t: type = None, values: list = None):
        ABC.__init__(self)
        if values is None:
            values = []
        if t is None and len(values) > 0:
            t = type(values[0])
        if t is None:
            t = any
        self._type = t
        self._set_values(values)
    def __len__(self):
        return len(self._values)
    def __iter__(self):
        return iter(self._values)
    def next(self):
        return next(self._values)
    def __next__(self):
        return self.next()
    def __getitem__(self, n):
        values = [x for x in self]
        if isinstance(n, slice):
            try:
                return values[n]
            except Exception as e:
                raise e
        for i in range(len(values)):
            if i == n:
                return values[i]
    def __repr__(self):
        return f'<{type(self).__name__} {list(self).__repr__()}>'
    @property
    def type(self) -> type:
        return self._type
    def _check_type(self, __object: any):
        if self._type == any:
            return
        if self._type is not None and type(__object) != self._type and not isinstance(type(__object), self._type) and not issubclass(type(__object), self._type):
            raise Exception(f'Unexpected type: {type(__object)}\nExpected type: {self._type}')
    def _set_values(self, values: list):
        self._values = SequenceValues(values, self._type)
    def to_list(self) -> list:
        r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
        Returns
        -------
            :class: `list`
        """
        return [x for x in self]
    @classmethod
    def empty(cls) -> 'SequenceABC':
        r"""Returns an empty sequence
        Returns
        -------
            Sequence object that contains no elements
        """
        return cls()
    @classmethod
    def range(cls, start: int, length: int) -> 'SequenceABC':
        return cls(int, list(range(start, length)))
--- a/src/cpl_query/base/sequence_values.py
+++ b/src/cpl_query/base/sequence_values.py
@ -5,15 +5,13 @@ from cpl_query.exceptions import IndexOutOfRangeException
 class SequenceValues:
-    def __init__(self, data, _t: type):
+    def __init__(self, data: list, _t: type):
        if data is None:
            data = []
        if len(data) > 0:
            def type_check(_t: type, _l: list):
-                return all(isinstance(x, _t) for x in _l)
+                return all([_t == any or isinstance(x, _t) for x in _l])
            if not type_check(_t, data):
                print([type(x) for x in data])
                raise Exception(f'Unexpected type\nExpected type: {_t}')
        if not hasattr(data, '__iter__'):
@ -30,7 +28,7 @@ class SequenceValues:
    def __iter__(self):
        i = 0
-        while i < len(self):
+        while i < self._len():
            yield next(self._cycle)
            i += 1
--- a/src/cpl_query/enumerable/init.py
+++ b/src/cpl_query/enumerable/init.py
@ -19,12 +19,9 @@ __version__ = '2022.10.0.post2'
 from collections import namedtuple
 # imports:
 from .enumerable import Enumerable
 from .enumerable_abc import EnumerableABC
 from .ordered_enumerable import OrderedEnumerable
 from .ordered_enumerable_abc import OrderedEnumerableABC
 VersionInfo = namedtuple('VersionInfo', 'major minor micro')
 version_info = VersionInfo(major='2022', minor='10', micro='0.post2')
--- a/src/cpl_query/enumerable/enumerable.py
+++ b/src/cpl_query/enumerable/enumerable.py
@ -1,9 +1,4 @@
 from typing import Union, Callable, Optional
 from cpl_query._helper import is_number
 from cpl_query.enumerable.enumerable_abc import EnumerableABC
 from cpl_query.enumerable.ordered_enumerable_abc import OrderedEnumerableABC
 from cpl_query.exceptions import ArgumentNoneException, ExceptionArgument, InvalidTypeException, IndexOutOfRangeException
 def _default_lambda(x: object):
@ -14,294 +9,5 @@ class Enumerable(EnumerableABC):
    r"""Implementation of :class: `cpl_query.enumerable.enumerable_abc.EnumerableABC`
    """
-    def __init__(self, t: type = None, values: Union[list, iter] = None):
+    def __init__(self, t: type = None, values: list = None):
        EnumerableABC.__init__(self, t, values)
    def all(self, _func: Callable = None) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = self.where(_func)
        return len(result) == len(self)
    def any(self, _func: Callable = None) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = self.where(_func)
        return len(result) > 0
    def average(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return float(self.sum(_func)) / float(self.count())
    def contains(self, _value: object) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _value is None:
            raise ArgumentNoneException(ExceptionArgument.value)
        return self.where(lambda x: x == _value).count() > 0
    def count(self, _func: Callable = None) -> int:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            return len(self)
        return len(self.where(_func))
    def distinct(self, _func: Callable = None) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = Enumerable()
        known_values = []
        for element in self:
            value = _func(element)
            if value in known_values:
                continue
            known_values.append(value)
            result.add(element)
        return result
    def element_at(self, _index: int) -> any:
        self._values.reset()
        while _index >= 0:
            current = self.next()
            if _index == 0:
                return current
            _index -= 1
    def element_at_or_default(self, _index: int) -> any:
        try:
            return self.element_at(_index)
        except IndexOutOfRangeException:
            return None
    @staticmethod
    def empty() -> 'EnumerableABC':
        r"""Returns an empty enumerable
        Returns
        -------
            Enumerable object that contains no elements
        """
        return Enumerable()
    def first(self: EnumerableABC, _func=None) -> any:
        if _func is not None:
            return self.where(_func).element_at(0)
        return self.element_at(0)
    def first_or_default(self: EnumerableABC, _func=None) -> Optional[any]:
        if _func is not None:
            return self.where(_func).element_at_or_default(0)
        return self.element_at_or_default(0)
    def for_each(self, _func: Callable = None):
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        for element in self:
            _func(element)
    def last(self: EnumerableABC) -> any:
        return self.element_at(self.count() - 1)
    def last_or_default(self: EnumerableABC) -> Optional[any]:
        return self.element_at_or_default(self.count() - 1)
    def max(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return _func(max(self, key=_func))
    def median(self, _func=None) -> Union[int, float]:
        if _func is None:
            _func = _default_lambda
        result = self.order_by(_func).select(_func).to_list()
        length = len(result)
        i = int(length / 2)
        return (
            result[i]
            if length % 2 == 1
            else (float(result[i - 1]) + float(result[i])) / float(2)
        )
    def min(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return _func(min(self, key=_func))
    def order_by(self, _func: Callable = None) -> OrderedEnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        from cpl_query.enumerable.ordered_enumerable import OrderedEnumerable
        return OrderedEnumerable(self.type, _func, sorted(self, key=_func))
    def order_by_descending(self, _func: Callable = None) -> OrderedEnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        from cpl_query.enumerable.ordered_enumerable import OrderedEnumerable
        return OrderedEnumerable(self.type, _func, sorted(self, key=_func, reverse=True))
    @staticmethod
    def range(start: int, length: int) -> 'EnumerableABC':
        return Enumerable(int, range(start, length))
    def reverse(self: EnumerableABC) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        return Enumerable(self.type, list(reversed(self.to_list())))
    def select(self, _func: Callable = None) -> EnumerableABC:
        if _func is None:
            _func = _default_lambda
        _l = [_func(_o) for _o in self]
        return Enumerable(self._type if len(_l) < 1 else type(_l[0]), _l)
    def select_many(self, _func: Callable = None) -> EnumerableABC:
        if _func is None:
