Author Topic: Logtalk is a cross platform object-oriented logic programming language  (Read 2967 times)

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Logtalk is a cross platform object-oriented logic programming language
Open source object-oriented logic programming language
Logtalk is an object-oriented logic programming language that can use most Prolog implementations as a back-end compiler. As a multi-paradigm language, it includes support for both prototypes and classes, protocols (interfaces), component-based programming through category-based composition, event-driven programming, and high-level multi-threading programming.   


Logtalk is a mature open source object-oriented logic programming language that can use most Prolog implementations as a back-end compiler. Logtalk main features are:

    Separation between interface and implementation
        Predicate directives (declarations) can be contained inside protocols (interfaces), which can be implemented by any object.

    Parametric objects
        Object identifiers can be compound terms containing free variables that can be used to parametrize object predicates. This allows us to interpret predicate clauses as providing instantiations of a parametric object identifier. I.e. through parametric object we can associate any number of methods with a compound term.

    Support for both class-based and prototype-based systems
        You may have, in the same application, class-based hierarchies (with instantiation and specialization relations) and prototype-based hierarchies (with extension relations). Moreover, fundamental language features such as protocols (interfaces) and categories (components) can be used simultaneously by classes, instances, and prototypes.

    Support for multiple object hierarchies
        No need to be constrained to a single, lengthy hierarchy rooted in some generic object.

    Private, protected, and public inheritance
        Logtalk supports private, protected, and public inheritance in a way similar to C++. Moreover, any entity relation can be qualified using a scope keyword. E.g. an object can privately implement a protocol, thus making all protocol declared predicates private.

    Private, protected, and public object predicates
        Set the scope of your object predicates to match your protocol design and let the runtime system enforce your choices.

    Static and dynamic objects
        Objects can be either static or dynamic. Static objects are defined in source files which are compiled and loaded in the same way as Prolog files. Dynamic object can be either defined in source files or created at runtime.

    Static and dynamic object predicates
        Any static object may contain both static and dynamic predicates.

    Logtalk syntax extends standard Prolog syntax
        Logtalk uses standard Prolog syntax with the addition of a few operators and directives for a smooth learning curve. Prolog code can be easily encapsulated inside objects with little or no changes. Moreover, Logtalk can transparently interpret most Prolog modules as Logtalk objects for easy reusing of existing code (e.g. libraries).

    Event-driven programming
        Predicates can be implicitly called when a spied event occurs, allowing programming solutions which minimize object coupling. In addition, events provide support for behavioral reflection and can be used to implement the concepts of pointcut and advice found on Aspect-Oriented Programming.

    Component-based programming
        Predicates can be encapsulated inside categories, which can be virtually imported by any object, without any code duplication and irrespective of object hierarchies. Thus, objects may be defined through composition of categories, which act as fine-grained units of code reuse. Categories may also extend existing objects. Categories can be used to implement aspects and mixin-like behavior without resorting to inheritance.

    Multi-threading programming
        High level multi-threading programming is available when running Logtalk with selected back-end Prolog compilers, allowing objects to support both synchronous and asynchronous messages. Independent and-parallelism and competitive or-parallelism are also supported. Easily take advantage of modern multi-processor and multi-core computers without bothering with the details of creating and destroying threads, implement thread communication, or synchronizing threads.

    Multi-inheritance and multiple-instantiation support
        Logtalk supports multi-inheritance of both protocol and implementation. An object may implement several protocols and extend, specialize, or instantiate several objects. Multi-inheritance conflicts can be solved implicitly by the Logtalk lookup algorithms or explicitly by using predicate directives.

    Good performance
        Logtalk code is compiled using the same technics that you use to write efficient Prolog code. In addition, Logtalk supports both static binding and dynamic binding (with method lookup caching), greatly improving performance. Benchmark results for some Prolog compilers are available here.

    Close integration with the ISO Prolog Standard
        Logtalk is designed for smooth integration with any Prolog compiler that conforms or closely follows the ISO Prolog Standard.

    Compatible with most Prolog compilers
        Logtalk interfaces with a specific back-end Prolog compiler via a minimal configuration file making it compatible with almost any modern compiler.

    Automatic generation of XML documentation files
        Logtalk automatically generates a documentation file in XML format for every compiled object, protocol, or category. The system includes all the necessary XSL(T) files and scripts to convert documenting files to (X)HTML and PDF.

    Dynamic language
        Logtalk is a dynamic language that allows hierarchies, objects, protocols, categories, and methods (predicates) to be freely created and modified at runtime. Other dynamic language features include support for meta-programming and both structural and behavioral reflection.


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