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#REDIRECT [[Concurrent computing#Concurrent programming languages]]
'''Concurrent programming languages''' are those that provide linguistic mechanisms for creating concurrent or multi-threaded programs. This in contrast to languages such as [[C]], which only support concurrency through the use of libraries or operating system features.
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Communication in concurrent programming languages can essentially be divided into two classes:
:Shared-state languages, in which separate threads of execution can access the same data directly. This style of concurrent programming requires the application of some form of locking (e.g. mutexes, semaphores, or monitors) to ensure that only a single thread is manipulating the shared data at any one time. This form of concurrency can be difficult to reason about, and is prone to errors as a result of improperly coordinated locks.
:Message-passing languages, in which messages are sent to recipients as in [[Actor model]] and [[Process calculi]]. Message-passing concurrency tends to be far easier to reason about than shared-state concurrency, and is typically considered a more robust form of concurrent programming. Messages can be asynchronous (aka "send and pray"), as in [[IP]] on the [[Internet]], or may use a rendezvous style in which the sender blocks until the message is received, as in process calculi.
The [[Java programming language|Java]] and [[C sharp|C#] programming languages make use of both of the above kinds of communcication
==Examples==
*[[Ada]]
*[[Alef]] - originally used as a programming language for the [[Plan 9 from Bell Labs]] operating system.
*[[ChucK]] - concurrent, on-the-fly programming language for audio
*[[Cilk]]
*[[Comega]]
*[[Concurrent Pascal]] (by Brinch-Hansen)
*[[E programming language|E]]
*[[Erlang programming language|Erlang]]
*[[Java programming language|Java]]
*[[Joule programming language|Joule]]
*[[Limbo programming language|Limbo]] - the successor to [[Alef]], used in the [[Inferno (operating system)]].
*[[Oz_programming_language|Mozart/Oz]] - a "multi-paradigm" language that supports both shared-state and message-passing concurrency.
*[[Occam programming language|Occam]] - influenced heavily by [[Communicating Sequential Processes]].
*[[Pict-language|Pict]] - essentially an executable implementation of Milner's [[Pi-Calculus]].
*[[Promise (programming)]]
*[[SR language|SR]]
Note that many of these languages are intended more as research languages (e.g. [[Pict]]) than as languages for production use. However, several of the examples (such as [[Ada]], [[Erlang]], Java, [[Limbo]], and [[Occam]]) have seen widespread industrial use at various times in the last 20 years.
[[Category:Programming]]
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