            _func = _default_lambda
        # The line below is pain. I don't understand anything of the list comprehension...
        # written on 09.11.2022 by Sven Heidemann
        _l = [_a for _o in self for _a in _func(_o)]
        return Enumerable(self._type if len(_l) < 1 else type(_l[0]), _l)
    def single(self: EnumerableABC) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) > 1:
            raise IndexError('Found more than one element')
        elif len(self) == 0:
            raise IndexOutOfRangeException(f'{type(self).__name__} is empty')
        return self.element_at(0)
    def single_or_default(self: EnumerableABC) -> Optional[any]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) > 1:
            raise IndexError('Found more than one element')
        elif len(self) == 0:
            return None
        return self.element_at(0)
    def skip(self, _index: int) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        _list = self.to_list()
        return Enumerable(self.type, _list[_index:])
    def skip_last(self, _index: int) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        index = len(self) - _index
        return self.take(len(self) - _index)
    def take(self, _index: int) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        _list = self.to_list()
        return Enumerable(self.type, _list[:_index])
    def take_last(self, _index: int) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        _list = self.to_list()
        index = len(_list) - _index
        return self.skip(index)
    def sum(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return sum([_func(x) for x in self])
    def where(self, _func: Callable = None) -> EnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        return Enumerable(self.type, list(filter(_func, self._values)))
--- a/src/cpl_query/enumerable/enumerable_abc.py
+++ b/src/cpl_query/enumerable/enumerable_abc.py
@ -1,8 +1,6 @@
 from abc import abstractmethod
 from typing import Iterable
 from cpl_query.base.queryable_abc import QueryableABC
 from cpl_query.base.sequence_values import SequenceValues
 class EnumerableABC(QueryableABC):
@ -11,81 +9,15 @@ class EnumerableABC(QueryableABC):
    @abstractmethod
    def __init__(self, t: type = None, values: list = None):
-        if t == any or t is None and values is not None:
+        QueryableABC.__init__(self, t, values)
            t = type(values[0])
-        self._type, self._values, self._remove_error_check = t, SequenceValues(values, t), True
+        self._remove_error_check = True
    def __len__(self):
        return len(self._values)
    def __iter__(self):
        return iter(self._values)
    def next(self):
        return next(self._values)
    def __next__(self):
        return self.next()
    def __repr__(self):
        return f'<{type(self).__name__} {list(self).__repr__()}>'
    @property
    def type(self) -> type:
        return self._type
    def set_remove_error_check(self, _value: bool):
        r"""Set flag to check if element exists before removing
        """
        self._remove_error_check = _value
    def add(self, __object: object) -> None:
        r"""Adds an element to the enumerable.
