Language binding
In programming and software design, a binding is an application programming interface (API) that provides glue code specifically made to allow a programming language to use a foreign library or operating system service (one that is not native to that language).
Characteristics
[edit]Binding generally refers to a mapping of one thing to another. In the context of software libraries, bindings are wrapper libraries that bridge two programming languages, so that a library written for one language can be used in another language.[1] Many software libraries are written in system programming languages such as C or C++. To use such libraries from another language, usually of higher-level, such as Java, Common Lisp, Scheme, Python, or Lua, a binding to the library must be created in that language, possibly requiring recompiling the language's code, depending on the amount of modification needed.[2] However, most languages offer a foreign function interface, such as Python's and OCaml's ctypes
, and Embeddable Common Lisp's cffi
and uffi
.[3][4][5]
For example, Python bindings are used when an extant C library, written for some purpose, is to be used from Python. Another example is libsvn
which is written in C to provide an API to access the Subversion software repository. To access Subversion from within Java code, libsvnjavahl
can be used, which depends on libsvn
being installed and acts as a bridge between the language Java and libsvn
, thus providing an API that invokes functions from libsvn
to do the work.[6]
Major motives to create library bindings include software reuse, to reduce reimplementing a library in several languages, and the difficulty of implementing some algorithms efficiently in some high-level languages.
Runtime environment
[edit]This section needs expansion. You can help by adding to it. (November 2016) |
Object models
[edit]- Common Object Request Broker Architecture (CORBA) – cross-platform-language model
- Component Object Model (COM) – Microsoft Windows only cross-language model
- Distributed Component Object Model (DCOM) – extension enabling COM to work over networks
- Cross Platform Component Object Model (XPCOM) – Mozilla applications cross-platform model
- Common Language Infrastructure – .NET Framework cross-platform-language model
- Freedesktop.org D-Bus – open cross-platform-language model
This section needs expansion. You can help by adding to it. (November 2016) |
Virtual machines
[edit]This section needs expansion. You can help by adding to it. (November 2016) |
Porting
[edit]- Portable object – cross-platform-language object model definition
This section needs expansion. You can help by adding to it. (November 2016) |
See also
[edit]- Application programming interface (API)
- Application binary interface (ABI)
- Calling convention
- Embedded SQL
- Name mangling
- Simplified Wrapper and Interface Generator (SWIG) – interface binding generator from many languages to many languages, open-source
- Wrapper function
References
[edit]- ^ "Appendix A. Creating a language binding for cairo". Cairographics.org. Retrieved 2014-04-02.
- ^ "Standards, APIs, Interfaces and Bindings". Acm.org. Archived from the original on 2015-01-16. Retrieved 2014-04-02.
- ^ "ctypes – A foreign function library for Python". Python v3.8.3 documentation. Docs.python.org. Retrieved 2020-06-04.
- ^ Hickey, Jason; Madhavapeddy, Anil; Minsky, Yaron (2013). "Real Worl OCaml, Chapter 19. Foreign Function Interface". realworldocaml.org. Retrieved 2015-07-19.
- ^ "Introduction – CFFI User Manual". Common-lisp.net. Retrieved 2014-04-02.
- ^ "Subversion JavaHL FAQ". Subclipse.tigris.org. 2013-06-18. Retrieved 2014-04-02.
External links
[edit]- JTC1/SC22/WG11 - Binding Techniques, an ISO standard for language bindings
- What is a language binding?