A library implementing certain Ruby-like behaviours in Python.
NB: This is heavily under development and subject to change. Expect breaking changes until the 1.0.0 release.
Install the pyby package from PyPI.
pip install pybyThe links in the list of available modules, classes, methods, and functions below link to the corresponding Ruby documentation.
Currently, Ruby version 3.1.2 is used as a basis for the mimiced functionality.
RObject (object.py)
A base class to enrich Python objects with additional functionality.
Determines whether an object has a certain callable property or not.
Also available as a standalone function, rather than a method.
Calls the property identified by name, passing it any arguments specified. If the property is not callable and no arguments are specified, the property is instead returned.
Enumerable (enumerable.py)
A base class meant to be subclassed by an iterable (henceforth referred to as an enumerable).
The enumerable must implement __each__ in order to unlock the rest of the functionality.
To return something else than an EnumerableList, the enumerable can override __into__. For example, EnumerableDict returns another EnumerableDict when its compact method is called.
In addition, the enumerable may override __to_tuple__ in order to support predicate and mapping functions with a higher arity than one. A prime example would be EnumerableDict in combination with select where the predicate function should expect the key-value pair split into two arguments rather than a single tuple. In this case, __to_tuple__ should return the key-value pair as a two-element tuple.
Returns an iterator to be used internally.
Must be implemented by the subclass.
Returns a constructor that accepts an iterable for the given method name.
By default imports and returns EnumerableList.
May be implemented by the subclass.
Transforms a single element of an enumerable to a tuple.
Used internally to uniformly handle predicate and mapping functions with a higher arity than one.
By default returns the item wrapped in a single-element tuple.
May be implemented by the subclass.
A decorator enabling the return type of a method, as well as the number of arguments predicate and mapping functions are to be called with, to be configured by the collection class inheriting from Enumerable.
If enumerator_without_func is set, the decorator skips calling the decorated method if no arguments have been passed and instead returns an Enumerator based on the enumerable.
Relys on the enumerable's implementation of __into__ and __to_tuple__.
Returns the result of mapping a function over the elements.
The mapping function takes a single argument for sequences and two arguments for mappings.
Returns the flattened result of mapping a function over the elements. The mapping function takes a single argument for sequences and two arguments for mappings.
Returns an enumerable of the elements with None values removed.
Returns the number of elements in the enumerable.
Optionally accepts an argument.
Given a non-callable argument, counts the number of equivalent elements.
Given a callable predicate, counts the elements for which the predicate is truthy.
Returns the first element for which the predicate function is truthy. If no matching element is found, returns None, unless a default callback has been provided, in which turn that callback function will be invoked and its result returned. The predicate function takes a single argument for sequences and two arguments for mappings.
If called with a single argument, treats it as the predicate function.
If called with two arguments, the first is treated as the default callback function and the second argument acts as the predicate function.
Without a predicate function, returns an enumerator by calling to_enum.
Given a function, calls the function once for each item in the enumerable.
For sequences this will typically be the same as iterating over the elements,
whereas for mappings this will be same as iterating over the items.
Without a function, returns an enumerator by calling to_enum.
Returns the elements for which the predicate function is truthy.
The predicate function takes a single argument for sequences and two arguments for mappings.
Without a predicate function, returns an enumerator by calling to_enum.
Returns the first element or a given number of elements.
With no argument, returns the first element, or None if there is none.
With a number of elements requested, returns as many elements as possible.
Returns whether the enumerable includes the element.
For mappings this is determined as a key with the same name existing.
Performs a reduction operation much like functools.reduce.
If called with a single argument, treats it as the reduction function.
If called with two arguments, the first is treated as the initial value for the reduction and the second argument acts as the reduction function.
Also available as the alias reduce.
Returns the elements for which the predicate function is falsy.
Without a predicate function, returns an enumerator by calling to_enum.
Returns the number of elements requested or as many elements as possible.
Returns an Enumerator for the enumerable.
Requires an iterable subclass.
Without a function, returns only unique elements. With a function, returns only elements for which the function returns a unique value.
EnumerableDict (enumerable_dict.py)
A subclass of Enumerable that mimics some of Ruby's Hash while still behaving like a Python dict.
EnumerableList (enumerable_list.py)
A subclass of Enumerable that mimics some of Ruby's Array while still behaving like a Python list.
Enumerator (enumerator.py)
A class which allows both internal and external iteration.
An enumerator is in turn an enumerable.
Returns the next object in the enumeration sequence.
If going beyond the enumeration, StopIteration is raised.
Returns the current object in the enumeration sequence without advancing the enumeration.
If going beyond the enumeration, StopIteration is raised.
Rewinds the enumeration sequence to the beginning.
Note that this may not be possible to do for underlying iterables that can be exhausted.