        """
        if self._type is not None and type(__object) != self._type and not isinstance(type(__object), self._type) and not issubclass(type(__object), self._type):
            raise Exception(f'Unexpected type: {type(__object)}\nExpected type: {self._type}')
        if len(self) == 0 and self._type is None:
            self._type = type(__object)
        self._values = SequenceValues([*self._values, __object], self._type)
    def clear(self):
        r"""Removes all elements
        """
        del self._values
        self._values = []
    def extend(self, __list: Iterable) -> 'EnumerableABC':
        r"""Adds elements of given list to enumerable
        Parameter
        ---------
            __enumerable: :class: `cpl_query.enumerable.enumerable_abc.EnumerableABC`
                index
        """
        self._values = SequenceValues([*self._values, *__list], self._type)
        return self
    def remove(self, __object: object) -> None:
        r"""Removes element from list
        Parameter
        ---------
            __object: :class:`object`
                value
        Raises
        ---------
            `Element not found` when element does not exist. Check can be deactivated by calling <enumerable>.set_remove_error_check(False)
        """
        if self._remove_error_check and __object not in self._values:
            raise Exception('Element not found')
        # self._values.remove(__object)
        self._values = SequenceValues([x for x in self.to_list() if x != __object], self._type)
    def to_iterable(self) -> 'IterableABC':
        r"""Converts :class: `cpl_query.enumerable.enumerable_abc.EnumerableABC` to :class: `cpl_query.iterable.iterable_abc.IterableABC`
@ -95,12 +27,3 @@ class EnumerableABC(QueryableABC):
        """
        from cpl_query.iterable.iterable import Iterable
        return Iterable(self._type, self.to_list())
    def to_list(self) -> list:
        r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
        Returns
        -------
            :class: `list`
        """
        return [x for x in self]
--- a/src/cpl_query/enumerable/ordered_enumerable.py
+++ b/src/cpl_query/enumerable/ordered_enumerable.py
@ -1,36 +0,0 @@
 from collections.abc import Callable
 from typing import Iterable
 from cpl_query.enumerable.enumerable import Enumerable
 from cpl_query.enumerable.ordered_enumerable_abc import OrderedEnumerableABC
 from cpl_query.exceptions import ArgumentNoneException, ExceptionArgument
 class OrderedEnumerable(Enumerable, OrderedEnumerableABC):
    r"""Implementation of :class: `cpl_query.extension.Enumerable` `cpl_query.extension.OrderedEnumerableABC`
    """
    def __init__(self, _t: type, _func: Callable = None, _values: Iterable = None):
        Enumerable.__init__(self, _t)
        OrderedEnumerableABC.__init__(self, _t, _func, _values)
    def then_by(self: OrderedEnumerableABC, _func: Callable) -> OrderedEnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedEnumerable(self.type, _func, sorted(self, key=lambda *args: [f(*args) for f in self._funcs]))
    def then_by_descending(self: OrderedEnumerableABC, _func: Callable) -> OrderedEnumerableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedEnumerable(self.type, _func, sorted(self, key=lambda *args: [f(*args) for f in self._funcs], reverse=True))
--- a/src/cpl_query/enumerable/ordered_enumerable_abc.py
+++ b/src/cpl_query/enumerable/ordered_enumerable_abc.py
@ -1,43 +0,0 @@
 from abc import abstractmethod
 from collections.abc import Callable
 from typing import Iterable
 from cpl_query.enumerable.enumerable_abc import EnumerableABC
 class OrderedEnumerableABC(EnumerableABC):
    @abstractmethod
    def __init__(self, _t: type, _func: Callable = None, _values: Iterable = None):
        EnumerableABC.__init__(self, _t, _values)
        self._funcs: list[Callable] = []
        if _func is not None:
            self._funcs.append(_func)
    @abstractmethod
    def then_by(self, func: Callable) -> 'OrderedEnumerableABC':
        r"""Sorts OrderedList in ascending order by function
        Parameter
        ---------
            func: :class:`Callable`
        Returns
        -------
            list of :class:`cpl_query.extension.OrderedEnumerableABC`
        """
        pass
    @abstractmethod
    def then_by_descending(self, func: Callable) -> 'OrderedEnumerableABC':
        r"""Sorts OrderedList in descending order by function
        Parameter
        ---------
            func: :class:`Callable`
        Returns
        -------
            list of :class:`cpl_query.extension.OrderedEnumerableABC`
        """
        pass
--- a/src/cpl_query/iterable/init.py
+++ b/src/cpl_query/iterable/init.py
@ -23,8 +23,6 @@ from collections import namedtuple
 # imports:
 from .iterable_abc import IterableABC
 from .iterable import Iterable
 from .ordered_iterable_abc import OrderedIterableABC
 from .ordered_iterable import OrderedIterable
 VersionInfo = namedtuple('VersionInfo', 'major minor micro')
 version_info = VersionInfo(major='2022', minor='10', micro='0.post2')
--- a/src/cpl_query/iterable/iterable.py
+++ b/src/cpl_query/iterable/iterable.py
@ -1,9 +1,6 @@
-from typing import Callable, Optional, Union, Iterable as IterableType
+from typing import Iterable as IterableType
 from cpl_query._helper import is_number
 from cpl_query.exceptions import ArgumentNoneException, ExceptionArgument, InvalidTypeException, IndexOutOfRangeException
 from cpl_query.iterable.iterable_abc import IterableABC
 from cpl_query.iterable.ordered_iterable_abc import OrderedIterableABC
 def _default_lambda(x: object):
@ -14,318 +11,3 @@ class Iterable(IterableABC):
    def __init__(self, t: type = None, values: IterableType = None):
        IterableABC.__init__(self, t, values)
    def all(self, _func: Callable = None) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = self.where(_func)
        return len(result) == len(self)
    def any(self, _func: Callable = None) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = self.where(_func)
        return len(result) > 0
    def average(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return float(self.sum(_func)) / float(self.count())
    def contains(self, _value: object) -> bool:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _value is None:
            raise ArgumentNoneException(ExceptionArgument.value)
        return self.where(lambda x: x == _value).count() > 0
    def count(self, _func: Callable = None) -> int:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            return len(self)
        return len(self.where(_func))
    def distinct(self, _func: Callable = None) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        result = Iterable()
        known_values = []
        for element in self:
            value = _func(element)
            if value in known_values:
                continue
            known_values.append(value)
            result.append(element)
        return result
    def element_at(self, _index: int) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        return self[_index]
    def element_at_or_default(self, _index: int) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        try:
            return self[_index]
        except IndexError:
            return None
    def first(self: IterableABC) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) == 0:
            raise IndexOutOfRangeException()
        return self[0]
    def first_or_default(self: IterableABC) -> Optional[any]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) == 0:
            return None
        return self[0]
    def last(self: IterableABC) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) == 0:
            raise IndexOutOfRangeException()
        return self[len(self) - 1]
    def last_or_default(self: IterableABC) -> Optional[any]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) == 0:
            return None
        return self[len(self) - 1]
    def for_each(self, _func: Callable = None):
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        for element in self:
            _func(element)
    def max(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return _func(max(self, key=_func))
    def median(self, _func=None) -> Union[int, float]:
        if _func is None:
            _func = _default_lambda
        result = self.order_by(_func).select(_func).to_list()
        length = len(result)
        i = int(length / 2)
        return (
            result[i]
            if length % 2 == 1
            else (float(result[i - 1]) + float(result[i])) / float(2)
        )
    def min(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return _func(min(self, key=_func))
    def order_by(self, _func: Callable = None) -> OrderedIterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        from cpl_query.iterable.ordered_iterable import OrderedIterable
        return OrderedIterable(self.type, _func, sorted(self, key=_func))
    def order_by_descending(self, _func: Callable = None) -> OrderedIterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            _func = _default_lambda
        from cpl_query.iterable.ordered_iterable import OrderedIterable
        return OrderedIterable(self.type, _func, sorted(self, key=_func, reverse=True))
    def reverse(self: IterableABC) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        return Iterable().extend(reversed(self.to_list()))
    def select(self, _func: Callable = None) -> IterableABC:
        if _func is None:
            _func = _default_lambda
        result = Iterable()
        result.extend(_func(_o) for _o in self)
        return result
    def select_many(self, _func: Callable = None) -> IterableABC:
        if _func is None:
            _func = _default_lambda
        result = Iterable()
