Qore (programming language)

Qore is an interpreted, high-level, general-purpose, garbage collected dynamic programming language, featuring support for code embedding and sandboxing with optional strong typing and a focus on fundamental support for multithreading and SMP scalability.

Qore
Paradigmmulti-paradigm: thread safe/parallel/shared memory, functional, imperative, object-oriented (class-based), procedural, functional
Designed byDavid Nichols
DeveloperDavid Nichols
Stable release
1.16.1 / July 2, 2023; 17 months ago (2023-07-02)
Typing disciplineDynamic, Optionally Strong
Implementation languageC++, Pthreads
OSCross-platform
LicenseMIT License, GNU General Public License, GNU Lesser General Public License
Filename extensions.q, .qm, .qtest
Websitewww.qore.org
Influenced by
Perl, D, C++, Java

Qore is unique because it is an interpreted scripting language with fundamental support for multithreading (meaning more than one part of the same code can run at the same time), and additionally because it features automatic memory management (meaning programmers do not have to allocate and free memory explicitly) while also supporting the RAII idiom with destructors for scope-based resource management and exception-safe programming.[1] This is due to Qore's unique prompt collection implementation for garbage collection.

Qore Scripts

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Qore scripts typically have the following extensions:

  • .q: for Qore scripts
  • .qm: for Qore user modules
  • .qtest: for Qore test scripts

Executable Qore scripts on Unix-like operating systems will typically start with a hashbang to specify the filename of the interpreter as follows:

#!/usr/bin/env qore

Syntax

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Qore syntax is similar to and inspired from the following programming languages:[2]

  • Perl: without %new-style, Qore's syntax is highly similar to Perl; the foreach statement, splice, push, pop, chomp operators, Perl5-compatible regular expressions, and more
  • Java: with %new-style, Qore code looks more similar to Java;[3] the synchronized keyword, the instanceof operator, object and class implementation
  • C++: multiple inheritance, exception handling, static methods, abstract methods
  • D: the on_exit, on_success, and on_error statements provide exception-aware functionality similar to D's scope(exit), scope(failure), allowing exception-aware cleanup code to be placed next to the code requiring cleanup
  • Haskell: the map, foldl, foldr, and select operators with lazy evaluation of functional and list operators and statements

Data Types

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Basic types include: boolean, string, integer, float, date, binary,[4] list, hash (associative arrays), and object,[5] as well as code code for code used as a data type.[6]

Complex types are also supported such as hash<string, bool>, list<string>, reference<list<string>> as well as type-safe hashes.

Multithreading

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Despite being an interpreted language, Qore was designed to support multithreading as a fundamental design principle. All elements of Qore are thread-safe, and the language in general has been designed with SMP scalability in mind. Because all elements of the language were designed to support multithreading, Qore programs and scripts do not have to limit themselves to a subset of Qore's functionality, which is also why there is no Global interpreter lock in Qore.[7]

Threading functionality in Qore is provided by the operating system's POSIX threads library.

Garbage Collection

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Qore features a unique garbage collection approach called prompt collection that allows destructors to be run immediately when objects go out of scope, even if they have recursive references back to themselves. This allows for Qore to support the RAII idiom and also perform garbage collected automatic memory management.

Support for Code Embedding and Sandboxing

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Qore was designed to support embedding and sandboxing logic in applications; this also applies to applications written in Qore as well as applications using the Qore library's public C++ API. By using the Program class which represents a logic container with sandboxing controls, discrete objects can be created and destroyed at runtime containing embedded code to extend or modify the behavior of your application in user-defined ways.[8]

Runtime Library

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Qore's standard runtime library supports data mapping, APIs for communicating with databases (including high-level APIs for SQL operations, schema management, and DBA actions), client APIs and server infrastructure implementations for many protocols including HTTP, REST (with REST schema validation/code generation including Swagger support), client/server SOAP support (including code and message generation), WebSocket, RPC protocols, generic connector APIs, generic data mapping APIs, and many file format and file- and data-exchange protocols and more.[9]

Testing

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Qore supports testing through the QUnit module which facilitates automated testing and Continuous integration processes for code written in Qore.

Availability

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Qore's Git (software) repository is hosted on GitHub. Binary packages are available as RPM s, in MacPorts and in FreeBSD Ports as well as for other operating systems, including Microsoft Windows; see General Source and Download Info on the Qore wiki for more information.

References

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  1. ^ "Why use Qore?". Qore.org. 2016-06-13. Retrieved 2016-06-14.
  2. ^ "qore/ABOUT at develop · qorelanguage/qore · GitHub". Github.com. Retrieved 2016-08-10.
  3. ^ "Qore Programming Language Reference Manual: Parse Directives". Docs.qore.org. Retrieved 2016-08-10.
  4. ^ "Basic Data Types". Qore.org. Retrieved 2012-05-31.
  5. ^ "Qore Programming Language Reference Manual: Container Data Types". Docs.qore.org. Retrieved 2016-08-10.
  6. ^ "Qore Programming Language Reference Manual: Code Data Types". Docs.qore.org. Retrieved 2016-08-10.
  7. ^ "Qore Programming Language Reference Manual: Threading". Docs.qore.org. Retrieved 2016-08-10.
  8. ^ "Program Class". Qore.org. Retrieved 2016-06-13.
  9. ^ "Modules · qorelanguage/qore Wiki · GitHub". Github.com. 2016-06-12. Retrieved 2016-08-10.
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