Joule is a capability-secure massively-
concurrent dataflow programming language, designed for building
distributed applications. It is so concurrent that the order of statements within a block is irrelevant to the operation of the block. Statements are executed whenever possible, based on their inputs. Everything in Joule happens by sending messages. There is no
control flow. Instead, the programmer describes the flow of data, making it a
dataflow programming language.
Joule development started in 1994 at ''Agorics'' in
Palo Alto, California. It is considered the precursor to the
E programming language.
Language syntax
Numerals consist of
ASCII digits 0–9;
identifier
An identifier is a name that identifies (that is, labels the identity of) either a unique object or a unique ''class'' of objects, where the "object" or class may be an idea, physical countable object (or class thereof), or physical noncountable ...
s are
Unicode sequences of digits, letters, and operator characters that begin with a letter. It is also possible to form identifiers by using Unicode sequences (including whitespace) enclosed by either straight (' ') or standard (‘ ’) single quotes, where the backslash is the escape character.
Keywords have to start with a letter, except the ''•'' keyword to send information.
Operators consist of Unicode sequences of digits, letters, and operator characters, beginning with an operator character.
Labels are identifiers followed by a colon (':').
At the root, Joule is an
imperative language
In computer science, imperative programming is a programming paradigm of software that uses statements that change a program's state. In much the same way that the imperative mood in natural languages expresses commands, an imperative program c ...
and because of that a statement-based language. It has a rich expression syntax, which transforms easily to its relational syntax underneath. Complex expressions become separate statements, where the site of the original expression is replaced by a reference to the acceptor of the results channel. Therefore, nested expressions still compute completely concurrently with their embedding statement.
If amount <= balance
• account withdraw: amount
else
• account report-bounce:
end
An identifiers may name a channel to communicate with the server. If this is the case, it is said to be ''bound'' to that channel.
References
External links
Joule: Distributed Application FoundationsC2: Promise Pipelining
Concurrent programming languages
Object-oriented programming languages
Secure programming languages
Capability systems
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