        # The line below is pain. I don't understand anything of it...
        # written on 09.11.2022 by Sven Heidemann
        elements = [_a for _o in self for _a in _func(_o)]
        result.extend(elements)
        return result
    def single(self: IterableABC) -> any:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) > 1:
            raise Exception('Found more than one element')
        elif len(self) == 0:
            raise Exception('Found no element')
        return self[0]
    def single_or_default(self: IterableABC) -> Optional[any]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if len(self) > 1:
            raise Exception('Index out of range')
        elif len(self) == 0:
            return None
        return self[0]
    def skip(self, _index: int) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        return Iterable(self.type, values=self[_index:])
    def skip_last(self, _index: int) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        index = len(self) - _index
        result = Iterable()
        result.extend(self[:index])
        return result
    def take(self, _index: int) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _index is None:
            raise ArgumentNoneException(ExceptionArgument.index)
        result = Iterable()
        result.extend(self[:_index])
        return result
    def take_last(self, _index: int) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        index = len(self) - _index
        if index >= len(self) or index < 0:
            raise IndexOutOfRangeException()
        result = Iterable()
        result.extend(self[index:])
        return result
    def sum(self, _func: Callable = None) -> Union[int, float, complex]:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None and not is_number(self.type):
            raise InvalidTypeException()
        if _func is None:
            _func = _default_lambda
        return sum([_func(x) for x in self])
    def where(self, _func: Callable = None) -> IterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        if _func is None:
            _func = _default_lambda
        result = Iterable(self.type)
        for element in self:
            if _func(element):
                result.append(element)
        return result
--- a/src/cpl_query/iterable/iterable_abc.py
+++ b/src/cpl_query/iterable/iterable_abc.py
@ -4,54 +4,45 @@ from typing import Iterable
 from cpl_query.base.queryable_abc import QueryableABC
-class IterableABC(list, QueryableABC):
+class IterableABC(QueryableABC):
    r"""ABC to define functions on list
    """
    @abstractmethod
    def __init__(self, t: type = None, values: Iterable = None):
-        values = [] if values is None else values
+        QueryableABC.__init__(self, t, values)
        list.__init__(self, values)
-        if t is None and len(values) > 0:
+    def __setitem__(self, i, val):
-            t = type(values[0])
+        self._check_type(val)
        values = [*self._values]
        values[i] = val
        self._set_values(values)
-        self._type = t
+    def __delitem__(self, i):
-
+        values = [*self._values]
-    def __repr__(self):
+        del values[i]
-        return f'<{type(self).__name__} {list(self).__repr__()}>'
+        self._set_values(values)
    @property
    def type(self) -> type:
        return self._type
    def to_list(self) -> list:
        r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
        Returns
        -------
            :class: `list`
        """
        return [x for x in self]
    def __str__(self):
        return str(self.to_list())
-    def append(self, __object: object) -> None:
+    def append(self, _object: object):
        self.add(_object)
    def add(self, _object: object):
        r"""Adds element to list
        Parameter
        ---------
-            __object: :class:`object`
+            _object: :class:`object`
                value
        """
-        if self._type is not None and type(__object) != self._type and not isinstance(type(__object), self._type) and not issubclass(type(__object), self._type):
+        self._check_type(_object)
-            raise Exception(f'Unexpected type: {type(__object)}\nExpected type: {self._type}')
+        values = [*self._values, _object]
-
+        self._set_values(values)
        if len(self) == 0 and self._type is None:
            self._type = type(__object)
        # self._values = SequenceValues([*self._values, __object], self._type)
        super().append(__object)
    def extend(self, __iterable: Iterable) -> 'IterableABC':
        r"""Adds elements of given list to list
--- a/src/cpl_query/iterable/ordered_iterable.py
+++ b/src/cpl_query/iterable/ordered_iterable.py
@ -1,35 +0,0 @@
 from collections.abc import Callable
 from cpl_query.exceptions import ArgumentNoneException, ExceptionArgument
 from cpl_query.iterable.iterable import Iterable
 from cpl_query.iterable.ordered_iterable_abc import OrderedIterableABC
 class OrderedIterable(Iterable, OrderedIterableABC):
    r"""Implementation of :class: `cpl_query.extension.Iterable` `cpl_query.extension.OrderedIterableABC`
    """
    def __init__(self, _t: type, _func: Callable = None, _values: Iterable = None):
        Iterable.__init__(self, _t)
        OrderedIterableABC.__init__(self, _t, _func, _values)
    def then_by(self: OrderedIterableABC, _func: Callable) -> OrderedIterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedIterable(self.type, _func, sorted(self, key=lambda *args: [f(*args) for f in self._funcs]))
    def then_by_descending(self: OrderedIterableABC, _func: Callable) -> OrderedIterableABC:
        if self is None:
            raise ArgumentNoneException(ExceptionArgument.list)
        if _func is None:
            raise ArgumentNoneException(ExceptionArgument.func)
        self._funcs.append(_func)
        return OrderedIterable(self.type, _func, sorted(self, key=lambda *args: [f(*args) for f in self._funcs], reverse=True))
--- a/unittests/unittests_cli/abc/init.py
