Metadata-Version: 2.1
Name: refcount
Version: 1.2.0
Summary: A Python package for reference counting and interop with native pointers
Home-page: https://github.com/csiro-hydroinformatics/pyrefcount
Author: Jean-Michel Perraud
Author-email: per202@csiro.au
Project-URL: Bug Reports, https://github.com/csiro-hydroinformatics/pyrefcount/issues
Project-URL: Source, https://github.com/csiro-hydroinformatics/pyrefcount
Keywords: interop python native-libraries reference-counting handle cffi
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Topic :: Software Development 
Classifier: Topic :: Software Development :: Object Brokering
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Description-Content-Type: text/markdown
License-File: LICENSE.txt

# refcount - Python classes for reference counting

[![license](https://img.shields.io/badge/license-MIT-blue.svg)](https://github.com/csiro-hydroinformatics/pyrefcount/blob/master/LICENSE.txt) ![status](https://img.shields.io/badge/status-stable-green.svg) [![Documentation Status](https://readthedocs.org/projects/pyrefcount/badge/?version=latest)](https://pyrefcount.readthedocs.io/en/latest/?badge=latest) [![codecov](https://codecov.io/gh/csiro-hydroinformatics/pyrefcount/branch/master/graph/badge.svg?token=ZBBFq3ncAq)](https://codecov.io/gh/csiro-hydroinformatics/pyrefcount) master: [![Python package](https://github.com/csiro-hydroinformatics/pyrefcount/actions/workflows/build-matrix.yml/badge.svg?branch=master)](https://github.com/csiro-hydroinformatics/pyrefcount/actions/workflows/build-matrix.yml) testing: [![Python package](https://github.com/csiro-hydroinformatics/pyrefcount/actions/workflows/build-matrix.yml/badge.svg?branch=testing)](https://github.com/csiro-hydroinformatics/pyrefcount/actions/workflows/build-matrix.yml)


![Reference counted native handles](./docs/img/refcount-principles.png "Reference counted native handles")

This package is primarily for managing resources in native libraries, written for instance in C++, from Python. While it boils down to "simply" maintaining a set of counters, **it is deceptively complicated to do so properly** and not end up with memory leaks or crashes. This package offers structured options for reliably managing external native resources. Surprisingly I could not locate an existing package doing just what I needed. Other use cases requiring reference counting, aside from native library resources, may benefit from reusing and extending classes in `refcount`.

`refcount` ( >=0.7) includes classes using [cffi](https://cffi.readthedocs.io/). Other low-level interoperability mechanisms may well be added in the future.

## License

MIT (see [License.txt](https://github.com/csiro-hydroinformatics/pyrefcount/blob/master/LICENSE.txt))

## Documentation

Hosted at [refcount via readthedocs.io](https://pyrefcount.readthedocs.io/en/latest/?badge=latest)

## Source code

The code repository is on [GitHub](https://github.com/csiro-hydroinformatics/pyrefcount).

## Installation

### conda-forge

Using `conda` or `mamba`:

```sh
mamba install -c conda-forge refcount
```

### pypi

```sh
pip install refcount
```

### From source (development)

```sh
pip install -r requirements.txt
pip install -e .
```

## Sample use

The following example is based on one of the unit tests.

Say we have a C++ library with objects and a C API:

```C++
#define TEST_DOG_PTR  testnative::dog*
#define TEST_OWNER_PTR  testnative::owner*
#define TEST_COUNTED_PTR  testnative::reference_counter*

testnative::dog* create_dog();
testnative::owner* create_owner(testnative::dog* d);
void say_walk(testnative::owner* owner);
void release(testnative::reference_counter* obj);
// etc.
```

From the outside of the library the API is exported with opaque pointers `void*` (C structs pointers and native C99 types could be handled too).

```C++
void* create_dog();
void* create_owner(void* d);
void say_walk(void* owner);
void release(void* obj);
// etc.
```

Starting with the end in mind, from Python we want an API hiding the low level details close to the C API, in particular avoiding managing native memory via `release` C API calls, piggybacking the python GC instead.

```python
dog = Dog()
owner = DogOwner(dog)
owner.say_walk()
print(dog.position)
dog = None # the "native dog" is still alive though, as the owner incremented the ref count
owner = None
```

This is doable with `refcount` and the `cffi` package. One possible design is:

```python
ut_ffi = cffi.FFI()

ut_ffi.cdef('extern void* create_dog();')
ut_ffi.cdef('extern void* create_owner( void* d);')
ut_ffi.cdef('extern void say_walk( void* owner);')
ut_ffi.cdef('extern void release( void* obj);')
# etc.

ut_dll = ut_ffi.dlopen('c:/path/to/test_native_library.dll', 1) # Lazy loading

class CustomCffiNativeHandle(CffiNativeHandle):
    def __init__(self, pointer, prior_ref_count = 0):
        super(CustomCffiNativeHandle, self).__init__(pointer, type_id='', prior_ref_count = prior_ref_count)

    def _release_handle(self) -> bool:
        ut_dll.release(self.get_handle())
        return True

class Dog(CustomCffiNativeHandle):
    def __init__(self, pointer = None):
        if pointer is None:
            pointer = ut_dll.create_dog()
        super(Dog, self).__init__(pointer)
    # etc.

class DogOwner(CustomCffiNativeHandle):

    def __init__(self, dog):
        super(DogOwner, self).__init__(None)
        self._set_handle(ut_dll.create_owner(dog.get_handle()))
        self.dog = dog
        self.dog.add_ref() # Do note this important reference increment

    def say_walk(self):
        ut_dll.say_walk(self.get_handle())

    def _release_handle(self) -> bool:
        super(DogOwner, self)._release_handle()
        # super(DogOwner, self)._release_handle()
        self.dog.release()
        return True
```

## Related work

### Ancestry, acknowledgements

This python package `refcount` actually spawned from prior work for interoperability between C++, R and .NET ([R.NET](https://github.com/rdotnet/rdotnet))

`refcount` features using `cffi` were also significantly informed by Kevin Plastow's [work](https://search.informit.com.au/documentSummary;dn=823898220073899;res=IELENG) while he was at the Australian Bureau of Meteorology; this contribution is gratefully acknowledged.

In you have native interop needs you may also want to look at:

* the nuget package [dynamic-interop-dll](https://github.com/rdotnet/dynamic-interop-dll) for .NET/native interop.
* a set of mostly c++ software [tools for interop with C/C++](https://github.com/csiro-hydroinformatics/c-interop)
* a C# library for [generating interop glue code on top of C API glue code](https://github.com/csiro-hydroinformatics/c-api-wrapper-generation).

### Other python packages

`refcount` was created in part because no existing prior (Python) work could quite fit the need. There are however packages that may better address your particular need:

* [infi.pyutils](https://pypi.org/project/infi.pyutils/) contains a reference counting class.