+++ b/unittests/unittests_cli/abc/init.py
--- a/unittests/unittests_cli/abc/command_test_case.py
+++ b/unittests/unittests_cli/abc/command_test_case.py
@ -0,0 +1,35 @@
 import os
 import shutil
 import traceback
 import unittest
 from unittests_cli.constants import PLAYGROUND_PATH
 class CommandTestCase(unittest.TestCase):
    def __init__(self, method_name: str):
        unittest.TestCase.__init__(self, method_name)
    @classmethod
    def setUpClass(cls):
        try:
            if os.path.exists(PLAYGROUND_PATH):
                shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH)))
            os.makedirs(PLAYGROUND_PATH)
            os.chdir(PLAYGROUND_PATH)
        except Exception as e:
            print(f'Setup of {__name__} failed: {traceback.format_exc()}')
    def setUp(self):
        os.chdir(PLAYGROUND_PATH)
    @classmethod
    def tearDownClass(cls):
        try:
            if os.path.exists(PLAYGROUND_PATH):
                shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH)))
        except Exception as e:
            print(f'Cleanup of {__name__} failed: {traceback.format_exc()}')
--- a/unittests/unittests_cli/add_test_case.py
+++ b/unittests/unittests_cli/add_test_case.py
@ -1,18 +1,16 @@
 import json
 import os
 import shutil
 import unittest
 from cpl_core.utils import String
-
+from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class AddTestCase(unittest.TestCase):
+class AddTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'add-test-project'
        self._target = 'add-test-library'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -26,19 +24,12 @@ class AddTestCase(unittest.TestCase):
        return project_json
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
        CLICommands.new('console', self._target, '--ab', '--s')
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def test_add(self):
        CLICommands.add(self._source, self._target)
        settings = self._get_project_settings()
--- a/unittests/unittests_cli/build_test_case.py
+++ b/unittests/unittests_cli/build_test_case.py
@ -2,18 +2,17 @@ import filecmp
 import json
 import os
 import shutil
 import unittest
 from cpl_core.utils import String
-
+from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class BuildTestCase(unittest.TestCase):
+class BuildTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'build-test-source'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -31,18 +30,14 @@ class BuildTestCase(unittest.TestCase):
            project_file.close()
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def _are_dir_trees_equal(self, dir1, dir2):
        """
        found at https://stackoverflow.com/questions/4187564/recursively-compare-two-directories-to-ensure-they-have-the-same-files-and-subdi
--- a/unittests/unittests_cli/cli_test_suite.py
+++ b/unittests/unittests_cli/cli_test_suite.py
@ -75,4 +75,9 @@ class CLITestSuite(unittest.TestSuite):
    def run(self, *args):
        self._setup()
        self._result = super().run(*args)
-        # self._cleanup()
+        self._cleanup()
 if __name__ == "__main__":
    runner = unittest.TextTestRunner()
    runner.run(CLITestSuite())
--- a/unittests/unittests_cli/constants.py
+++ b/unittests/unittests_cli/constants.py
@ -1,5 +1,9 @@
 import os
-PLAYGROUND_PATH = os.path.abspath(os.path.join(os.getcwd(), '../test_cli_playground'))
+base = ''
-TRANSLATION_PATH = os.path.abspath(os.path.join(os.getcwd(), '../unittests_translation'))
+if not os.getcwd().endswith('unittests'):
-CLI_PATH = os.path.abspath(os.path.join(os.getcwd(), '../../src/cpl_cli/main.py'))
+    base = '../'
 PLAYGROUND_PATH = os.path.abspath(os.path.join(os.getcwd(), f'{base}test_cli_playground'))
 TRANSLATION_PATH = os.path.abspath(os.path.join(os.getcwd(), f'{base}unittests_translation'))
 CLI_PATH = os.path.abspath(os.path.join(os.getcwd(), f'{base}../src/cpl_cli/main.py'))
--- a/unittests/unittests_cli/custom_test_case.py
+++ b/unittests/unittests_cli/custom_test_case.py
@ -1,7 +1,7 @@
-import unittest
+from unittests_cli.abc.command_test_case import CommandTestCase
-class CustomTestCase(unittest.TestCase):
+class CustomTestCase(CommandTestCase):
    def setUp(self):
        pass
--- a/unittests/unittests_cli/generate_test_case.py
+++ b/unittests/unittests_cli/generate_test_case.py
@ -1,17 +1,18 @@
 import os.path
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class GenerateTestCase(unittest.TestCase):
+class GenerateTestCase(CommandTestCase):
    _project = 'test-console'
    _t_path = 'test'
    @classmethod
    def setUpClass(cls):
        CommandTestCase.setUpClass()
        CLICommands.new('console', cls._project, '--ab', '--s', '--venv')
    def setUp(self):
--- a/unittests/unittests_cli/install_test_case.py
+++ b/unittests/unittests_cli/install_test_case.py
@ -6,14 +6,15 @@ import sys
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class InstallTestCase(unittest.TestCase):
+class InstallTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'install-test-source'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -31,18 +32,14 @@ class InstallTestCase(unittest.TestCase):
            project_file.close()
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def _get_installed_packages(self) -> dict:
        reqs = subprocess.check_output([sys.executable, '-m', 'pip', 'freeze'])
        return dict([tuple(r.decode().split('==')) for r in reqs.split()])
--- a/unittests/unittests_cli/new_test_case.py
+++ b/unittests/unittests_cli/new_test_case.py
@ -1,16 +1,16 @@
 import json
 import os
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class NewTestCase(unittest.TestCase):
+class NewTestCase(CommandTestCase):
-    def setUp(self):
+    def __init__(self, method_name: str):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        CommandTestCase.__init__(self, method_name)
    def _test_project(self, project_type: str, name: str, *args, test_venv=False, without_ws=False):
        CLICommands.new(project_type, name, *args)
@ -70,7 +70,6 @@ class NewTestCase(unittest.TestCase):
        project_path = os.path.abspath(os.path.join(PLAYGROUND_PATH, workspace_name, base, String.convert_to_snake_case(name)))
        self.assertTrue(os.path.exists(project_path))
        self.assertTrue(os.path.join(project_path, f'{name}.json'))
        os.chdir(os.path.abspath(os.path.join(os.getcwd(), '../')))
    def _test_sub_directory_project(self, project_type: str, directory: str, name: str, workspace_name: str, *args):
        os.chdir(os.path.abspath(os.path.join(os.getcwd(), workspace_name)))
@ -96,8 +95,6 @@ class NewTestCase(unittest.TestCase):
        self.assertEqual(build_settings['Main'], f'{String.convert_to_snake_case(name)}.main')
        self.assertEqual(build_settings['EntryPoint'], name)
        os.chdir(os.path.abspath(os.path.join(os.getcwd(), '../')))
    def test_console(self):
        self._test_project('console', 'test-console', '--ab', '--s', '--venv', test_venv=True)
--- a/unittests/unittests_cli/publish_test_case.py
+++ b/unittests/unittests_cli/publish_test_case.py
@ -5,15 +5,16 @@ import shutil
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class PublishTestCase(unittest.TestCase):
+class PublishTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'publish-test-source'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -31,18 +32,14 @@ class PublishTestCase(unittest.TestCase):
            project_file.close()
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def _are_dir_trees_equal(self, dir1, dir2):
        """
        found at https://stackoverflow.com/questions/4187564/recursively-compare-two-directories-to-ensure-they-have-the-same-files-and-subdi
--- a/unittests/unittests_cli/remove_test_case.py
+++ b/unittests/unittests_cli/remove_test_case.py
@ -3,14 +3,15 @@ import os
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class RemoveTestCase(unittest.TestCase):
+class RemoveTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'add-test-project'
        self._target = 'add-test-library'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -24,7 +25,10 @@ class RemoveTestCase(unittest.TestCase):
        return project_json
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
--- a/unittests/unittests_cli/run_test_case.py
+++ b/unittests/unittests_cli/run_test_case.py
@ -1,22 +1,18 @@
 import json
 import os
 import shutil
 import subprocess
 import sys
 import unittest
 import pkg_resources
 from cpl_core.utils import String
-
+from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class RunTestCase(unittest.TestCase):
+class RunTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'run-test'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
        self._appsettings = f'src/{String.convert_to_snake_case(self._source)}/appsettings.json'
@ -50,7 +46,10 @@ class RunTestCase(unittest.TestCase):
            project_file.close()
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
@ -60,13 +59,6 @@ class RunTestCase(unittest.TestCase):
            file.write(f'\t\t{self._test_code}')
            file.close()
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def test_run(self):
        CLICommands.run()
        settings = self._get_appsettings()
--- a/unittests/unittests_cli/start_test_case.py
+++ b/unittests/unittests_cli/start_test_case.py
@ -5,15 +5,16 @@ import time
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_cli.threads.start_test_thread import StartTestThread
 from unittests_shared.cli_commands import CLICommands
-class StartTestCase(unittest.TestCase):
+class StartTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'start-test'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
        self._appsettings = f'src/{String.convert_to_snake_case(self._source)}/appsettings.json'
@ -50,7 +51,10 @@ class StartTestCase(unittest.TestCase):
            project_file.close()
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
@ -60,13 +64,6 @@ class StartTestCase(unittest.TestCase):
            file.write(f'\t\t{self._test_code}')
            file.close()
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def test_start(self):
        thread = StartTestThread()
        thread.start()
--- a/unittests/unittests_cli/uninstall_test_case.py
+++ b/unittests/unittests_cli/uninstall_test_case.py
@ -6,14 +6,15 @@ import sys
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class UninstallTestCase(unittest.TestCase):
+class UninstallTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'uninstall-test-source'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
        self._version = '1.7.3'
@ -29,18 +30,14 @@ class UninstallTestCase(unittest.TestCase):
        return project_json
    def setUp(self):
-        os.chdir(os.path.abspath(PLAYGROUND_PATH))
+        if not os.path.exists(PLAYGROUND_PATH):
            os.makedirs(PLAYGROUND_PATH)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def _get_installed_packages(self) -> dict:
        reqs = subprocess.check_output([sys.executable, '-m', 'pip', 'freeze'])
        return dict([tuple(r.decode().split('==')) for r in reqs.split()])
--- a/unittests/unittests_cli/update_test_case.py
+++ b/unittests/unittests_cli/update_test_case.py
@ -6,14 +6,15 @@ import sys
 import unittest
 from cpl_core.utils import String
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_shared.cli_commands import CLICommands
-class UpdateTestCase(unittest.TestCase):
+class UpdateTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._source = 'install-test-source'
        self._project_file = f'src/{String.convert_to_snake_case(self._source)}/{self._source}.json'
@ -26,6 +27,15 @@ class UpdateTestCase(unittest.TestCase):
        self._new_package_name = 'discord.py'
        self._new_package = f'{self._new_package_name}=={self._new_version}'
    def setUp(self):
        CLICommands.uninstall(self._old_package)
        CLICommands.uninstall(self._new_package)
        os.chdir(PLAYGROUND_PATH)
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
        CLICommands.install(self._old_package)
    def _get_project_settings(self):
        with open(os.path.join(os.getcwd(), self._project_file), 'r', encoding='utf-8') as cfg:
            # load json
@ -39,22 +49,6 @@ class UpdateTestCase(unittest.TestCase):
            project_file.write(json.dumps(settings, indent=2))
            project_file.close()
    def setUp(self):
        CLICommands.uninstall(self._old_package)
        CLICommands.uninstall(self._new_package)
        os.chdir(os.path.abspath(PLAYGROUND_PATH))
        # create projects
        CLICommands.new('console', self._source, '--ab', '--s')
        os.chdir(os.path.join(os.getcwd(), self._source))
        CLICommands.install(self._old_package)
    def cleanUp(self):
        # remove projects
        if not os.path.exists(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source))):
            return
        shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH, self._source)))
    def _get_installed_packages(self) -> dict:
        reqs = subprocess.check_output([sys.executable, '-m', 'pip', 'freeze'])
        return dict([tuple(r.decode().split('==')) for r in reqs.split()])
@ -85,5 +79,3 @@ class UpdateTestCase(unittest.TestCase):
        packages = self._get_installed_packages()
        self.assertIn(self._new_package_name, packages)
        self.assertEqual(self._new_version, packages[self._new_package_name])
--- a/unittests/unittests_cli/version_test_case.py
+++ b/unittests/unittests_cli/version_test_case.py
@ -12,13 +12,14 @@ import cpl_cli
 from cpl_core.console import ForegroundColorEnum
 from termcolor import colored
 from unittests_cli.abc.command_test_case import CommandTestCase
 from unittests_shared.cli_commands import CLICommands
-class VersionTestCase(unittest.TestCase):
+class VersionTestCase(CommandTestCase):
-    def __init__(self, methodName: str):
+    def __init__(self, method_name: str):
-        unittest.TestCase.__init__(self, methodName)
+        CommandTestCase.__init__(self, method_name)
        self._block_banner = ""
        self._block_version = ""
        self._block_package_header = ""
--- a/unittests/unittests_query/enumerable_query_test_case.py
+++ b/unittests/unittests_query/enumerable_query_test_case.py
@ -11,7 +11,16 @@ from unittests_query.models import User, Address
 class EnumerableQueryTestCase(unittest.TestCase):
    def setUp(self) -> None:
-        self._tests = Enumerable(User)
+        users = []
        for i in range(0, 100):
            users.append(User(
                String.random_string(string.ascii_letters, 8).lower(),
                Address(
                    String.random_string(string.ascii_letters, 10).lower(),
                    randint(1, 10)
                )
            ))
        self._t_user = User(
            'Test user',
            Address(
@ -27,22 +36,10 @@ class EnumerableQueryTestCase(unittest.TestCase):
            )
        )
-        self._generate_test_data()
+        users.append(self._t_user)
        users.append(self._t_user2)
-    def _generate_test_data(self):
+        self._tests = Enumerable(User, users)
        for i in range(0, 100):
            user = User(
                String.random_string(string.ascii_letters, 8).lower(),
                Address(
                    String.random_string(string.ascii_letters, 10).lower(),
                    randint(1, 10)
                )
            )
            self._tests.add(user)
        self._tests.add(self._t_user)
        self._tests.add(self._t_user2)
    def test_any(self):
        results = []
--- a/unittests/unittests_query/enumerable_test_case.py
+++ b/unittests/unittests_query/enumerable_test_case.py
@ -6,17 +6,9 @@ from cpl_query.enumerable.enumerable import Enumerable
 class EnumerableTestCase(unittest.TestCase):
    def setUp(self) -> None:
-        self._list = Enumerable(int)
+        self._list = Enumerable(int, list(range(1, 4)))
    def _clear(self):
        self._list.clear()
        self.assertEqual(self._list, [])
    def test_append(self):
        self._list.add(1)
        self._list.add(2)
        self._list.add(3)
        self.assertEqual(self._list.to_list(), [1, 2, 3])
        self.assertRaises(Exception, lambda v: self._list.add(v), '3')
@ -38,30 +30,7 @@ class EnumerableTestCase(unittest.TestCase):
            n += 1
    def test_get(self):
        self._list.add(1)
        self._list.add(2)
        self._list.add(3)
        self.assertEqual(self._list.element_at(2), [1, 2, 3][2])
    def test_count(self):
        self._list.add(1)
        self._list.add(2)
        self._list.add(3)
        self.assertEqual(self._list.count(), 3)
    def test_remove(self):
        old_values = self._list._values
        self._list.add(1)
        self.assertNotEqual(old_values, self._list._values)
        self._list.add(2)
        self._list.add(3)
        self.assertEqual(self._list.to_list(), [1, 2, 3])
        self.assertRaises(Exception, lambda v: self._list.add(v), '3')
        old_values = self._list._values
        self._list.remove(3)
        self.assertNotEqual(old_values, self._list._values)
        self.assertEqual(self._list.to_list(), [1, 2])
        self.assertRaises(Exception, lambda v: self._list.add(v), '3')
--- a/unittests/unittests_query/iterable_query_test_case.py
+++ b/unittests/unittests_query/iterable_query_test_case.py
@ -5,6 +5,7 @@ from random import randint
 from cpl_core.utils import String
 from cpl_query.exceptions import InvalidTypeException, ArgumentNoneException
 from cpl_query.extension.list import List
 from cpl_query.iterable import Iterable
 from unittests_query.models import User, Address
@ -102,8 +103,18 @@ class IterableQueryTestCase(unittest.TestCase):
        self.assertEqual(1, self._tests.count(lambda u: u == self._t_user))
    def test_distinct(self):
-        res = self._tests.distinct(lambda u: u.address.nr).where(lambda u: u.address.nr == 5)
+        res = self._tests.select(lambda u: u.address.nr).where(lambda a: a == 5).distinct()
-        self.assertEqual(1, len(res))
+        self.assertEqual(1, res.count())
        addresses = []
        for u in self._tests:
            if u.address.nr in addresses:
                continue
            addresses.append(u.address.nr)
        res2 = self._tests.distinct(lambda x: x.address.nr).select(lambda x: x.address.nr).to_list()
        self.assertEqual(addresses, res2)
    def test_element_at(self):
        index = randint(0, len(self._tests) - 1)
@ -168,6 +179,29 @@ class IterableQueryTestCase(unittest.TestCase):
        self.assertEqual(res[0], s_res)
        self.assertIsNone(sn_res)
    def test_group_by(self):
        def by_adr(u):
            return u.address.nr
        t = self._tests.select(by_adr).group_by()
        res = self._tests.group_by(by_adr)
        self.assertTrue(isinstance(res.first_or_default(), Iterable))
        self.assertNotEqual(self._tests.count(), res.count())
        self.assertEqual(self._tests.distinct(by_adr).count(), res.count())
        elements = List(int)
        groups = {}
        for x in range(0, 1000):
            v = randint(1, 100)
            if v not in groups:
                groups[v] = []
            groups[v].append(v)
            elements.append(v)
        r1, r2 = list(groups.values()), elements.group_by().select(lambda l: l.to_list()).to_list()
        self.assertEqual(r1, r2)
    def test_for_each(self):
        users = []
        self._tests.for_each(lambda user: (
--- a/unittests/unittests_query/models.py
+++ b/unittests/unittests_query/models.py
@ -4,9 +4,15 @@ class User:
        self.name = name
        self.address = address
    def __repr__(self):
        return f'<{type(self).__name__} {self.name} {self.address}>'
 class Address:
    def __init__(self, street, nr):
        self.street = street
        self.nr = nr
    def __repr__(self):
        return f'<{type(self).__name__} {self.street} {self.nr}>'
--- a/unittests/unittests_query/performance_test_case.py
+++ b/unittests/unittests_query/performance_test_case.py
@ -19,9 +19,9 @@ class PerformanceTestCase(unittest.TestCase):
            i += 1
    def test_range(self):
-        default = timeit.timeit(lambda: list(self.values), number=COUNT)
+        default = timeit.timeit(lambda: list(range(0, VALUES)), number=COUNT)
-        enumerable = timeit.timeit(lambda: Enumerable(int, self.values), number=COUNT)
+        iterable = timeit.timeit(lambda: Iterable.range(0, VALUES), number=COUNT)
-        iterable = timeit.timeit(lambda: Iterable(int, self.values), number=COUNT)
+        enumerable = timeit.timeit(lambda: Enumerable.range(0, VALUES), number=COUNT)
        print('Range')
        print(f'd: {default}s')
@ -32,9 +32,9 @@ class PerformanceTestCase(unittest.TestCase):
        self.assertLess(default, iterable)
    def test_where_single(self):
-        default = timeit.timeit(lambda: [x for x in list(self.values) if x == 50], number=COUNT)
+        default = timeit.timeit(lambda: [x for x in list(range(0, VALUES)) if x == 50], number=COUNT)
-        iterable = timeit.timeit(lambda: Iterable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
+        iterable = timeit.timeit(lambda: Iterable.range(0, VALUES).where(lambda x: x == 50).single(), number=COUNT)
-        enumerable = timeit.timeit(lambda: Enumerable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
+        enumerable = timeit.timeit(lambda: Enumerable.range(0, VALUES).where(lambda x: x == 50).single(), number=COUNT)
        print('Where single')
        print(f'd: {default}s')
@ -55,7 +55,7 @@ class PerformanceTestCase(unittest.TestCase):
        for i in range(VALUES):
            values.append(TestModel(i, TestModel(i + 1)))
-        default = timeit.timeit(lambda: [x for x in list(values) if x.tm.value == 50], number=COUNT)
+        default = timeit.timeit(lambda: [x for x in values if x.tm.value == 50], number=COUNT)
        iterable = timeit.timeit(lambda: Iterable(TestModel, values).where(lambda x: x.tm.value == 50).single(), number=COUNT)
        enumerable = timeit.timeit(lambda: Enumerable(TestModel, values).where(lambda x: x.tm.value == 50).single(), number=COUNT)
--- a/unittests/unittests_shared/cli_commands.py
+++ b/unittests/unittests_shared/cli_commands.py
@ -1,5 +1,6 @@
 import os
 import subprocess
 import sys
 from unittests_cli.constants import CLI_PATH
@ -23,7 +24,7 @@ class CLICommands:
    @staticmethod
    def _run_with_output(cmd: str, *args) -> str:
        env_vars = os.environ
-        # env_vars['CPL_IS_UNITTEST'] = 'NO'
+        env_vars['CPL_IS_UNITTEST'] = 'NO'
        command = ['python', CLI_PATH, cmd]
        for arg in args:
--- a/unittests/unittests_translation/translation_test_suite.py
+++ b/unittests/unittests_translation/translation_test_suite.py
@ -1,11 +1,7 @@
 import os
 import shutil
 import traceback
 import unittest
 from typing import Optional
 from unittest import TestResult
 from unittests_cli.constants import PLAYGROUND_PATH
 from unittests_translation.translation_test_case import TranslationTestCase
@ -25,27 +21,5 @@ class TranslationTestSuite(unittest.TestSuite):
        for test in active_tests:
            self.addTests(loader.loadTestsFromTestCase(test))
    def _setup(self):
        try:
            if os.path.exists(PLAYGROUND_PATH):
                shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH)))
            os.makedirs(PLAYGROUND_PATH)
            os.chdir(PLAYGROUND_PATH)
        except Exception as e:
            print(f'Setup of {__name__} failed: {traceback.format_exc()}')
    def _cleanup(self):
        try:
            if self._result is not None and (len(self._result.errors) > 0 or len(self._result.failures) > 0):
                return
            if os.path.exists(PLAYGROUND_PATH):
                shutil.rmtree(os.path.abspath(os.path.join(PLAYGROUND_PATH)))
        except Exception as e:
            print(f'Cleanup of {__name__} failed: {traceback.format_exc()}')
    def run(self, *args):
        self._setup()
        self._result = super().run(*args)
        self._cleanup()